{ "version": "https://jsonfeed.org/version/1", "title": "自然杂志", "description": "用中文浏览 Nature (自然杂志) 最新报道", "icon": "https://nature.buzzing.cc/icon.png", "_apple_touch_icon": "https://nature.buzzing.cc/apple-touch-icon.png", "_latest_build_time": "2026-03-05T21:27:43.183+08:00", "favicon": "https://nature.buzzing.cc/favicon.ico", "language": "zh-Hans", "_site_version": "default", "home_page_url": "https://nature.buzzing.cc/", "feed_url": "https://nature.buzzing.cc/feed.json", "_sources": [ { "name": "Nature", "url": "https://www.nature.com/" } ], "items": [ { "title": "高塔式晶体管可用于构建节省空间的电路", "summary": "High-rise transistors can be used to build space-saving circuits", "content_text": "High-rise transistors can be used to build space-saving circuits\n原文地址: https://www.nature.com/articles/d41586-026-00249-w", "content_html": "
\"media.nature.com
High-rise transistors can be used to build space-saving circuits (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00249-w/", "url": "https://www.nature.com/articles/d41586-026-00249-w", "date_published": "2026-03-05T13:23:57.530Z", "date_modified": "2026-03-05T13:23:57.530Z", "_original_published": "2026-03-05T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "High-rise transistors can be used to build space-saving circuits" }, "zh-Hans": { "title": "高塔式晶体管可用于构建节省空间的电路" }, "ja": { "title": "高層トランジスタは省スペース回路の構築に利用できる" }, "zh-Hant": { "title": "高塔式晶體管可用於構建節省空間的電路" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00249-w/d41586-026-00249-w_52143914.jpg", "_lite_content_html": "08:00  High-rise transistors can be used to build space-saving circuits (www.nature.com)" }, { "title": "爱泼斯坦丑闻敲响警钟——与富有的捐赠者建立联系需要新规则", "summary": "The Epstein scandal is a wake-up call — new rules are needed on links with rich donors", "content_text": "The Epstein scandal is a wake-up call — new rules are needed on links with rich donors\n原文地址: https://www.nature.com/articles/d41586-026-00698-3", "content_html": "
\"media.nature.com
The Epstein scandal is a wake-up call — new rules are needed on links with rich donors (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00698-3/", "url": "https://www.nature.com/articles/d41586-026-00698-3", "date_published": "2026-03-05T12:35:48.417Z", "date_modified": "2026-03-05T12:35:48.417Z", "_original_published": "2026-03-05T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The Epstein scandal is a wake-up call — new rules are needed on links with rich donors" }, "zh-Hans": { "title": "爱泼斯坦丑闻敲响警钟——与富有的捐赠者建立联系需要新规则" }, "ja": { "title": "エプスタイン事件は警鐘だ——富裕な寄付者との繋がりに関する新たなルールが必要である" }, "zh-Hant": { "title": "愛潑斯坦醜聞敲響警鐘——與富有的捐贈者建立聯繫需要新規則" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00698-3/d41586-026-00698-3_52139446.jpg", "_lite_content_html": "08:00  The Epstein scandal is a wake-up call — new rules are needed on links with rich donors (www.nature.com)" }, { "title": "每日简报:蜗牛的回归——本月最佳科学影像", "summary": "Daily briefing: The return of the snail — the month''s best science images", "content_text": "Daily briefing: The return of the snail — the month''s best science images\n原文地址: https://www.nature.com/articles/d41586-026-00751-1", "content_html": "
\"media.nature.com
Daily briefing: The return of the snail — the month''s best science images (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00751-1/", "url": "https://www.nature.com/articles/d41586-026-00751-1", "date_published": "2026-03-05T12:35:47.537Z", "date_modified": "2026-03-05T12:35:47.537Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: The return of the snail — the month''s best science images" }, "zh-Hans": { "title": "每日简报:蜗牛的回归——本月最佳科学影像" }, "ja": { "title": "デイリーブリーフィング:カタツムリの帰還 ― 今月のベスト科学写真" }, "zh-Hant": { "title": "每日簡報:蝸牛的迴歸——本月最佳科學影像" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00751-1/d41586-026-00751-1_52147010.png", "_lite_content_html": "03-04  Daily briefing: The return of the snail — the month''s best science images (www.nature.com)" }, { "title": "科学界的女性并非“需要解决的问题”", "summary": "Women in science are not a ‘problem to be fixed’", "content_text": "Women in science are not a ‘problem to be fixed’\n原文地址: https://www.nature.com/articles/d41586-026-00546-4", "content_html": "
Women in science are not a ‘problem to be fixed’ (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00546-4/", "url": "https://www.nature.com/articles/d41586-026-00546-4", "date_published": "2026-03-05T10:27:58.362Z", "date_modified": "2026-03-05T10:27:58.362Z", "_original_published": "2026-03-05T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Women in science are not a ‘problem to be fixed’" }, "zh-Hans": { "title": "科学界的女性并非“需要解决的问题”" }, "ja": { "title": "科学分野の女性は「解決すべき問題」ではない" }, "zh-Hant": { "title": "科學界的女性並非“需要解決的問題”" } }, "_lite_content_html": "08:00  Women in science are not a ‘problem to be fixed’ (www.nature.com)" }, { "title": "每日简报:伽利略的笔记在一本古书的页边空白处被发现", "summary": "Daily briefing: Galileo’s notes discovered in the margins of an ancient book", "content_text": "Daily briefing: Galileo’s notes discovered in the margins of an ancient book\n原文地址: https://www.nature.com/articles/d41586-026-00739-x", "content_html": "
\"media.nature.com
Daily briefing: Galileo’s notes discovered in the margins of an ancient book (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00739-x/", "url": "https://www.nature.com/articles/d41586-026-00739-x", "date_published": "2026-03-05T10:27:57.373Z", "date_modified": "2026-03-05T10:27:57.373Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: Galileo’s notes discovered in the margins of an ancient book" }, "zh-Hans": { "title": "每日简报:伽利略的笔记在一本古书的页边空白处被发现" }, "ja": { "title": "デイリーブリーフィング:古代の書物の余白に発見されたガリレオのメモ" }, "zh-Hant": { "title": "每日簡報:伽利略的筆記在一本古書的頁邊空白處被發現" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00739-x/d41586-026-00739-x_52143288.png", "_lite_content_html": "03-03  Daily briefing: Galileo’s notes discovered in the margins of an ancient book (www.nature.com)" }, { "title": "同卵双胞胎受审:DNA检测能否区分他们?", "summary": "Identical twins on trial: can DNA testing tell them apart?", "content_text": "Identical twins on trial: can DNA testing tell them apart?\n原文地址: https://www.nature.com/articles/d41586-026-00521-z", "content_html": "
\"media.nature.com
Identical twins on trial: can DNA testing tell them apart? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00521-z/", "url": "https://www.nature.com/articles/d41586-026-00521-z", "date_published": "2026-03-05T07:31:57.571Z", "date_modified": "2026-03-05T07:31:57.571Z", "_original_published": "2026-03-05T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Identical twins on trial: can DNA testing tell them apart?" }, "zh-Hans": { "title": "同卵双胞胎受审:DNA检测能否区分他们?" }, "ja": { "title": "一卵性双生児の裁判:DNA鑑定で区別できるか?" }, "zh-Hant": { "title": "同卵雙胞胎受審:DNA檢測能否區分他們?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00521-z/d41586-026-00521-z_52069370.jpg", "_lite_content_html": "08:00  Identical twins on trial: can DNA testing tell them apart? (www.nature.com)" }, { "title": "减肥药能治疗成瘾吗?大型研究揭示其潜力", "summary": "Do obesity drugs treat addiction? Huge study hints at their promise", "content_text": "Do obesity drugs treat addiction? Huge study hints at their promise\n原文地址: https://www.nature.com/articles/d41586-026-00734-2", "content_html": "
\"media.nature.com
Do obesity drugs treat addiction? Huge study hints at their promise (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_05__www-nature-com--articles-d41586-026-00734-2/", "url": "https://www.nature.com/articles/d41586-026-00734-2", "date_published": "2026-03-05T04:21:04.368Z", "date_modified": "2026-03-05T04:21:04.368Z", "_original_published": "2026-03-05T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Do obesity drugs treat addiction? Huge study hints at their promise" }, "zh-Hans": { "title": "减肥药能治疗成瘾吗?大型研究揭示其潜力" }, "ja": { "title": "肥満治療薬は依存症を治療するのか?大規模研究がその可能性を示唆" }, "zh-Hant": { "title": "減肥藥能治療成癮嗎?大型研究揭示其潛力" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00734-2/d41586-026-00734-2_52143500.jpg", "_lite_content_html": "08:00  Do obesity drugs treat addiction? Huge study hints at their promise (www.nature.com)" }, { "title": "最新宣称成功制造出难以捉摸的\"六边形\"钻石,这是迄今为止最有力的一次", "summary": "Fresh claim of making elusive ‘hexagonal’ diamond is the strongest yet", "content_text": "Fresh claim of making elusive ‘hexagonal’ diamond is the strongest yet\n原文地址: https://www.nature.com/articles/d41586-026-00711-9", "content_html": "
\"media.nature.com
Fresh claim of making elusive ‘hexagonal’ diamond is the strongest yet (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00711-9/", "url": "https://www.nature.com/articles/d41586-026-00711-9", "date_published": "2026-03-04T17:28:04.938Z", "date_modified": "2026-03-04T17:28:04.938Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Fresh claim of making elusive ‘hexagonal’ diamond is the strongest yet" }, "zh-Hans": { "title": "最新宣称成功制造出难以捉摸的\"六边形\"钻石,这是迄今为止最有力的一次" }, "ja": { "title": "幻の「六角形」ダイヤモンド製造の新たな主張がこれまでで最も有力" }, "zh-Hant": { "title": "最新宣稱成功製造出難以捉摸的\"六邊形\"鑽石,這是迄今為止最有力的一次" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00711-9/d41586-026-00711-9_52139420.jpg", "_lite_content_html": "03-04  Fresh claim of making elusive ‘hexagonal’ diamond is the strongest yet (www.nature.com)" }, { "title": "追踪活性代谢物揭示人类病原体中的特殊化学反应", "summary": "Hunt for reactive metabolites uncovers unusual chemistry in a human pathogen", "content_text": "Hunt for reactive metabolites uncovers unusual chemistry in a human pathogen\n原文地址: https://www.nature.com/articles/d41586-026-00652-3", "content_html": "
\"media.nature.com
Hunt for reactive metabolites uncovers unusual chemistry in a human pathogen (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00652-3/", "url": "https://www.nature.com/articles/d41586-026-00652-3", "date_published": "2026-03-04T16:24:36.227Z", "date_modified": "2026-03-04T16:24:36.227Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Hunt for reactive metabolites uncovers unusual chemistry in a human pathogen" }, "zh-Hans": { "title": "追踪活性代谢物揭示人类病原体中的特殊化学反应" }, "ja": { "title": "反応性代謝物の探索がヒト病原体における特異的な化学反応を解明" }, "zh-Hant": { "title": "追蹤活性代謝物揭示人類病原體中的特殊化學反應" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00652-3/d41586-026-00652-3_52134718.png", "_lite_content_html": "03-04  Hunt for reactive metabolites uncovers unusual chemistry in a human pathogen (www.nature.com)" }, { "title": "放射学人工智能通过整合不同医疗机构的3D影像数据,实现诊断结果的一致性。", "summary": "Radiology AI makes consistent diagnoses using 3D images from different health centres", "content_text": "Radiology AI makes consistent diagnoses using 3D images from different health centres\n原文地址: https://www.nature.com/articles/d41586-026-00645-2", "content_html": "
\"media.nature.com
Radiology AI makes consistent diagnoses using 3D images from different health centres (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00645-2/", "url": "https://www.nature.com/articles/d41586-026-00645-2", "date_published": "2026-03-04T16:24:35.381Z", "date_modified": "2026-03-04T16:24:35.381Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Radiology AI makes consistent diagnoses using 3D images from different health centres" }, "zh-Hans": { "title": "放射学人工智能通过整合不同医疗机构的3D影像数据,实现诊断结果的一致性。" }, "ja": { "title": "放射線AIは、異なる医療機関からの3D画像を用いて一貫した診断を行う" }, "zh-Hant": { "title": "放射學人工智能通過整合不同醫療機構的3D影像數據,實現診斷結果的一致性。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00645-2/d41586-026-00645-2_52128958.png", "_lite_content_html": "03-04  Radiology AI makes consistent diagnoses using 3D images from different health centres (www.nature.com)" }, { "title": "皮肤细胞增强远端抗体反应", "summary": "Skin cells boost distant antibody responses", "content_text": "Skin cells boost distant antibody responses\n原文地址: https://www.nature.com/articles/d41586-026-00379-1", "content_html": "
\"media.nature.com
Skin cells boost distant antibody responses (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00379-1/", "url": "https://www.nature.com/articles/d41586-026-00379-1", "date_published": "2026-03-04T16:24:34.597Z", "date_modified": "2026-03-04T16:24:34.597Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Skin cells boost distant antibody responses" }, "zh-Hans": { "title": "皮肤细胞增强远端抗体反应" }, "ja": { "title": "皮膚細胞は遠隔抗体応答を増強する" }, "zh-Hant": { "title": "皮膚細胞增強遠端抗體反應" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00379-1/d41586-026-00379-1_52139042.jpg", "_lite_content_html": "03-04  Skin cells boost distant antibody responses (www.nature.com)" }, { "title": "是湿润还是干燥的土壤会引发雷暴?这取决于风向如何。", "summary": "Do wet or dry soils trigger thunderstorms? It depends on how the wind blows", "content_text": "Do wet or dry soils trigger thunderstorms? It depends on how the wind blows\n原文地址: https://www.nature.com/articles/d41586-026-00376-4", "content_html": "
\"media.nature.com
Do wet or dry soils trigger thunderstorms? It depends on how the wind blows (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00376-4/", "url": "https://www.nature.com/articles/d41586-026-00376-4", "date_published": "2026-03-04T16:24:33.823Z", "date_modified": "2026-03-04T16:24:33.823Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Do wet or dry soils trigger thunderstorms? It depends on how the wind blows" }, "zh-Hans": { "title": "是湿润还是干燥的土壤会引发雷暴?这取决于风向如何。" }, "ja": { "title": "湿った土壌と乾いた土壌のどちらが雷雨を引き起こすのか?それは風の吹き方次第だ" }, "zh-Hant": { "title": "是溼潤還是乾燥的土壤會引發雷暴?這取決於風向如何。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00376-4/d41586-026-00376-4_52135006.jpg", "_lite_content_html": "03-04  Do wet or dry soils trigger thunderstorms? It depends on how the wind blows (www.nature.com)" }, { "title": "一种基因开关会关闭父母行为,并促使雄性条纹鼠实施幼鼠杀戮", "summary": "A genetic switch turns off parental behaviour and drives infanticide in male striped mice", "content_text": "A genetic switch turns off parental behaviour and drives infanticide in male striped mice\n原文地址: https://www.nature.com/articles/d41586-026-00656-z", "content_html": "
\"media.nature.com
A genetic switch turns off parental behaviour and drives infanticide in male striped mice (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00656-z/", "url": "https://www.nature.com/articles/d41586-026-00656-z", "date_published": "2026-03-04T16:24:33.057Z", "date_modified": "2026-03-04T16:24:33.057Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A genetic switch turns off parental behaviour and drives infanticide in male striped mice" }, "zh-Hans": { "title": "一种基因开关会关闭父母行为,并促使雄性条纹鼠实施幼鼠杀戮" }, "ja": { "title": "遺伝子のスイッチが親行動を停止させ、オスのシマネズミにおける子殺しを促進する" }, "zh-Hant": { "title": "一種基因開關會關閉父母行為,並促使雄性條紋鼠實施幼鼠殺戮" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00656-z/d41586-026-00656-z_52135102.png", "_lite_content_html": "03-04  A genetic switch turns off parental behaviour and drives infanticide in male striped mice (www.nature.com)" }, { "title": "磁性流体在心脏栓塞医疗手术中提供更优密封效果", "summary": "Magnetic fluid offers better seal in heart-plugging medical procedure", "content_text": "Magnetic fluid offers better seal in heart-plugging medical procedure\n原文地址: https://www.nature.com/articles/d41586-026-00375-5", "content_html": "
\"media.nature.com
Magnetic fluid offers better seal in heart-plugging medical procedure (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00375-5/", "url": "https://www.nature.com/articles/d41586-026-00375-5", "date_published": "2026-03-04T16:24:32.265Z", "date_modified": "2026-03-04T16:24:32.265Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Magnetic fluid offers better seal in heart-plugging medical procedure" }, "zh-Hans": { "title": "磁性流体在心脏栓塞医疗手术中提供更优密封效果" }, "ja": { "title": "磁性流体は心臓塞栓術においてより優れた封止効果を提供する" }, "zh-Hant": { "title": "磁性流體在心臟栓塞醫療手術中提供更優密封效果" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00375-5/d41586-026-00375-5_52139386.jpg", "_lite_content_html": "03-04  Magnetic fluid offers better seal in heart-plugging medical procedure (www.nature.com)" }, { "title": "人工智能能编写基因组——距离创造合成生命还有多远?", "summary": "AI can write genomes — how long until it creates synthetic life?", "content_text": "AI can write genomes — how long until it creates synthetic life?\n原文地址: https://www.nature.com/articles/d41586-026-00681-y", "content_html": "
\"media.nature.com
AI can write genomes — how long until it creates synthetic life? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00681-y/", "url": "https://www.nature.com/articles/d41586-026-00681-y", "date_published": "2026-03-04T16:24:31.544Z", "date_modified": "2026-03-04T16:24:31.544Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI can write genomes — how long until it creates synthetic life?" }, "zh-Hans": { "title": "人工智能能编写基因组——距离创造合成生命还有多远?" }, "ja": { "title": "AIはゲノムを書き起こせる――人工生命を生み出すまであとどれくらいか?" }, "zh-Hant": { "title": "人工智能能編寫基因組——距離創造合成生命還有多遠?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00681-y/d41586-026-00681-y_52143304.jpg", "_lite_content_html": "03-04  AI can write genomes — how long until it creates synthetic life? (www.nature.com)" }, { "title": "应激激素信号传导保护扩散的癌细胞免受免疫系统攻击", "summary": "Stress-hormone signalling protects spreading cancer cells from immune system", "content_text": "Stress-hormone signalling protects spreading cancer cells from immune system\n原文地址: https://www.nature.com/articles/d41586-026-00650-5", "content_html": "
\"media.nature.com
Stress-hormone signalling protects spreading cancer cells from immune system (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00650-5/", "url": "https://www.nature.com/articles/d41586-026-00650-5", "date_published": "2026-03-04T16:24:30.773Z", "date_modified": "2026-03-04T16:24:30.773Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Stress-hormone signalling protects spreading cancer cells from immune system" }, "zh-Hans": { "title": "应激激素信号传导保护扩散的癌细胞免受免疫系统攻击" }, "ja": { "title": "ストレスホルモンのシグナル伝達は、拡散する癌細胞を免疫系から保護する" }, "zh-Hant": { "title": "應激激素信號傳導保護擴散的癌細胞免受免疫系統攻擊" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00650-5/d41586-026-00650-5_52134792.png", "_lite_content_html": "03-04  Stress-hormone signalling protects spreading cancer cells from immune system (www.nature.com)" }, { "title": "气温上升对热带昆虫构成威胁", "summary": "Rising temperatures pose a threat to tropical insects", "content_text": "Rising temperatures pose a threat to tropical insects\n原文地址: https://www.nature.com/articles/d41586-026-00377-3", "content_html": "
\"media.nature.com
Rising temperatures pose a threat to tropical insects (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00377-3/", "url": "https://www.nature.com/articles/d41586-026-00377-3", "date_published": "2026-03-04T16:24:29.980Z", "date_modified": "2026-03-04T16:24:29.980Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Rising temperatures pose a threat to tropical insects" }, "zh-Hans": { "title": "气温上升对热带昆虫构成威胁" }, "ja": { "title": "気温の上昇は熱帯の昆虫に脅威をもたらす" }, "zh-Hant": { "title": "氣溫上升對熱帶昆蟲構成威脅" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00377-3/d41586-026-00377-3_52138996.jpg", "_lite_content_html": "03-04  Rising temperatures pose a threat to tropical insects (www.nature.com)" }, { "title": "癌前微环境重塑决定了新生肿瘤的持续存在", "summary": "Precancerous niche remodelling dictates nascent tumour persistence", "content_text": "Precancerous niche remodelling dictates nascent tumour persistence\n原文地址: https://www.nature.com/articles/s41586-026-10157-8", "content_html": "
\"media.springernature.com
Precancerous niche remodelling dictates nascent tumour persistence (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10157-8/", "url": "https://www.nature.com/articles/s41586-026-10157-8", "date_published": "2026-03-04T16:24:29.202Z", "date_modified": "2026-03-04T16:24:29.202Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Precancerous niche remodelling dictates nascent tumour persistence" }, "zh-Hans": { "title": "癌前微环境重塑决定了新生肿瘤的持续存在" }, "ja": { "title": "前癌状態におけるニッチの再構築が、初期腫瘍の持続性を決定する" }, "zh-Hant": { "title": "癌前微環境重塑決定了新生腫瘤的持續存在" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10157-8/MediaObjects/41586_2026_10157_Fig1_HTML.png", "_lite_content_html": "03-04  Precancerous niche remodelling dictates nascent tumour persistence (www.nature.com)" }, { "title": "最大志留纪鱼类揭示硬骨鱼类特征的起源", "summary": "Largest Silurian fish illuminates the origin of osteichthyan characters", "content_text": "Largest Silurian fish illuminates the origin of osteichthyan characters\n原文地址: https://www.nature.com/articles/s41586-025-10008-y", "content_html": "
\"media.springernature.com
Largest Silurian fish illuminates the origin of osteichthyan characters (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-025-10008-y/", "url": "https://www.nature.com/articles/s41586-025-10008-y", "date_published": "2026-03-04T16:24:28.443Z", "date_modified": "2026-03-04T16:24:28.443Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Largest Silurian fish illuminates the origin of osteichthyan characters" }, "zh-Hans": { "title": "最大志留纪鱼类揭示硬骨鱼类特征的起源" }, "ja": { "title": "シルル紀最大の魚類が硬骨魚類の特徴の起源を解明する" }, "zh-Hant": { "title": "最大志留紀魚類揭示硬骨魚類特徵的起源" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10008-y/MediaObjects/41586_2025_10008_Fig1_HTML.png", "_lite_content_html": "03-04  Largest Silurian fish illuminates the origin of osteichthyan characters (www.nature.com)" }, { "title": "宽幅测高技术绘制全球河流河道形态与蓄水量变化图", "summary": "Wide-swath altimetry maps bank shapes and storage changes in global rivers", "content_text": "Wide-swath altimetry maps bank shapes and storage changes in global rivers\n原文地址: https://www.nature.com/articles/s41586-026-10218-y", "content_html": "
\"media.springernature.com
Wide-swath altimetry maps bank shapes and storage changes in global rivers (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10218-y/", "url": "https://www.nature.com/articles/s41586-026-10218-y", "date_published": "2026-03-04T16:24:27.652Z", "date_modified": "2026-03-04T16:24:27.652Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Wide-swath altimetry maps bank shapes and storage changes in global rivers" }, "zh-Hans": { "title": "宽幅测高技术绘制全球河流河道形态与蓄水量变化图" }, "ja": { "title": "広域測高法による河川の形状と貯水量変化の全球分布図" }, "zh-Hant": { "title": "寬幅測高技術繪製全球河流河道形態與蓄水量變化圖" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10218-y/MediaObjects/41586_2026_10218_Fig1_HTML.png", "_lite_content_html": "03-04  Wide-swath altimetry maps bank shapes and storage changes in global rivers (www.nature.com)" }, { "title": "适应性CRISPR–Cas12f同源物驱动RNA引导的转录", "summary": "Exapted CRISPR–Cas12f homologues drive RNA-guided transcription", "content_text": "Exapted CRISPR–Cas12f homologues drive RNA-guided transcription\n原文地址: https://www.nature.com/articles/s41586-026-10166-7", "content_html": "
\"media.springernature.com
Exapted CRISPR–Cas12f homologues drive RNA-guided transcription (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10166-7/", "url": "https://www.nature.com/articles/s41586-026-10166-7", "date_published": "2026-03-04T16:24:26.909Z", "date_modified": "2026-03-04T16:24:26.909Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Exapted CRISPR–Cas12f homologues drive RNA-guided transcription" }, "zh-Hans": { "title": "适应性CRISPR–Cas12f同源物驱动RNA引导的转录" }, "ja": { "title": "適応進化したCRISPR–Cas12fホモログがRNA誘導型転写を駆動する" }, "zh-Hant": { "title": "適應性CRISPR–Cas12f同源物驅動RNA引導的轉錄" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10166-7/MediaObjects/41586_2026_10166_Fig1_HTML.png", "_lite_content_html": "03-04  Exapted CRISPR–Cas12f homologues drive RNA-guided transcription (www.nature.com)" }, { "title": "同源重组缺陷与半合子状态驱动乳腺癌耐药性", "summary": "Homologous recombination deficiency and hemizygosity drive resistance in breast cancer", "content_text": "Homologous recombination deficiency and hemizygosity drive resistance in breast cancer\n原文地址: https://www.nature.com/articles/s41586-026-10197-0", "content_html": "
\"media.springernature.com
Homologous recombination deficiency and hemizygosity drive resistance in breast cancer (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10197-0/", "url": "https://www.nature.com/articles/s41586-026-10197-0", "date_published": "2026-03-04T16:24:26.079Z", "date_modified": "2026-03-04T16:24:26.079Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Homologous recombination deficiency and hemizygosity drive resistance in breast cancer" }, "zh-Hans": { "title": "同源重组缺陷与半合子状态驱动乳腺癌耐药性" }, "ja": { "title": "相同組換え欠損とヘミ接合性が乳癌における耐性を促進する" }, "zh-Hant": { "title": "同源重組缺陷與半合子狀態驅動乳腺癌耐藥性" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10197-0/MediaObjects/41586_2026_10197_Fig1_HTML.png", "_lite_content_html": "03-04  Homologous recombination deficiency and hemizygosity drive resistance in breast cancer (www.nature.com)" }, { "title": "dCas12f–σE–RNAP复合物介导的RNA引导转录的结构基础", "summary": "Structural basis of RNA-guided transcription by a dCas12f–σE–RNAP complex", "content_text": "Structural basis of RNA-guided transcription by a dCas12f–σE–RNAP complex\n原文地址: https://www.nature.com/articles/s41586-026-10178-3", "content_html": "
\"media.springernature.com
Structural basis of RNA-guided transcription by a dCas12f–σE–RNAP complex (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10178-3/", "url": "https://www.nature.com/articles/s41586-026-10178-3", "date_published": "2026-03-04T16:24:25.301Z", "date_modified": "2026-03-04T16:24:25.301Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Structural basis of RNA-guided transcription by a dCas12f–σE–RNAP complex" }, "zh-Hans": { "title": "dCas12f–σE–RNAP复合物介导的RNA引导转录的结构基础" }, "ja": { "title": "dCas12f–σE–RNAP複合体によるRNA誘導性転写の構造基盤" }, "zh-Hant": { "title": "dCas12f–σE–RNAP複合物介導的RNA引導轉錄的結構基礎" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10178-3/MediaObjects/41586_2026_10178_Fig1_HTML.png", "_lite_content_html": "03-04  Structural basis of RNA-guided transcription by a dCas12f–σE–RNAP complex (www.nature.com)" }, { "title": "风切变增强了土壤湿度对快速雷暴发展的影响", "summary": "Wind shear enhances soil moisture influence on rapid thunderstorm growth", "content_text": "Wind shear enhances soil moisture influence on rapid thunderstorm growth\n原文地址: https://www.nature.com/articles/s41586-025-10045-7", "content_html": "
\"media.springernature.com
Wind shear enhances soil moisture influence on rapid thunderstorm growth (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-025-10045-7/", "url": "https://www.nature.com/articles/s41586-025-10045-7", "date_published": "2026-03-04T16:24:24.531Z", "date_modified": "2026-03-04T16:24:24.531Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Wind shear enhances soil moisture influence on rapid thunderstorm growth" }, "zh-Hans": { "title": "风切变增强了土壤湿度对快速雷暴发展的影响" }, "ja": { "title": "風切断は土壌水分が急速な雷雨発達に及ぼす影響を増強する" }, "zh-Hant": { "title": "風切變增強了土壤溼度對快速雷暴發展的影響" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10045-7/MediaObjects/41586_2025_10045_Fig1_HTML.png", "_lite_content_html": "03-04  Wind shear enhances soil moisture influence on rapid thunderstorm growth (www.nature.com)" }, { "title": "运用机器学习推进全球气溶胶预报的运营化", "summary": "Advancing operational global aerosol forecasting with machine learning", "content_text": "Advancing operational global aerosol forecasting with machine learning\n原文地址: https://www.nature.com/articles/s41586-026-10234-y", "content_html": "
\"media.springernature.com
Advancing operational global aerosol forecasting with machine learning (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10234-y/", "url": "https://www.nature.com/articles/s41586-026-10234-y", "date_published": "2026-03-04T16:24:23.732Z", "date_modified": "2026-03-04T16:24:23.732Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Advancing operational global aerosol forecasting with machine learning" }, "zh-Hans": { "title": "运用机器学习推进全球气溶胶预报的运营化" }, "ja": { "title": "機械学習による地球規模エアロゾル予測の高度化" }, "zh-Hant": { "title": "運用機器學習推進全球氣溶膠預報的運營化" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10234-y/MediaObjects/41586_2026_10234_Fig1_HTML.png", "_lite_content_html": "03-04  Advancing operational global aerosol forecasting with machine learning (www.nature.com)" }, { "title": "PIEZO2蛋白力选择性的分子机制", "summary": "The molecular basis of force selectivity by PIEZO2", "content_text": "The molecular basis of force selectivity by PIEZO2\n原文地址: https://www.nature.com/articles/s41586-026-10182-7", "content_html": "
\"media.springernature.com
The molecular basis of force selectivity by PIEZO2 (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10182-7/", "url": "https://www.nature.com/articles/s41586-026-10182-7", "date_published": "2026-03-04T16:24:22.979Z", "date_modified": "2026-03-04T16:24:22.979Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The molecular basis of force selectivity by PIEZO2" }, "zh-Hans": { "title": "PIEZO2蛋白力选择性的分子机制" }, "ja": { "title": "PIEZO2による力選択性の分子基盤" }, "zh-Hant": { "title": "PIEZO2蛋白力選擇性的分子機制" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10182-7/MediaObjects/41586_2026_10182_Fig1_HTML.png", "_lite_content_html": "03-04  The molecular basis of force selectivity by PIEZO2 (www.nature.com)" }, { "title": "糖皮质激素-脂肪酸合成酶轴调控转移性播种过程中的免疫逃逸", "summary": "A glucocorticoid–FAS axis controls immune evasion during metastatic seeding", "content_text": "A glucocorticoid–FAS axis controls immune evasion during metastatic seeding\n原文地址: https://www.nature.com/articles/s41586-026-10222-2", "content_html": "
\"media.springernature.com
A glucocorticoid–FAS axis controls immune evasion during metastatic seeding (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10222-2/", "url": "https://www.nature.com/articles/s41586-026-10222-2", "date_published": "2026-03-04T16:24:22.189Z", "date_modified": "2026-03-04T16:24:22.189Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A glucocorticoid–FAS axis controls immune evasion during metastatic seeding" }, "zh-Hans": { "title": "糖皮质激素-脂肪酸合成酶轴调控转移性播种过程中的免疫逃逸" }, "ja": { "title": "グルココルチコイド-FAS軸は転移性播種時の免疫回避を制御する" }, "zh-Hant": { "title": "糖皮質激素-脂肪酸合成酶軸調控轉移性播種過程中的免疫逃逸" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10222-2/MediaObjects/41586_2026_10222_Fig1_HTML.png", "_lite_content_html": "03-04  A glucocorticoid–FAS axis controls immune evasion during metastatic seeding (www.nature.com)" }, { "title": "海平面远高于大多数沿海灾害评估中的预估值", "summary": "Sea level much higher than assumed in most coastal hazard assessments", "content_text": "Sea level much higher than assumed in most coastal hazard assessments\n原文地址: https://www.nature.com/articles/s41586-026-10196-1", "content_html": "
\"media.springernature.com
Sea level much higher than assumed in most coastal hazard assessments (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10196-1/", "url": "https://www.nature.com/articles/s41586-026-10196-1", "date_published": "2026-03-04T16:24:21.458Z", "date_modified": "2026-03-04T16:24:21.458Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Sea level much higher than assumed in most coastal hazard assessments" }, "zh-Hans": { "title": "海平面远高于大多数沿海灾害评估中的预估值" }, "ja": { "title": "ほとんどの沿岸災害評価で想定されているよりもはるかに高い海面水位" }, "zh-Hant": { "title": "海平面遠高於大多數沿海災害評估中的預估值" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10196-1/MediaObjects/41586_2026_10196_Fig1_HTML.png", "_lite_content_html": "03-04  Sea level much higher than assumed in most coastal hazard assessments (www.nature.com)" }, { "title": "大块六方形金刚石", "summary": "Bulk hexagonal diamond", "content_text": "Bulk hexagonal diamond\n原文地址: https://www.nature.com/articles/s41586-026-10212-4", "content_html": "
\"media.springernature.com
Bulk hexagonal diamond (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10212-4/", "url": "https://www.nature.com/articles/s41586-026-10212-4", "date_published": "2026-03-04T16:24:20.723Z", "date_modified": "2026-03-04T16:24:20.723Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Bulk hexagonal diamond" }, "zh-Hans": { "title": "大块六方形金刚石" }, "ja": { "title": "バルク六方晶ダイヤモンド" }, "zh-Hant": { "title": "大塊六方形金剛石" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10212-4/MediaObjects/41586_2026_10212_Fig1_HTML.png", "_lite_content_html": "03-04  Bulk hexagonal diamond (www.nature.com)" }, { "title": "志留纪早期的最古老关节骨鱼", "summary": "The oldest articulated bony fish from the early Silurian period", "content_text": "The oldest articulated bony fish from the early Silurian period\n原文地址: https://www.nature.com/articles/s41586-026-10125-2", "content_html": "
\"media.springernature.com
The oldest articulated bony fish from the early Silurian period (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10125-2/", "url": "https://www.nature.com/articles/s41586-026-10125-2", "date_published": "2026-03-04T16:24:19.959Z", "date_modified": "2026-03-04T16:24:19.959Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The oldest articulated bony fish from the early Silurian period" }, "zh-Hans": { "title": "志留纪早期的最古老关节骨鱼" }, "ja": { "title": "シルル紀前期に生息した最古の骨格が連結した硬骨魚" }, "zh-Hant": { "title": "志留紀早期的最古老關節骨魚" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10125-2/MediaObjects/41586_2026_10125_Fig1_HTML.png", "_lite_content_html": "03-04  The oldest articulated bony fish from the early Silurian period (www.nature.com)" }, { "title": "无细胞染色质状态追踪揭示疾病起源与治疗反应", "summary": "Cell-free chromatin state tracing reveals disease origin and therapy responses", "content_text": "Cell-free chromatin state tracing reveals disease origin and therapy responses\n原文地址: https://www.nature.com/articles/s41586-026-10224-0", "content_html": "
\"media.springernature.com
Cell-free chromatin state tracing reveals disease origin and therapy responses (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10224-0/", "url": "https://www.nature.com/articles/s41586-026-10224-0", "date_published": "2026-03-04T16:24:19.182Z", "date_modified": "2026-03-04T16:24:19.182Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cell-free chromatin state tracing reveals disease origin and therapy responses" }, "zh-Hans": { "title": "无细胞染色质状态追踪揭示疾病起源与治疗反应" }, "ja": { "title": "無細胞クロマチン状態の追跡により疾患の起源と治療反応が明らかになる" }, "zh-Hant": { "title": "無細胞染色質狀態追蹤揭示疾病起源與治療反應" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10224-0/MediaObjects/41586_2026_10224_Fig1_HTML.png", "_lite_content_html": "03-04  Cell-free chromatin state tracing reveals disease origin and therapy responses (www.nature.com)" }, { "title": "流感病毒聚合酶通过转录共作用机制实现帽结构抢夺的机制", "summary": "Mechanism of co-transcriptional cap snatching by influenza polymerase", "content_text": "Mechanism of co-transcriptional cap snatching by influenza polymerase\n原文地址: https://www.nature.com/articles/s41586-026-10189-0", "content_html": "
\"media.springernature.com
Mechanism of co-transcriptional cap snatching by influenza polymerase (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10189-0/", "url": "https://www.nature.com/articles/s41586-026-10189-0", "date_published": "2026-03-04T16:24:18.397Z", "date_modified": "2026-03-04T16:24:18.397Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Mechanism of co-transcriptional cap snatching by influenza polymerase" }, "zh-Hans": { "title": "流感病毒聚合酶通过转录共作用机制实现帽结构抢夺的机制" }, "ja": { "title": "インフルエンザポリメラーゼによる転写同時進行型キャップ奪取の機構" }, "zh-Hant": { "title": "流感病毒聚合酶通過轉錄共作用機制實現帽結構搶奪的機制" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10189-0/MediaObjects/41586_2026_10189_Fig1_HTML.png", "_lite_content_html": "03-04  Mechanism of co-transcriptional cap snatching by influenza polymerase (www.nature.com)" }, { "title": "微生物群介导的对饮食信号的反应性米色脂肪细胞诱导", "summary": "Microbiota-mediated induction of beige adipocytes in response to dietary cues", "content_text": "Microbiota-mediated induction of beige adipocytes in response to dietary cues\n原文地址: https://www.nature.com/articles/s41586-026-10205-3", "content_html": "
\"media.springernature.com
Microbiota-mediated induction of beige adipocytes in response to dietary cues (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10205-3/", "url": "https://www.nature.com/articles/s41586-026-10205-3", "date_published": "2026-03-04T16:24:17.486Z", "date_modified": "2026-03-04T16:24:17.486Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Microbiota-mediated induction of beige adipocytes in response to dietary cues" }, "zh-Hans": { "title": "微生物群介导的对饮食信号的反应性米色脂肪细胞诱导" }, "ja": { "title": "食事刺激に対する微生物叢を介したベージュ脂肪細胞の誘導" }, "zh-Hant": { "title": "微生物群介導的對飲食信號的反應性米色脂肪細胞誘導" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10205-3/MediaObjects/41586_2026_10205_Fig1_HTML.png", "_lite_content_html": "03-04  Microbiota-mediated induction of beige adipocytes in response to dietary cues (www.nature.com)" }, { "title": "梅林:一种基于计算机断层扫描的视觉-语言基础模型及数据集", "summary": "Merlin: a computed tomography vision–language foundation model and dataset", "content_text": "Merlin: a computed tomography vision–language foundation model and dataset\n原文地址: https://www.nature.com/articles/s41586-026-10181-8", "content_html": "
\"media.springernature.com
Merlin: a computed tomography vision–language foundation model and dataset (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10181-8/", "url": "https://www.nature.com/articles/s41586-026-10181-8", "date_published": "2026-03-04T16:24:16.758Z", "date_modified": "2026-03-04T16:24:16.758Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Merlin: a computed tomography vision–language foundation model and dataset" }, "zh-Hans": { "title": "梅林:一种基于计算机断层扫描的视觉-语言基础模型及数据集" }, "ja": { "title": "Merlin: コンピュータ断層撮影(CT)画像認識言語基盤モデルおよびデータセット" }, "zh-Hant": { "title": "梅林:一種基於計算機斷層掃描的視覺-語言基礎模型及數據集" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10181-8/MediaObjects/41586_2026_10181_Fig1_HTML.png", "_lite_content_html": "03-04  Merlin: a computed tomography vision–language foundation model and dataset (www.nature.com)" }, { "title": "脂质代谢驱动饮食对T细胞铁死亡和免疫的影响", "summary": "Lipid metabolism drives dietary effects on T cell ferroptosis and immunity", "content_text": "Lipid metabolism drives dietary effects on T cell ferroptosis and immunity\n原文地址: https://www.nature.com/articles/s41586-026-10193-4", "content_html": "
\"media.springernature.com
Lipid metabolism drives dietary effects on T cell ferroptosis and immunity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10193-4/", "url": "https://www.nature.com/articles/s41586-026-10193-4", "date_published": "2026-03-04T16:24:15.986Z", "date_modified": "2026-03-04T16:24:15.986Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Lipid metabolism drives dietary effects on T cell ferroptosis and immunity" }, "zh-Hans": { "title": "脂质代谢驱动饮食对T细胞铁死亡和免疫的影响" }, "ja": { "title": "脂質代謝がT細胞のフェロプトーシスと免疫に対する食事の影響を駆動する" }, "zh-Hant": { "title": "脂質代謝驅動飲食對T細胞鐵死亡和免疫的影響" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10193-4/MediaObjects/41586_2026_10193_Fig1_HTML.png", "_lite_content_html": "03-04  Lipid metabolism drives dietary effects on T cell ferroptosis and immunity (www.nature.com)" }, { "title": "通过磁流体实现长期无血栓左心耳闭合", "summary": "Long-term thrombus-free left atrial appendage occlusion via magnetofluids", "content_text": "Long-term thrombus-free left atrial appendage occlusion via magnetofluids\n原文地址: https://www.nature.com/articles/s41586-025-10091-1", "content_html": "
\"media.springernature.com
Long-term thrombus-free left atrial appendage occlusion via magnetofluids (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-025-10091-1/", "url": "https://www.nature.com/articles/s41586-025-10091-1", "date_published": "2026-03-04T16:24:15.137Z", "date_modified": "2026-03-04T16:24:15.137Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Long-term thrombus-free left atrial appendage occlusion via magnetofluids" }, "zh-Hans": { "title": "通过磁流体实现长期无血栓左心耳闭合" }, "ja": { "title": "磁気流体を用いた長期血栓フリー左心耳閉鎖" }, "zh-Hant": { "title": "通過磁流體實現長期無血栓左心耳閉合" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10091-1/MediaObjects/41586_2025_10091_Fig1_HTML.png", "_lite_content_html": "03-04  Long-term thrombus-free left atrial appendage occlusion via magnetofluids (www.nature.com)" }, { "title": "角质形成细胞释放的代谢性警报素可增强全身体液免疫", "summary": "A metabolic alarmin from keratinocytes potentiates systemic humoral immunity", "content_text": "A metabolic alarmin from keratinocytes potentiates systemic humoral immunity\n原文地址: https://www.nature.com/articles/s41586-026-10167-6", "content_html": "
\"media.springernature.com
A metabolic alarmin from keratinocytes potentiates systemic humoral immunity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10167-6/", "url": "https://www.nature.com/articles/s41586-026-10167-6", "date_published": "2026-03-04T16:24:14.242Z", "date_modified": "2026-03-04T16:24:14.242Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A metabolic alarmin from keratinocytes potentiates systemic humoral immunity" }, "zh-Hans": { "title": "角质形成细胞释放的代谢性警报素可增强全身体液免疫" }, "ja": { "title": "ケラチノサイト由来の代謝性アラミンは全身性体液性免疫を増強する" }, "zh-Hant": { "title": "角質形成細胞釋放的代謝性警報素可增強全身體液免疫" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10167-6/MediaObjects/41586_2026_10167_Fig1_HTML.png", "_lite_content_html": "03-04  A metabolic alarmin from keratinocytes potentiates systemic humoral immunity (www.nature.com)" }, { "title": "热带昆虫的有限耐热性及其基因组特征", "summary": "Limited thermal tolerance in tropical insects and its genomic signature", "content_text": "Limited thermal tolerance in tropical insects and its genomic signature\n原文地址: https://www.nature.com/articles/s41586-026-10155-w", "content_html": "
\"media.springernature.com
Limited thermal tolerance in tropical insects and its genomic signature (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10155-w/", "url": "https://www.nature.com/articles/s41586-026-10155-w", "date_published": "2026-03-04T16:24:13.478Z", "date_modified": "2026-03-04T16:24:13.478Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Limited thermal tolerance in tropical insects and its genomic signature" }, "zh-Hans": { "title": "热带昆虫的有限耐热性及其基因组特征" }, "ja": { "title": "熱帯昆虫の限定的な耐熱性とそのゲノム上の特徴" }, "zh-Hant": { "title": "熱帶昆蟲的有限耐熱性及其基因組特徵" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10155-w/MediaObjects/41586_2026_10155_Fig1_HTML.png", "_lite_content_html": "03-04  Limited thermal tolerance in tropical insects and its genomic signature (www.nature.com)" }, { "title": "DICER切割保真度由5''-端结合口袋所调控", "summary": "DICER cleavage fidelity is governed by 5′-end binding pockets", "content_text": "DICER cleavage fidelity is governed by 5′-end binding pockets\n原文地址: https://www.nature.com/articles/s41586-026-10211-5", "content_html": "
\"media.springernature.com
DICER cleavage fidelity is governed by 5′-end binding pockets (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10211-5/", "url": "https://www.nature.com/articles/s41586-026-10211-5", "date_published": "2026-03-04T16:24:12.692Z", "date_modified": "2026-03-04T16:24:12.692Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "DICER cleavage fidelity is governed by 5′-end binding pockets" }, "zh-Hans": { "title": "DICER切割保真度由5''-端结合口袋所调控" }, "ja": { "title": "ダイサーの切断忠実度は5''-末端結合ポケットによって制御される" }, "zh-Hant": { "title": "DICER切割保真度由5''-端結合口袋所調控" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10211-5/MediaObjects/41586_2026_10211_Fig1_HTML.png", "_lite_content_html": "03-04  DICER cleavage fidelity is governed by 5′-end binding pockets (www.nature.com)" }, { "title": "利用Evo 2进行跨生命域的基因组建模与设计", "summary": "Genome modelling and design across all domains of life with Evo 2", "content_text": "Genome modelling and design across all domains of life with Evo 2\n原文地址: https://www.nature.com/articles/s41586-026-10176-5", "content_html": "
\"media.springernature.com
Genome modelling and design across all domains of life with Evo 2 (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10176-5/", "url": "https://www.nature.com/articles/s41586-026-10176-5", "date_published": "2026-03-04T16:24:11.769Z", "date_modified": "2026-03-04T16:24:11.769Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Genome modelling and design across all domains of life with Evo 2" }, "zh-Hans": { "title": "利用Evo 2进行跨生命域的基因组建模与设计" }, "ja": { "title": "Evo 2による全生物領域にわたるゲノムモデリングと設計" }, "zh-Hant": { "title": "利用Evo 2進行跨生命域的基因組建模與設計" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10176-5/MediaObjects/41586_2026_10176_Fig1_HTML.png", "_lite_content_html": "03-04  Genome modelling and design across all domains of life with Evo 2 (www.nature.com)" }, { "title": "注入心脏的磁性凝胶或可阻止中风", "summary": "Magnetic gel injected into the heart could stop strokes", "content_text": "Magnetic gel injected into the heart could stop strokes\n原文地址: https://www.nature.com/articles/d41586-026-00740-4", "content_html": "
\"media.nature.com
Magnetic gel injected into the heart could stop strokes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00740-4/", "url": "https://www.nature.com/articles/d41586-026-00740-4", "date_published": "2026-03-04T16:24:11.005Z", "date_modified": "2026-03-04T16:24:11.005Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Magnetic gel injected into the heart could stop strokes" }, "zh-Hans": { "title": "注入心脏的磁性凝胶或可阻止中风" }, "ja": { "title": "心臓に注入された磁性ゲルが脳卒中を阻止する可能性" }, "zh-Hant": { "title": "注入心臟的磁性凝膠或可阻止中風" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00740-4/d41586-026-00740-4_52143434.jpg", "_lite_content_html": "03-04  Magnetic gel injected into the heart could stop strokes (www.nature.com)" }, { "title": "采用快凝磁流体的心脏手术或可预防中风", "summary": "Heart surgery with quick-setting magnetic fluid could prevent strokes", "content_text": "Heart surgery with quick-setting magnetic fluid could prevent strokes\n原文地址: https://www.nature.com/articles/d41586-026-00742-2", "content_html": "
\"media.nature.com
Heart surgery with quick-setting magnetic fluid could prevent strokes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00742-2/", "url": "https://www.nature.com/articles/d41586-026-00742-2", "date_published": "2026-03-04T16:24:10.047Z", "date_modified": "2026-03-04T16:24:10.047Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Heart surgery with quick-setting magnetic fluid could prevent strokes" }, "zh-Hans": { "title": "采用快凝磁流体的心脏手术或可预防中风" }, "ja": { "title": "速硬化磁性流体を用いた心臓手術が脳卒中を予防できる可能性がある" }, "zh-Hant": { "title": "採用快凝磁流體的心臟手術或可預防中風" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00742-2/d41586-026-00742-2_52138802.jpg", "_lite_content_html": "03-04  Heart surgery with quick-setting magnetic fluid could prevent strokes (www.nature.com)" }, { "title": "利他行为与育儿行为的共同神经机制", "summary": "Shared neural substrates of prosocial and parenting behaviours", "content_text": "Shared neural substrates of prosocial and parenting behaviours\n原文地址: https://www.nature.com/articles/s41586-026-10327-8", "content_html": "
Shared neural substrates of prosocial and parenting behaviours (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-s41586-026-10327-8/", "url": "https://www.nature.com/articles/s41586-026-10327-8", "date_published": "2026-03-04T16:24:09.176Z", "date_modified": "2026-03-04T16:24:09.176Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Shared neural substrates of prosocial and parenting behaviours" }, "zh-Hans": { "title": "利他行为与育儿行为的共同神经机制" }, "ja": { "title": "利他的行動と子育て行動の共有される神経基盤" }, "zh-Hant": { "title": "利他行為與育兒行為的共同神經機制" } }, "_lite_content_html": "03-04  Shared neural substrates of prosocial and parenting behaviours (www.nature.com)" }, { "title": "压力之下:墨西哥科研体系的现状", "summary": "Under pressure: the reality of Mexico’s research system", "content_text": "Under pressure: the reality of Mexico’s research system\n原文地址: https://www.nature.com/articles/d41586-026-00442-x", "content_html": "
\"media.nature.com
Under pressure: the reality of Mexico’s research system (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00442-x/", "url": "https://www.nature.com/articles/d41586-026-00442-x", "date_published": "2026-03-04T14:31:57.124Z", "date_modified": "2026-03-04T14:31:57.124Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Under pressure: the reality of Mexico’s research system" }, "zh-Hans": { "title": "压力之下:墨西哥科研体系的现状" }, "ja": { "title": "プレッシャー下で:メキシコ研究システムの現実" }, "zh-Hant": { "title": "壓力之下:墨西哥科研體系的現狀" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00442-x/d41586-026-00442-x_52056062.jpg", "_lite_content_html": "03-04  Under pressure: the reality of Mexico’s research system (www.nature.com)" }, { "title": "一位数学家如何瓦解墨西哥强大的贩毒集团", "summary": "How a mathematician is cracking open Mexico’s powerful drug cartels", "content_text": "How a mathematician is cracking open Mexico’s powerful drug cartels\n原文地址: https://www.nature.com/articles/d41586-026-00299-0", "content_html": "
\"media.nature.com
How a mathematician is cracking open Mexico’s powerful drug cartels (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00299-0/", "url": "https://www.nature.com/articles/d41586-026-00299-0", "date_published": "2026-03-04T14:31:56.208Z", "date_modified": "2026-03-04T14:31:56.208Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How a mathematician is cracking open Mexico’s powerful drug cartels" }, "zh-Hans": { "title": "一位数学家如何瓦解墨西哥强大的贩毒集团" }, "ja": { "title": "数学者がメキシコの強力な麻薬カルテルをいかにして解体しているか" }, "zh-Hant": { "title": "一位數學家如何瓦解墨西哥強大的販毒集團" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00299-0/d41586-026-00299-0_52056040.jpg", "_lite_content_html": "03-04  How a mathematician is cracking open Mexico’s powerful drug cartels (www.nature.com)" }, { "title": "整个世界都是舞台", "summary": "All the world is staged", "content_text": "All the world is staged\n原文地址: https://www.nature.com/articles/d41586-026-00131-9", "content_html": "
\"media.nature.com
All the world is staged (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00131-9/", "url": "https://www.nature.com/articles/d41586-026-00131-9", "date_published": "2026-03-04T13:27:53.128Z", "date_modified": "2026-03-04T13:27:53.128Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "All the world is staged" }, "zh-Hans": { "title": "整个世界都是舞台" }, "ja": { "title": "世界はすべて舞台である" }, "zh-Hant": { "title": "整個世界都是舞臺" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00131-9/d41586-026-00131-9_51934186.jpg", "_lite_content_html": "03-04  All the world is staged (www.nature.com)" }, { "title": "个人捐赠者的资金支持:埃普斯坦案的启示", "summary": "Funding from individual donors: lessons from the Epstein case", "content_text": "Funding from individual donors: lessons from the Epstein case\n原文地址: https://www.nature.com/articles/d41586-026-00658-x", "content_html": "
\"media.nature.com
Funding from individual donors: lessons from the Epstein case (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00658-x/", "url": "https://www.nature.com/articles/d41586-026-00658-x", "date_published": "2026-03-04T12:39:44.391Z", "date_modified": "2026-03-04T12:39:44.391Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Funding from individual donors: lessons from the Epstein case" }, "zh-Hans": { "title": "个人捐赠者的资金支持:埃普斯坦案的启示" }, "ja": { "title": "個人寄付者からの資金調達:エプスタイン事件から学ぶ教訓" }, "zh-Hant": { "title": "個人捐贈者的資金支持:埃普斯坦案的啟示" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00658-x/d41586-026-00658-x_52139010.jpg", "_lite_content_html": "03-04  Funding from individual donors: lessons from the Epstein case (www.nature.com)" }, { "title": "气候变化与地缘政治威胁着水资源供应——但灾难并非不可避免", "summary": "Climate change and geopolitics threaten water supplies — but disaster is not inevitable", "content_text": "Climate change and geopolitics threaten water supplies — but disaster is not inevitable\n原文地址: https://www.nature.com/articles/d41586-026-00659-w", "content_html": "
\"media.nature.com
Climate change and geopolitics threaten water supplies — but disaster is not inevitable (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00659-w/", "url": "https://www.nature.com/articles/d41586-026-00659-w", "date_published": "2026-03-04T11:21:50.413Z", "date_modified": "2026-03-04T11:21:50.413Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Climate change and geopolitics threaten water supplies — but disaster is not inevitable" }, "zh-Hans": { "title": "气候变化与地缘政治威胁着水资源供应——但灾难并非不可避免" }, "ja": { "title": "気候変動と地政学が水供給を脅かしている——しかし災害は避けられないものではない" }, "zh-Hant": { "title": "氣候變化與地緣政治威脅著水資源供應——但災難並非不可避免" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00659-w/d41586-026-00659-w_51991022.jpg", "_lite_content_html": "03-04  Climate change and geopolitics threaten water supplies — but disaster is not inevitable (www.nature.com)" }, { "title": "癌症血液检测随处可见。它们真的有效吗?", "summary": "Cancer blood tests are everywhere. Do they really work?", "content_text": "Cancer blood tests are everywhere. Do they really work?\n原文地址: https://www.nature.com/articles/d41586-026-00661-2", "content_html": "
\"media.nature.com
Cancer blood tests are everywhere. Do they really work? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_04__www-nature-com--articles-d41586-026-00661-2/", "url": "https://www.nature.com/articles/d41586-026-00661-2", "date_published": "2026-03-04T10:17:44.163Z", "date_modified": "2026-03-04T10:17:44.163Z", "_original_published": "2026-03-04T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cancer blood tests are everywhere. Do they really work?" }, "zh-Hans": { "title": "癌症血液检测随处可见。它们真的有效吗?" }, "ja": { "title": "がん血液検査は至る所にある。本当に効果があるのか?" }, "zh-Hant": { "title": "癌症血液檢測隨處可見。它們真的有效嗎?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00661-2/d41586-026-00661-2_52124458.jpg", "_lite_content_html": "03-04  Cancer blood tests are everywhere. Do they really work? (www.nature.com)" }, { "title": "最密集的恒星系统是迄今发现同类中最紧凑的", "summary": "Jam-packed star system is most compact of its kind ever found", "content_text": "Jam-packed star system is most compact of its kind ever found\n原文地址: https://www.nature.com/articles/d41586-026-00667-w", "content_html": "
\"media.nature.com
Jam-packed star system is most compact of its kind ever found (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00667-w/", "url": "https://www.nature.com/articles/d41586-026-00667-w", "date_published": "2026-03-03T20:27:47.340Z", "date_modified": "2026-03-03T20:27:47.340Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Jam-packed star system is most compact of its kind ever found" }, "zh-Hans": { "title": "最密集的恒星系统是迄今发现同类中最紧凑的" }, "ja": { "title": "これまでに発見された同種の恒星系の中で最も密集した星系" }, "zh-Hant": { "title": "最密集的恆星系統是迄今發現同類中最緊湊的" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00667-w/d41586-026-00667-w_52135182.jpg", "_lite_content_html": "03-03  Jam-packed star system is most compact of its kind ever found (www.nature.com)" }, { "title": "我和博士导师的关系变得有毒了——我该怎么办?", "summary": "My relationship with my PhD supervisor has become toxic — what do I do?", "content_text": "My relationship with my PhD supervisor has become toxic — what do I do?\n原文地址: https://www.nature.com/articles/d41586-025-04126-w", "content_html": "
My relationship with my PhD supervisor has become toxic — what do I do? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-025-04126-w/", "url": "https://www.nature.com/articles/d41586-025-04126-w", "date_published": "2026-03-03T19:23:50.427Z", "date_modified": "2026-03-03T19:23:50.427Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "My relationship with my PhD supervisor has become toxic — what do I do?" }, "zh-Hans": { "title": "我和博士导师的关系变得有毒了——我该怎么办?" }, "ja": { "title": "博士課程の指導教員との関係が悪化してしまいました。どうすればいいでしょうか?" }, "zh-Hant": { "title": "我和博士導師的關係變得有毒了——我該怎麼辦?" } }, "_lite_content_html": "03-03  My relationship with my PhD supervisor has become toxic — what do I do? (www.nature.com)" }, { "title": "气候冲击——不仅是变暖——威胁着非洲疟疾防治工作", "summary": "Climate shocks, not just warming, threaten malaria control efforts in Africa", "content_text": "Climate shocks, not just warming, threaten malaria control efforts in Africa\n原文地址: https://www.nature.com/articles/d41586-026-00491-2", "content_html": "
\"media.nature.com
Climate shocks, not just warming, threaten malaria control efforts in Africa (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00491-2/", "url": "https://www.nature.com/articles/d41586-026-00491-2", "date_published": "2026-03-03T18:20:10.700Z", "date_modified": "2026-03-03T18:20:10.700Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Climate shocks, not just warming, threaten malaria control efforts in Africa" }, "zh-Hans": { "title": "气候冲击——不仅是变暖——威胁着非洲疟疾防治工作" }, "ja": { "title": "温暖化だけでなく気候変動の衝撃が、アフリカのマラリア対策の取り組みを脅かしている" }, "zh-Hant": { "title": "氣候衝擊——不僅是變暖——威脅著非洲瘧疾防治工作" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00491-2/d41586-026-00491-2_52139216.jpg", "_lite_content_html": "03-03  Climate shocks, not just warming, threaten malaria control efforts in Africa (www.nature.com)" }, { "title": "快速进化的DNA如何在细胞分裂中保持基本功能?", "summary": "How can fast-evolving DNA retain a fundamental function in cell division?", "content_text": "How can fast-evolving DNA retain a fundamental function in cell division?\n原文地址: https://www.nature.com/articles/d41586-026-00629-2", "content_html": "
\"media.nature.com
How can fast-evolving DNA retain a fundamental function in cell division? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00629-2/", "url": "https://www.nature.com/articles/d41586-026-00629-2", "date_published": "2026-03-03T17:16:15.089Z", "date_modified": "2026-03-03T17:16:15.089Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How can fast-evolving DNA retain a fundamental function in cell division?" }, "zh-Hans": { "title": "快速进化的DNA如何在细胞分裂中保持基本功能?" }, "ja": { "title": "急速に進化するDNAは、細胞分裂における基本的な機能をどのように維持できるのか?" }, "zh-Hant": { "title": "快速進化的DNA如何在細胞分裂中保持基本功能?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00629-2/d41586-026-00629-2_52139230.jpg", "_lite_content_html": "03-03  How can fast-evolving DNA retain a fundamental function in cell division? (www.nature.com)" }, { "title": "基因编码的组装记录器可实现细胞历史的时间分辨", "summary": "Genetically encoded assembly recorder temporally resolves cellular history", "content_text": "Genetically encoded assembly recorder temporally resolves cellular history\n原文地址: https://www.nature.com/articles/s41586-026-10323-y", "content_html": "
Genetically encoded assembly recorder temporally resolves cellular history (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-s41586-026-10323-y/", "url": "https://www.nature.com/articles/s41586-026-10323-y", "date_published": "2026-03-03T17:16:14.127Z", "date_modified": "2026-03-03T17:16:14.127Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Genetically encoded assembly recorder temporally resolves cellular history" }, "zh-Hans": { "title": "基因编码的组装记录器可实现细胞历史的时间分辨" }, "ja": { "title": "遺伝子的にコード化された組立記録装置が細胞の歴史を時間分解能で解明する" }, "zh-Hant": { "title": "基因編碼的組裝記錄器可實現細胞歷史的時間分辨" } }, "_lite_content_html": "03-03  Genetically encoded assembly recorder temporally resolves cellular history (www.nature.com)" }, { "title": "嘿ChatGPT,帮我写篇虚构论文:这些大型语言模型甘愿参与学术造假", "summary": "Hey ChatGPT, write me a fictional paper: these LLMs are willing to commit academic fraud", "content_text": "Hey ChatGPT, write me a fictional paper: these LLMs are willing to commit academic fraud\n原文地址: https://www.nature.com/articles/d41586-026-00595-9", "content_html": "
\"media.nature.com
Hey ChatGPT, write me a fictional paper: these LLMs are willing to commit academic fraud (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00595-9/", "url": "https://www.nature.com/articles/d41586-026-00595-9", "date_published": "2026-03-03T16:28:19.511Z", "date_modified": "2026-03-03T16:28:19.511Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Hey ChatGPT, write me a fictional paper: these LLMs are willing to commit academic fraud" }, "zh-Hans": { "title": "嘿ChatGPT,帮我写篇虚构论文:这些大型语言模型甘愿参与学术造假" }, "ja": { "title": "おいChatGPT、フィクションの論文を書いてくれ:これらの大規模言語モデルは学術不正を喜んで行う" }, "zh-Hant": { "title": "嘿ChatGPT,幫我寫篇虛構論文:這些大型語言模型甘願參與學術造假" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00595-9/d41586-026-00595-9_52128724.jpg", "_lite_content_html": "03-03  Hey ChatGPT, write me a fictional paper: these LLMs are willing to commit academic fraud (www.nature.com)" }, { "title": "从内部看雨中鬣蜥与珊瑚——二月最佳科学影像", "summary": "See raining iguanas and coral from the inside out — February’s best science images", "content_text": "See raining iguanas and coral from the inside out — February’s best science images\n原文地址: https://www.nature.com/articles/d41586-026-00597-7", "content_html": "
\"media.nature.com
See raining iguanas and coral from the inside out — February’s best science images (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00597-7/", "url": "https://www.nature.com/articles/d41586-026-00597-7", "date_published": "2026-03-03T16:28:18.543Z", "date_modified": "2026-03-03T16:28:18.543Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "See raining iguanas and coral from the inside out — February’s best science images" }, "zh-Hans": { "title": "从内部看雨中鬣蜥与珊瑚——二月最佳科学影像" }, "ja": { "title": "イグアナの雨と珊瑚の内部構造を観察しよう ― 2月のベスト科学画像" }, "zh-Hant": { "title": "從內部看雨中鬣蜥與珊瑚——二月最佳科學影像" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00597-7/d41586-026-00597-7_52098712.jpg", "_lite_content_html": "03-03  See raining iguanas and coral from the inside out — February’s best science images (www.nature.com)" }, { "title": "超越GDP不应意味着将可持续发展目标置于次要地位", "summary": "Going ‘beyond GDP’ should not mean sidelining the SDGs", "content_text": "Going ‘beyond GDP’ should not mean sidelining the SDGs\n原文地址: https://www.nature.com/articles/d41586-026-00657-y", "content_html": "
\"media.nature.com
Going ‘beyond GDP’ should not mean sidelining the SDGs (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00657-y/", "url": "https://www.nature.com/articles/d41586-026-00657-y", "date_published": "2026-03-03T15:24:15.468Z", "date_modified": "2026-03-03T15:24:15.468Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Going ‘beyond GDP’ should not mean sidelining the SDGs" }, "zh-Hans": { "title": "超越GDP不应意味着将可持续发展目标置于次要地位" }, "ja": { "title": "「GDPを超えた」という考え方は、SDGsを脇に追いやることを意味してはならない" }, "zh-Hant": { "title": "超越GDP不應意味著將可持續發展目標置於次要地位" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00657-y/d41586-026-00657-y_52139028.jpg", "_lite_content_html": "03-03  Going ‘beyond GDP’ should not mean sidelining the SDGs (www.nature.com)" }, { "title": "从第一部电话到百年后的视频会议", "summary": "From the first telephone to videoconferencing in 100 years", "content_text": "From the first telephone to videoconferencing in 100 years\n原文地址: https://www.nature.com/articles/d41586-026-00641-6", "content_html": "
\"media.nature.com
From the first telephone to videoconferencing in 100 years (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00641-6/", "url": "https://www.nature.com/articles/d41586-026-00641-6", "date_published": "2026-03-03T14:20:09.563Z", "date_modified": "2026-03-03T14:20:09.563Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "From the first telephone to videoconferencing in 100 years" }, "zh-Hans": { "title": "从第一部电话到百年后的视频会议" }, "ja": { "title": "最初の電話から100年後のテレビ会議まで" }, "zh-Hant": { "title": "從第一部電話到百年後的視頻會議" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00641-6/d41586-026-00641-6_15948434.jpg", "_lite_content_html": "03-03  From the first telephone to videoconferencing in 100 years (www.nature.com)" }, { "title": "作者更正:健康的森林守护亚马逊地区的传统野生肉类食物系统", "summary": "Author Correction: Healthy forests safeguard traditional wild meat food systems in Amazonia", "content_text": "Author Correction: Healthy forests safeguard traditional wild meat food systems in Amazonia\n原文地址: https://www.nature.com/articles/s41586-026-10332-x", "content_html": "
Author Correction: Healthy forests safeguard traditional wild meat food systems in Amazonia (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-s41586-026-10332-x/", "url": "https://www.nature.com/articles/s41586-026-10332-x", "date_published": "2026-03-03T13:16:37.061Z", "date_modified": "2026-03-03T13:16:37.061Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: Healthy forests safeguard traditional wild meat food systems in Amazonia" }, "zh-Hans": { "title": "作者更正:健康的森林守护亚马逊地区的传统野生肉类食物系统" }, "ja": { "title": "著者による修正:健全な森林はアマゾニアにおける伝統的な野生肉食糧システムを保護する" }, "zh-Hant": { "title": "作者更正:健康的森林守護亞馬遜地區的傳統野生肉類食物系統" } }, "_lite_content_html": "03-03  Author Correction: Healthy forests safeguard traditional wild meat food systems in Amazonia (www.nature.com)" }, { "title": "尽管遭遇挫折,美国的气候行动必须继续推进。", "summary": "US climate actions must continue, despite setbacks", "content_text": "US climate actions must continue, despite setbacks\n原文地址: https://www.nature.com/articles/d41586-026-00660-3", "content_html": "
\"media.nature.com
US climate actions must continue, despite setbacks (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00660-3/", "url": "https://www.nature.com/articles/d41586-026-00660-3", "date_published": "2026-03-03T12:28:10.012Z", "date_modified": "2026-03-03T12:28:10.012Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "US climate actions must continue, despite setbacks" }, "zh-Hans": { "title": "尽管遭遇挫折,美国的气候行动必须继续推进。" }, "ja": { "title": "米国の気候変動対策は、挫折があっても継続されなければならない" }, "zh-Hant": { "title": "儘管遭遇挫折,美國的氣候行動必須繼續推進。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00660-3/d41586-026-00660-3_52124536.jpg", "_lite_content_html": "03-03  US climate actions must continue, despite setbacks (www.nature.com)" }, { "title": "为何“量子蛋白质”可能成为生物学领域的下一个重大突破", "summary": "Why ‘quantum proteins’ could be the next big thing in biology", "content_text": "Why ‘quantum proteins’ could be the next big thing in biology\n原文地址: https://www.nature.com/articles/d41586-026-00662-1", "content_html": "
\"media.nature.com
Why ‘quantum proteins’ could be the next big thing in biology (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00662-1/", "url": "https://www.nature.com/articles/d41586-026-00662-1", "date_published": "2026-03-03T11:24:15.836Z", "date_modified": "2026-03-03T11:24:15.836Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why ‘quantum proteins’ could be the next big thing in biology" }, "zh-Hans": { "title": "为何“量子蛋白质”可能成为生物学领域的下一个重大突破" }, "ja": { "title": "なぜ「量子タンパク質」が生物学の次なる大発見となる可能性があるのか" }, "zh-Hant": { "title": "為何“量子蛋白質”可能成為生物學領域的下一個重大突破" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00662-1/d41586-026-00662-1_52134638.jpg", "_lite_content_html": "03-03  Why ‘quantum proteins’ could be the next big thing in biology (www.nature.com)" }, { "title": "内斗如何导致玛雅文明走向灾难性崩溃", "summary": "How infighting led the Maya civilization to catastrophic collapse", "content_text": "How infighting led the Maya civilization to catastrophic collapse\n原文地址: https://www.nature.com/articles/d41586-026-00663-0", "content_html": "
\"media.nature.com
How infighting led the Maya civilization to catastrophic collapse (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00663-0/", "url": "https://www.nature.com/articles/d41586-026-00663-0", "date_published": "2026-03-03T10:21:03.362Z", "date_modified": "2026-03-03T10:21:03.362Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How infighting led the Maya civilization to catastrophic collapse" }, "zh-Hans": { "title": "内斗如何导致玛雅文明走向灾难性崩溃" }, "ja": { "title": "内紛がマヤ文明を壊滅的な崩壊へと導いた経緯" }, "zh-Hant": { "title": "內鬥如何導致瑪雅文明走向災難性崩潰" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00663-0/d41586-026-00663-0_52103140.jpg", "_lite_content_html": "03-03  How infighting led the Maya civilization to catastrophic collapse (www.nature.com)" }, { "title": "气候研究具有全球性——风险与责任也应全球分担", "summary": "Climate research is global — risks and responsibilities should also be distributed", "content_text": "Climate research is global — risks and responsibilities should also be distributed\n原文地址: https://www.nature.com/articles/d41586-026-00680-z", "content_html": "
Climate research is global — risks and responsibilities should also be distributed (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00680-z/", "url": "https://www.nature.com/articles/d41586-026-00680-z", "date_published": "2026-03-03T10:20:43.357Z", "date_modified": "2026-03-03T10:20:43.357Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Climate research is global — risks and responsibilities should also be distributed" }, "zh-Hans": { "title": "气候研究具有全球性——风险与责任也应全球分担" }, "ja": { "title": "気候研究は地球規模である——リスクと責任もまた分配されるべきである" }, "zh-Hant": { "title": "氣候研究具有全球性——風險與責任也應全球分擔" } }, "_lite_content_html": "03-03  Climate research is global — risks and responsibilities should also be distributed (www.nature.com)" }, { "title": "韩国《人工智能框架法案》聚焦权利与安全", "summary": "South Korea’s AI framework act focuses on rights and safety", "content_text": "South Korea’s AI framework act focuses on rights and safety\n原文地址: https://www.nature.com/articles/d41586-026-00678-7", "content_html": "
South Korea’s AI framework act focuses on rights and safety (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00678-7/", "url": "https://www.nature.com/articles/d41586-026-00678-7", "date_published": "2026-03-03T10:20:23.351Z", "date_modified": "2026-03-03T10:20:23.351Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "South Korea’s AI framework act focuses on rights and safety" }, "zh-Hans": { "title": "韩国《人工智能框架法案》聚焦权利与安全" }, "ja": { "title": "韓国のAI基本法は権利と安全に焦点を当てている" }, "zh-Hant": { "title": "韓國《人工智能框架法案》聚焦權利與安全" } }, "_lite_content_html": "03-03  South Korea’s AI framework act focuses on rights and safety (www.nature.com)" }, { "title": "分阶段推出开放式人工智能将降低风险", "summary": "Releasing open-weight AI in steps would alleviate risks", "content_text": "Releasing open-weight AI in steps would alleviate risks\n原文地址: https://www.nature.com/articles/d41586-026-00679-6", "content_html": "
Releasing open-weight AI in steps would alleviate risks (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_03__www-nature-com--articles-d41586-026-00679-6/", "url": "https://www.nature.com/articles/d41586-026-00679-6", "date_published": "2026-03-03T10:20:19.436Z", "date_modified": "2026-03-03T10:20:19.436Z", "_original_published": "2026-03-03T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Releasing open-weight AI in steps would alleviate risks" }, "zh-Hans": { "title": "分阶段推出开放式人工智能将降低风险" }, "ja": { "title": "段階的にオープンウェイトAIをリリースすることでリスクを軽減できる" }, "zh-Hant": { "title": "分階段推出開放式人工智能將降低風險" } }, "_lite_content_html": "03-03  Releasing open-weight AI in steps would alleviate risks (www.nature.com)" }, { "title": "地球最古老的晶体表明板块构造作用起源于早期", "summary": "Earth''s oldest crystals suggest an early start for plate tectonics", "content_text": "Earth''s oldest crystals suggest an early start for plate tectonics\n原文地址: https://www.nature.com/articles/d41586-026-00628-3", "content_html": "
\"media.nature.com
Earth''s oldest crystals suggest an early start for plate tectonics (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00628-3/", "url": "https://www.nature.com/articles/d41586-026-00628-3", "date_published": "2026-03-02T21:17:05.468Z", "date_modified": "2026-03-02T21:17:05.468Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Earth''s oldest crystals suggest an early start for plate tectonics" }, "zh-Hans": { "title": "地球最古老的晶体表明板块构造作用起源于早期" }, "ja": { "title": "地球最古の結晶が示す、プレートテクトニクスの早期始動" }, "zh-Hant": { "title": "地球最古老的晶體表明板塊構造作用起源於早期" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00628-3/d41586-026-00628-3_52135188.jpg", "_lite_content_html": "03-02  Earth''s oldest crystals suggest an early start for plate tectonics (www.nature.com)" }, { "title": "BCDX2–CX3和DX2–CX3复合物组装并稳定RAD51纤维", "summary": "BCDX2–CX3 and DX2–CX3 complexes assemble and stabilize RAD51 filaments", "content_text": "BCDX2–CX3 and DX2–CX3 complexes assemble and stabilize RAD51 filaments\n原文地址: https://www.nature.com/articles/s41586-026-10314-z", "content_html": "
BCDX2–CX3 and DX2–CX3 complexes assemble and stabilize RAD51 filaments (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-s41586-026-10314-z/", "url": "https://www.nature.com/articles/s41586-026-10314-z", "date_published": "2026-03-02T17:17:49.548Z", "date_modified": "2026-03-02T17:17:49.548Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "BCDX2–CX3 and DX2–CX3 complexes assemble and stabilize RAD51 filaments" }, "zh-Hans": { "title": "BCDX2–CX3和DX2–CX3复合物组装并稳定RAD51纤维" }, "ja": { "title": "BCDX2–CX3およびDX2–CX3複合体はRAD51フィラメントを組み立て安定化させる" }, "zh-Hant": { "title": "BCDX2–CX3和DX2–CX3複合物組裝並穩定RAD51纖維" } }, "_lite_content_html": "03-02  BCDX2–CX3 and DX2–CX3 complexes assemble and stabilize RAD51 filaments (www.nature.com)" }, { "title": "作者更正:根部微生物群驱动磷酸盐胁迫与免疫的直接整合", "summary": "Author Correction: Root microbiota drive direct integration of phosphate stress and immunity", "content_text": "Author Correction: Root microbiota drive direct integration of phosphate stress and immunity\n原文地址: https://www.nature.com/articles/s41586-026-10320-1", "content_html": "
\"media.springernature.com
Author Correction: Root microbiota drive direct integration of phosphate stress and immunity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-s41586-026-10320-1/", "url": "https://www.nature.com/articles/s41586-026-10320-1", "date_published": "2026-03-02T16:14:28.786Z", "date_modified": "2026-03-02T16:14:28.786Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: Root microbiota drive direct integration of phosphate stress and immunity" }, "zh-Hans": { "title": "作者更正:根部微生物群驱动磷酸盐胁迫与免疫的直接整合" }, "ja": { "title": "著者訂正:根部微生物叢がリン酸ストレスと免疫の直接的統合を駆動する" }, "zh-Hant": { "title": "作者更正:根部微生物群驅動磷酸鹽脅迫與免疫的直接整合" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10320-1/MediaObjects/41586_2026_10320_Fig1_HTML.png", "_lite_content_html": "03-02  Author Correction: Root microbiota drive direct integration of phosphate stress and immunity (www.nature.com)" }, { "title": "音频长文:许多人缺乏心理意象。他们的大脑究竟在发生什么?", "summary": "Audio long read: Many people have no mental imagery. What’s going on in their brains?", "content_text": "Audio long read: Many people have no mental imagery. What’s going on in their brains?\n原文地址: https://www.nature.com/articles/d41586-026-00626-5", "content_html": "
\"media.nature.com
Audio long read: Many people have no mental imagery. What’s going on in their brains? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00626-5/", "url": "https://www.nature.com/articles/d41586-026-00626-5", "date_published": "2026-03-02T15:11:21.351Z", "date_modified": "2026-03-02T15:11:21.351Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Audio long read: Many people have no mental imagery. What’s going on in their brains?" }, "zh-Hans": { "title": "音频长文:许多人缺乏心理意象。他们的大脑究竟在发生什么?" }, "ja": { "title": "オーディオ長文:多くの人には心的イメージがない。彼らの脳内で何が起きているのか?" }, "zh-Hant": { "title": "音頻長文:許多人缺乏心理意象。他們的大腦究竟在發生什麼?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00626-5/d41586-026-00626-5_52098570.jpg", "_lite_content_html": "03-02  Audio long read: Many people have no mental imagery. What’s going on in their brains? (www.nature.com)" }, { "title": "“无人能与她比肩”:认识激励这些获奖女性科学家的女性同事们", "summary": "‘No one quite like her’: meet the female colleagues who inspire these award-winning women in science", "content_text": "‘No one quite like her’: meet the female colleagues who inspire these award-winning women in science\n原文地址: https://www.nature.com/articles/d41586-026-00666-x", "content_html": "
\"media.nature.com
‘No one quite like her’: meet the female colleagues who inspire these award-winning women in science (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00666-x/", "url": "https://www.nature.com/articles/d41586-026-00666-x", "date_published": "2026-03-02T13:20:11.074Z", "date_modified": "2026-03-02T13:20:11.074Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "‘No one quite like her’: meet the female colleagues who inspire these award-winning women in science" }, "zh-Hans": { "title": "“无人能与她比肩”:认识激励这些获奖女性科学家的女性同事们" }, "ja": { "title": "「彼女のような人は他にいない」:受賞歴のある女性科学者たちを鼓舞する女性同僚たち" }, "zh-Hant": { "title": "“無人能與她比肩”:認識激勵這些獲獎女性科學家的女性同事們" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00666-x/d41586-026-00666-x_52124496.jpg", "_lite_content_html": "03-02  ‘No one quite like her’: meet the female colleagues who inspire these award-winning women in science (www.nature.com)" }, { "title": "人工智能代理是“思维的飞机”:确保科学家成为负责任飞行员的五种方式", "summary": "AI agents are ‘aeroplanes for the mind’: five ways to ensure that scientists are responsible pilots", "content_text": "AI agents are ‘aeroplanes for the mind’: five ways to ensure that scientists are responsible pilots\n原文地址: https://www.nature.com/articles/d41586-026-00665-y", "content_html": "
\"media.nature.com
AI agents are ‘aeroplanes for the mind’: five ways to ensure that scientists are responsible pilots (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00665-y/", "url": "https://www.nature.com/articles/d41586-026-00665-y", "date_published": "2026-03-02T12:17:14.894Z", "date_modified": "2026-03-02T12:17:14.894Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI agents are ‘aeroplanes for the mind’: five ways to ensure that scientists are responsible pilots" }, "zh-Hans": { "title": "人工智能代理是“思维的飞机”:确保科学家成为负责任飞行员的五种方式" }, "ja": { "title": "AIエージェントは「心の飛行機」である:科学者が責任あるパイロットであることを保証する5つの方法" }, "zh-Hant": { "title": "人工智能代理是“思維的飛機”:確保科學家成為負責任飛行員的五種方式" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00665-y/d41586-026-00665-y_52124286.jpg", "_lite_content_html": "03-02  AI agents are ‘aeroplanes for the mind’: five ways to ensure that scientists are responsible pilots (www.nature.com)" }, { "title": "每日简报:犹他州这个家族谱系或可证明人类存在\"自私基因\"", "summary": "Daily briefing: This Utah family line might be evidence of ‘selfish genes’ in humans", "content_text": "Daily briefing: This Utah family line might be evidence of ‘selfish genes’ in humans\n原文地址: https://www.nature.com/articles/d41586-026-00675-w", "content_html": "
\"media.nature.com
Daily briefing: This Utah family line might be evidence of ‘selfish genes’ in humans (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00675-w/", "url": "https://www.nature.com/articles/d41586-026-00675-w", "date_published": "2026-03-02T12:17:13.980Z", "date_modified": "2026-03-02T12:17:13.980Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: This Utah family line might be evidence of ‘selfish genes’ in humans" }, "zh-Hans": { "title": "每日简报:犹他州这个家族谱系或可证明人类存在\"自私基因\"" }, "ja": { "title": "デイリーブリーフィング:ユタ州のこの家系は、ヒトにおける「利己的遺伝子」の証拠となる可能性" }, "zh-Hant": { "title": "每日簡報:猶他州這個家族譜系或可證明人類存在\"自私基因\"" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00675-w/d41586-026-00675-w_52134562.png", "_lite_content_html": "02-27  Daily briefing: This Utah family line might be evidence of ‘selfish genes’ in humans (www.nature.com)" }, { "title": "中国互联网防火墙背后的隐秘生活", "summary": "The hidden lives behind China’s great Internet firewall", "content_text": "The hidden lives behind China’s great Internet firewall\n原文地址: https://www.nature.com/articles/d41586-026-00664-z", "content_html": "
\"media.nature.com
The hidden lives behind China’s great Internet firewall (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00664-z/", "url": "https://www.nature.com/articles/d41586-026-00664-z", "date_published": "2026-03-02T11:15:15.496Z", "date_modified": "2026-03-02T11:15:15.496Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The hidden lives behind China’s great Internet firewall" }, "zh-Hans": { "title": "中国互联网防火墙背后的隐秘生活" }, "ja": { "title": "中国の巨大なインターネット・ファイアウォールの陰に隠された生活" }, "zh-Hant": { "title": "中國互聯網防火牆背後的隱秘生活" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00664-z/d41586-026-00664-z_52128590.jpg", "_lite_content_html": "03-02  The hidden lives behind China’s great Internet firewall (www.nature.com)" }, { "title": "胶带撕扯时的尖锐声响,解释如下", "summary": "The squeal of peeling tape, explained", "content_text": "The squeal of peeling tape, explained\n原文地址: https://www.nature.com/articles/d41586-026-00516-w", "content_html": "
\"media.nature.com
The squeal of peeling tape, explained (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/10/en_rss_2026_03_02__www-nature-com--articles-d41586-026-00516-w/", "url": "https://www.nature.com/articles/d41586-026-00516-w", "date_published": "2026-03-02T04:20:01.082Z", "date_modified": "2026-03-02T04:20:01.082Z", "_original_published": "2026-03-02T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The squeal of peeling tape, explained" }, "zh-Hans": { "title": "胶带撕扯时的尖锐声响,解释如下" }, "ja": { "title": "テープをはがす時のキイキイという音、その説明" }, "zh-Hant": { "title": "膠帶撕扯時的尖銳聲響,解釋如下" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00516-w/d41586-026-00516-w_52098294.jpg", "_lite_content_html": "03-02  The squeal of peeling tape, explained (www.nature.com)" }, { "title": "我将继续为黑人社区的环境正义而奋斗", "summary": "I will continue the fight for environmental justice in Black communities", "content_text": "I will continue the fight for environmental justice in Black communities\n原文地址: https://www.nature.com/articles/d41586-026-00538-4", "content_html": "
\"media.nature.com
I will continue the fight for environmental justice in Black communities (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00538-4/", "url": "https://www.nature.com/articles/d41586-026-00538-4", "date_published": "2026-02-27T18:07:20.097Z", "date_modified": "2026-02-27T18:07:20.097Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "I will continue the fight for environmental justice in Black communities" }, "zh-Hans": { "title": "我将继续为黑人社区的环境正义而奋斗" }, "ja": { "title": "黒人コミュニティにおける環境正義のための闘いを続けていく" }, "zh-Hant": { "title": "我將繼續為黑人社區的環境正義而奮鬥" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00538-4/d41586-026-00538-4_52079176.jpg", "_lite_content_html": "02-27  I will continue the fight for environmental justice in Black communities (www.nature.com)" }, { "title": "简报聊天:宝可梦迎来三十周年——皮卡丘与伙伴们如何激励了数代研究者", "summary": "Briefing chat: Pokémon turns 30 — how Pikachu and pals inspired generations of researchers", "content_text": "Briefing chat: Pokémon turns 30 — how Pikachu and pals inspired generations of researchers\n原文地址: https://www.nature.com/articles/d41586-026-00674-x", "content_html": "
\"media.nature.com
Briefing chat: Pokémon turns 30 — how Pikachu and pals inspired generations of researchers (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00674-x/", "url": "https://www.nature.com/articles/d41586-026-00674-x", "date_published": "2026-02-27T17:03:09.125Z", "date_modified": "2026-02-27T17:03:09.125Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Briefing chat: Pokémon turns 30 — how Pikachu and pals inspired generations of researchers" }, "zh-Hans": { "title": "简报聊天:宝可梦迎来三十周年——皮卡丘与伙伴们如何激励了数代研究者" }, "ja": { "title": "ブリーフィングチャット:ポケモン30周年——ピカチュウと仲間たちが世代を超えた研究者たちに与えた影響" }, "zh-Hant": { "title": "簡報聊天:寶可夢迎來三十週年——皮卡丘與夥伴們如何激勵了數代研究者" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00674-x/d41586-026-00674-x_52128654.jpg", "_lite_content_html": "02-27  Briefing chat: Pokémon turns 30 — how Pikachu and pals inspired generations of researchers (www.nature.com)" }, { "title": "编者关切声明:Murr1基因产物抑制HIV-1在静息CD4淋巴细胞中的复制", "summary": "Editorial Expression of Concern: The gene product Murr1 restricts HIV-1 replication in resting CD4 lymphocytes", "content_text": "Editorial Expression of Concern: The gene product Murr1 restricts HIV-1 replication in resting CD4 lymphocytes\n原文地址: https://www.nature.com/articles/s41586-026-10308-x", "content_html": "
Editorial Expression of Concern: The gene product Murr1 restricts HIV-1 replication in resting CD4 lymphocytes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-s41586-026-10308-x/", "url": "https://www.nature.com/articles/s41586-026-10308-x", "date_published": "2026-02-27T17:03:08.162Z", "date_modified": "2026-02-27T17:03:08.162Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Editorial Expression of Concern: The gene product Murr1 restricts HIV-1 replication in resting CD4 lymphocytes" }, "zh-Hans": { "title": "编者关切声明:Murr1基因产物抑制HIV-1在静息CD4淋巴细胞中的复制" }, "ja": { "title": "懸念表明:遺伝子産物Murr1は休眠状態のCD4リンパ球におけるHIV-1の複製を抑制する" }, "zh-Hant": { "title": "編者關切聲明:Murr1基因產物抑制HIV-1在靜息CD4淋巴細胞中的複製" } }, "_lite_content_html": "02-27  Editorial Expression of Concern: The gene product Murr1 restricts HIV-1 replication in resting CD4 lymphocytes (www.nature.com)" }, { "title": "白宫推迟公布已批准的美国科学预算", "summary": "White House stalls release of approved US science budgets", "content_text": "White House stalls release of approved US science budgets\n原文地址: https://www.nature.com/articles/d41586-026-00601-0", "content_html": "
\"media.nature.com
White House stalls release of approved US science budgets (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00601-0/", "url": "https://www.nature.com/articles/d41586-026-00601-0", "date_published": "2026-02-27T15:59:38.632Z", "date_modified": "2026-02-27T15:59:38.632Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "White House stalls release of approved US science budgets" }, "zh-Hans": { "title": "白宫推迟公布已批准的美国科学预算" }, "ja": { "title": "ホワイトハウス、承認済み米国科学予算の公表を遅らせる" }, "zh-Hant": { "title": "白宮推遲公佈已批准的美國科學預算" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00601-0/d41586-026-00601-0_52094012.jpg", "_lite_content_html": "02-27  White House stalls release of approved US science budgets (www.nature.com)" }, { "title": "宝可梦迎来30周年——这些虚构的口袋怪兽如何塑造了科学", "summary": "Pokémon turns 30 — how the fictional pocket monsters shaped science", "content_text": "Pokémon turns 30 — how the fictional pocket monsters shaped science\n原文地址: https://www.nature.com/articles/d41586-026-00441-y", "content_html": "
\"media.nature.com
Pokémon turns 30 — how the fictional pocket monsters shaped science (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00441-y/", "url": "https://www.nature.com/articles/d41586-026-00441-y", "date_published": "2026-02-27T14:55:35.726Z", "date_modified": "2026-02-27T14:55:35.726Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pokémon turns 30 — how the fictional pocket monsters shaped science" }, "zh-Hans": { "title": "宝可梦迎来30周年——这些虚构的口袋怪兽如何塑造了科学" }, "ja": { "title": "ポケモン30周年——架空のポケットモンスターが科学に与えた影響" }, "zh-Hant": { "title": "寶可夢迎來30週年——這些虛構的口袋怪獸如何塑造了科學" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00441-y/d41586-026-00441-y_52128540.jpg", "_lite_content_html": "02-27  Pokémon turns 30 — how the fictional pocket monsters shaped science (www.nature.com)" }, { "title": "每日简报:干细胞疗法增强老年衰弱患者体质", "summary": "Daily briefing: Stem-cell treatment strengthens people with age-related frailty", "content_text": "Daily briefing: Stem-cell treatment strengthens people with age-related frailty\n原文地址: https://www.nature.com/articles/d41586-026-00672-z", "content_html": "
\"media.nature.com
Daily briefing: Stem-cell treatment strengthens people with age-related frailty (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00672-z/", "url": "https://www.nature.com/articles/d41586-026-00672-z", "date_published": "2026-02-27T14:55:34.917Z", "date_modified": "2026-02-27T14:55:34.917Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: Stem-cell treatment strengthens people with age-related frailty" }, "zh-Hans": { "title": "每日简报:干细胞疗法增强老年衰弱患者体质" }, "ja": { "title": "デイリーブリーフィング:幹細胞治療が加齢に伴う虚弱状態の人々を強化する" }, "zh-Hant": { "title": "每日簡報:幹細胞療法增強老年衰弱患者體質" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00672-z/d41586-026-00672-z_52128750.png", "_lite_content_html": "02-26  Daily briefing: Stem-cell treatment strengthens people with age-related frailty (www.nature.com)" }, { "title": "大脑之谜与青铜时代外交:书评速递", "summary": "Brain mysteries and Bronze Age diplomacy: Books in brief", "content_text": "Brain mysteries and Bronze Age diplomacy: Books in brief\n原文地址: https://www.nature.com/articles/d41586-026-00621-w", "content_html": "
\"media.nature.com
Brain mysteries and Bronze Age diplomacy: Books in brief (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00621-w/", "url": "https://www.nature.com/articles/d41586-026-00621-w", "date_published": "2026-02-27T13:03:41.154Z", "date_modified": "2026-02-27T13:03:41.154Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Brain mysteries and Bronze Age diplomacy: Books in brief" }, "zh-Hans": { "title": "大脑之谜与青铜时代外交:书评速递" }, "ja": { "title": "脳の謎と青銅器時代の外交:書籍紹介" }, "zh-Hant": { "title": "大腦之謎與青銅時代外交:書評速遞" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00621-w/d41586-026-00621-w_52051128.jpg", "_lite_content_html": "02-27  Brain mysteries and Bronze Age diplomacy: Books in brief (www.nature.com)" }, { "title": "是否是“自私基因”导致犹他州一个家庭生男孩的数量是女孩的两倍?", "summary": "Is a ‘selfish gene’ making a Utah family have twice as many boys as girls?", "content_text": "Is a ‘selfish gene’ making a Utah family have twice as many boys as girls?\n原文地址: https://www.nature.com/articles/d41586-026-00505-z", "content_html": "
\"media.nature.com
Is a ‘selfish gene’ making a Utah family have twice as many boys as girls? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00505-z/", "url": "https://www.nature.com/articles/d41586-026-00505-z", "date_published": "2026-02-27T10:07:37.748Z", "date_modified": "2026-02-27T10:07:37.748Z", "_original_published": "2026-02-27T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Is a ‘selfish gene’ making a Utah family have twice as many boys as girls?" }, "zh-Hans": { "title": "是否是“自私基因”导致犹他州一个家庭生男孩的数量是女孩的两倍?" }, "ja": { "title": "ユタ州の家族で男の子が女の子の2倍も生まれるのは、「利己的な遺伝子」のせいなのか?" }, "zh-Hant": { "title": "是否是“自私基因”導致猶他州一個家庭生男孩的數量是女孩的兩倍?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00505-z/d41586-026-00505-z_52124306.jpg", "_lite_content_html": "02-27  Is a ‘selfish gene’ making a Utah family have twice as many boys as girls? (www.nature.com)" }, { "title": "全球首例干细胞疗法在子宫内治疗脊柱裂展现出希望", "summary": "World-first stem-cell therapy shows promise for treating spina bifida in the womb", "content_text": "World-first stem-cell therapy shows promise for treating spina bifida in the womb\n原文地址: https://www.nature.com/articles/d41586-026-00602-z", "content_html": "
\"media.nature.com
World-first stem-cell therapy shows promise for treating spina bifida in the womb (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_27__www-nature-com--articles-d41586-026-00602-z/", "url": "https://www.nature.com/articles/d41586-026-00602-z", "date_published": "2026-02-27T00:17:51.548Z", "date_modified": "2026-02-27T00:17:51.548Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "World-first stem-cell therapy shows promise for treating spina bifida in the womb" }, "zh-Hans": { "title": "全球首例干细胞疗法在子宫内治疗脊柱裂展现出希望" }, "ja": { "title": "世界初の幹細胞治療が、子宮内での二分脊椎治療に有望な結果を示す" }, "zh-Hant": { "title": "全球首例幹細胞療法在子宮內治療脊柱裂展現出希望" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00602-z/d41586-026-00602-z_52098126.jpg", "_lite_content_html": "02-26  World-first stem-cell therapy shows promise for treating spina bifida in the womb (www.nature.com)" }, { "title": "尼安德特人父亲,智人母亲:研究揭示远古生育模式", "summary": "Neanderthal dad, human mum: study reveals ancient procreation pattern", "content_text": "Neanderthal dad, human mum: study reveals ancient procreation pattern\n原文地址: https://www.nature.com/articles/d41586-026-00583-z", "content_html": "
\"media.nature.com
Neanderthal dad, human mum: study reveals ancient procreation pattern (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00583-z/", "url": "https://www.nature.com/articles/d41586-026-00583-z", "date_published": "2026-02-26T20:02:10.321Z", "date_modified": "2026-02-26T20:02:10.321Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Neanderthal dad, human mum: study reveals ancient procreation pattern" }, "zh-Hans": { "title": "尼安德特人父亲,智人母亲:研究揭示远古生育模式" }, "ja": { "title": "ネアンデルタール人の父、人類の母:古代の生殖パターンを解明した研究" }, "zh-Hant": { "title": "尼安德特人父親,智人母親:研究揭示遠古生育模式" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00583-z/d41586-026-00583-z_52098348.jpg", "_lite_content_html": "02-26  Neanderthal dad, human mum: study reveals ancient procreation pattern (www.nature.com)" }, { "title": "超敏感CAR-T细胞在小鼠体内消灭难治性肿瘤", "summary": "Ultra-sensitive CAR T cells eliminate hard-to-treat tumours in mice", "content_text": "Ultra-sensitive CAR T cells eliminate hard-to-treat tumours in mice\n原文地址: https://www.nature.com/articles/d41586-026-00622-9", "content_html": "
\"media.nature.com
Ultra-sensitive CAR T cells eliminate hard-to-treat tumours in mice (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00622-9/", "url": "https://www.nature.com/articles/d41586-026-00622-9", "date_published": "2026-02-26T20:02:09.515Z", "date_modified": "2026-02-26T20:02:09.515Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ultra-sensitive CAR T cells eliminate hard-to-treat tumours in mice" }, "zh-Hans": { "title": "超敏感CAR-T细胞在小鼠体内消灭难治性肿瘤" }, "ja": { "title": "超高感度CAR T細胞がマウスにおいて難治性腫瘍を排除" }, "zh-Hant": { "title": "超敏感CAR-T細胞在小鼠體內消滅難治性腫瘤" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00622-9/d41586-026-00622-9_52097988.jpg", "_lite_content_html": "02-26  Ultra-sensitive CAR T cells eliminate hard-to-treat tumours in mice (www.nature.com)" }, { "title": "作者更正:HMGN1介导的心肌重编程是21三体综合征心脏缺陷的根本机制", "summary": "Author Correction: Myocardial reprogramming by HMGN1 underlies heart defects in trisomy 21", "content_text": "Author Correction: Myocardial reprogramming by HMGN1 underlies heart defects in trisomy 21\n原文地址: https://www.nature.com/articles/s41586-026-10283-3", "content_html": "
Author Correction: Myocardial reprogramming by HMGN1 underlies heart defects in trisomy 21 (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-s41586-026-10283-3/", "url": "https://www.nature.com/articles/s41586-026-10283-3", "date_published": "2026-02-26T15:00:18.204Z", "date_modified": "2026-02-26T15:00:18.204Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: Myocardial reprogramming by HMGN1 underlies heart defects in trisomy 21" }, "zh-Hans": { "title": "作者更正:HMGN1介导的心肌重编程是21三体综合征心脏缺陷的根本机制" }, "ja": { "title": "著者訂正:HMGN1による心筋の再プログラム化が21トリソミーにおける心臓欠損の基盤となる" }, "zh-Hant": { "title": "作者更正:HMGN1介導的心肌重編程是21三體綜合徵心臟缺陷的根本機制" } }, "_lite_content_html": "02-26  Author Correction: Myocardial reprogramming by HMGN1 underlies heart defects in trisomy 21 (www.nature.com)" }, { "title": "为何行业职业转型在学术界成为禁忌话题", "summary": "Why an industry career move is a taboo topic in academia", "content_text": "Why an industry career move is a taboo topic in academia\n原文地址: https://www.nature.com/articles/d41586-026-00158-y", "content_html": "
\"media.nature.com
Why an industry career move is a taboo topic in academia (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00158-y/", "url": "https://www.nature.com/articles/d41586-026-00158-y", "date_published": "2026-02-26T12:56:14.456Z", "date_modified": "2026-02-26T12:56:14.456Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why an industry career move is a taboo topic in academia" }, "zh-Hans": { "title": "为何行业职业转型在学术界成为禁忌话题" }, "ja": { "title": "なぜ産業界への転職が学界ではタブー視されるのか" }, "zh-Hant": { "title": "為何行業職業轉型在學術界成為禁忌話題" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00158-y/d41586-026-00158-y_51917692.jpg", "_lite_content_html": "02-26  Why an industry career move is a taboo topic in academia (www.nature.com)" }, { "title": "每日简报:动物实验的新替代方案", "summary": "Daily briefing: The new alternatives to animal testing", "content_text": "Daily briefing: The new alternatives to animal testing\n原文地址: https://www.nature.com/articles/d41586-026-00623-8", "content_html": "
\"media.nature.com
Daily briefing: The new alternatives to animal testing (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00623-8/", "url": "https://www.nature.com/articles/d41586-026-00623-8", "date_published": "2026-02-26T12:56:13.630Z", "date_modified": "2026-02-26T12:56:13.630Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: The new alternatives to animal testing" }, "zh-Hans": { "title": "每日简报:动物实验的新替代方案" }, "ja": { "title": "デイリーブリーフィング:動物実験に代わる新たな選択肢" }, "zh-Hant": { "title": "每日簡報:動物實驗的新替代方案" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00623-8/d41586-026-00623-8_52123532.png", "_lite_content_html": "02-25  Daily briefing: The new alternatives to animal testing (www.nature.com)" }, { "title": "联合国新成立的科学咨询小组将审视人工智能的影响", "summary": "AI impacts to be scrutinized by UN''s new scientific advisory panel", "content_text": "AI impacts to be scrutinized by UN''s new scientific advisory panel\n原文地址: https://www.nature.com/articles/d41586-026-00542-8", "content_html": "
\"media.nature.com
AI impacts to be scrutinized by UN''s new scientific advisory panel (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00542-8/", "url": "https://www.nature.com/articles/d41586-026-00542-8", "date_published": "2026-02-26T11:52:10.810Z", "date_modified": "2026-02-26T11:52:10.810Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI impacts to be scrutinized by UN''s new scientific advisory panel" }, "zh-Hans": { "title": "联合国新成立的科学咨询小组将审视人工智能的影响" }, "ja": { "title": "国連の新設科学諮問委員会がAIの影響を精査へ" }, "zh-Hant": { "title": "聯合國新成立的科學諮詢小組將審視人工智能的影響" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00542-8/d41586-026-00542-8_52063164.jpg", "_lite_content_html": "02-26  AI impacts to be scrutinized by UN''s new scientific advisory panel (www.nature.com)" }, { "title": "大鼠接触杀菌剂后,健康影响持续长达20代", "summary": "Health effects linger 20 generations after rats are exposed to fungicide", "content_text": "Health effects linger 20 generations after rats are exposed to fungicide\n原文地址: https://www.nature.com/articles/d41586-026-00555-3", "content_html": "
\"media.nature.com
Health effects linger 20 generations after rats are exposed to fungicide (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00555-3/", "url": "https://www.nature.com/articles/d41586-026-00555-3", "date_published": "2026-02-26T10:49:07.822Z", "date_modified": "2026-02-26T10:49:07.822Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Health effects linger 20 generations after rats are exposed to fungicide" }, "zh-Hans": { "title": "大鼠接触杀菌剂后,健康影响持续长达20代" }, "ja": { "title": "殺菌剤に曝露されたラットの健康影響は20世代後も持続する" }, "zh-Hant": { "title": "大鼠接觸殺菌劑後,健康影響持續長達20代" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00555-3/d41586-026-00555-3_52123512.jpg", "_lite_content_html": "02-26  Health effects linger 20 generations after rats are exposed to fungicide (www.nature.com)" }, { "title": "该化合物能增强小鼠的长期记忆——但仅限于雌性个体。", "summary": "This compound enhances long-term memory of mice — but only in females", "content_text": "This compound enhances long-term memory of mice — but only in females\n原文地址: https://www.nature.com/articles/d41586-026-00603-y", "content_html": "
\"media.nature.com
This compound enhances long-term memory of mice — but only in females (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_26__www-nature-com--articles-d41586-026-00603-y/", "url": "https://www.nature.com/articles/d41586-026-00603-y", "date_published": "2026-02-26T03:54:37.894Z", "date_modified": "2026-02-26T03:54:37.894Z", "_original_published": "2026-02-26T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "This compound enhances long-term memory of mice — but only in females" }, "zh-Hans": { "title": "该化合物能增强小鼠的长期记忆——但仅限于雌性个体。" }, "ja": { "title": "この化合物はマウスの長期記憶を強化する——ただし雌のみに効果がある" }, "zh-Hant": { "title": "該化合物能增強小鼠的長期記憶——但僅限於雌性個體。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00603-y/d41586-026-00603-y_52093560.jpg", "_lite_content_html": "02-26  This compound enhances long-term memory of mice — but only in females (www.nature.com)" }, { "title": "科学家因曾与爱泼斯坦有过往关联而面临后果", "summary": "Scientists face fallout for past associations with Epstein", "content_text": "Scientists face fallout for past associations with Epstein\n原文地址: https://www.nature.com/articles/d41586-026-00554-4", "content_html": "
\"media.nature.com
Scientists face fallout for past associations with Epstein (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00554-4/", "url": "https://www.nature.com/articles/d41586-026-00554-4", "date_published": "2026-02-25T23:55:22.892Z", "date_modified": "2026-02-25T23:55:22.892Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Scientists face fallout for past associations with Epstein" }, "zh-Hans": { "title": "科学家因曾与爱泼斯坦有过往关联而面临后果" }, "ja": { "title": "科学者たちはエプスタインとの過去の関わりにより影響を受ける" }, "zh-Hant": { "title": "科學家因曾與愛潑斯坦有過往關聯而面臨後果" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00554-4/d41586-026-00554-4_52102984.jpg", "_lite_content_html": "02-25  Scientists face fallout for past associations with Epstein (www.nature.com)" }, { "title": "运动激活的酶如何帮助保持大脑年轻", "summary": "How an exercise-activated enzyme helps to keep the brain young", "content_text": "How an exercise-activated enzyme helps to keep the brain young\n原文地址: https://www.nature.com/articles/d41586-026-00515-x", "content_html": "
\"media.nature.com
How an exercise-activated enzyme helps to keep the brain young (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00515-x/", "url": "https://www.nature.com/articles/d41586-026-00515-x", "date_published": "2026-02-25T20:43:19.523Z", "date_modified": "2026-02-25T20:43:19.523Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How an exercise-activated enzyme helps to keep the brain young" }, "zh-Hans": { "title": "运动激活的酶如何帮助保持大脑年轻" }, "ja": { "title": "運動によって活性化される酵素が脳の若さを保つ仕組み" }, "zh-Hant": { "title": "運動激活的酶如何幫助保持大腦年輕" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00515-x/d41586-026-00515-x_52084484.jpg", "_lite_content_html": "02-25  How an exercise-activated enzyme helps to keep the brain young (www.nature.com)" }, { "title": "CLCC1促进肝脏中性脂质转运及核孔复合体组装", "summary": "CLCC1 promotes hepatic neutral lipid flux and nuclear pore complex assembly", "content_text": "CLCC1 promotes hepatic neutral lipid flux and nuclear pore complex assembly\n原文地址: https://www.nature.com/articles/s41586-025-10064-4", "content_html": "
\"media.springernature.com
CLCC1 promotes hepatic neutral lipid flux and nuclear pore complex assembly (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-025-10064-4/", "url": "https://www.nature.com/articles/s41586-025-10064-4", "date_published": "2026-02-25T18:51:13.070Z", "date_modified": "2026-02-25T18:51:13.070Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "CLCC1 promotes hepatic neutral lipid flux and nuclear pore complex assembly" }, "zh-Hans": { "title": "CLCC1促进肝脏中性脂质转运及核孔复合体组装" }, "ja": { "title": "CLCC1は肝臓における中性脂質フラックスと核孔複合体の組み立てを促進する" }, "zh-Hant": { "title": "CLCC1促進肝臟中性脂質轉運及核孔複合體組裝" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10064-4/MediaObjects/41586_2025_10064_Fig1_HTML.png", "_lite_content_html": "02-25  CLCC1 promotes hepatic neutral lipid flux and nuclear pore complex assembly (www.nature.com)" }, { "title": "\"超级长寿者\"的大脑仍能持续产生大量新神经元", "summary": "Brains of ‘super agers’ are still strong producers of new neurons", "content_text": "Brains of ‘super agers’ are still strong producers of new neurons\n原文地址: https://www.nature.com/articles/d41586-026-00599-5", "content_html": "
\"media.nature.com
Brains of ‘super agers’ are still strong producers of new neurons (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00599-5/", "url": "https://www.nature.com/articles/d41586-026-00599-5", "date_published": "2026-02-25T17:47:50.584Z", "date_modified": "2026-02-25T17:47:50.584Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Brains of ‘super agers’ are still strong producers of new neurons" }, "zh-Hans": { "title": "\"超级长寿者\"的大脑仍能持续产生大量新神经元" }, "ja": { "title": "「スーパーエイジャー」の脳は依然として新しいニューロンを強力に生成している" }, "zh-Hant": { "title": "\"超級長壽者\"的大腦仍能持續產生大量新神經元" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00599-5/d41586-026-00599-5_52102976.jpg", "_lite_content_html": "02-25  Brains of ‘super agers’ are still strong producers of new neurons (www.nature.com)" }, { "title": "经工程改造的脂质纳米颗粒,可将治疗性RNA靶向输送至胰腺", "summary": "Lipid nanoparticles engineered to target therapeutic RNA to the pancreas", "content_text": "Lipid nanoparticles engineered to target therapeutic RNA to the pancreas\n原文地址: https://www.nature.com/articles/d41586-026-00294-5", "content_html": "
\"media.nature.com
Lipid nanoparticles engineered to target therapeutic RNA to the pancreas (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00294-5/", "url": "https://www.nature.com/articles/d41586-026-00294-5", "date_published": "2026-02-25T16:45:02.340Z", "date_modified": "2026-02-25T16:45:02.340Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Lipid nanoparticles engineered to target therapeutic RNA to the pancreas" }, "zh-Hans": { "title": "经工程改造的脂质纳米颗粒,可将治疗性RNA靶向输送至胰腺" }, "ja": { "title": "治療用RNAを膵臓へ標的化するように設計された脂質ナノ粒子" }, "zh-Hant": { "title": "經工程改造的脂質納米顆粒,可將治療性RNA靶向輸送至胰腺" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00294-5/d41586-026-00294-5_52093950.jpg", "_lite_content_html": "02-25  Lipid nanoparticles engineered to target therapeutic RNA to the pancreas (www.nature.com)" }, { "title": "海胆棘刺在流动水中产生电信号", "summary": "Sea-urchin spines generate electrical signals in flowing water", "content_text": "Sea-urchin spines generate electrical signals in flowing water\n原文地址: https://www.nature.com/articles/d41586-026-00374-6", "content_html": "
\"media.nature.com
Sea-urchin spines generate electrical signals in flowing water (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00374-6/", "url": "https://www.nature.com/articles/d41586-026-00374-6", "date_published": "2026-02-25T16:45:01.481Z", "date_modified": "2026-02-25T16:45:01.481Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Sea-urchin spines generate electrical signals in flowing water" }, "zh-Hans": { "title": "海胆棘刺在流动水中产生电信号" }, "ja": { "title": "ウニの棘は流水中で電気信号を生成する" }, "zh-Hant": { "title": "海膽棘刺在流動水中產生電信號" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00374-6/d41586-026-00374-6_52014994.jpg", "_lite_content_html": "02-25  Sea-urchin spines generate electrical signals in flowing water (www.nature.com)" }, { "title": "光禁锢装置可调控超导性——即使在黑暗中亦然", "summary": "Light-confining device can control superconductivity — even in the dark", "content_text": "Light-confining device can control superconductivity — even in the dark\n原文地址: https://www.nature.com/articles/d41586-026-00296-3", "content_html": "
\"media.nature.com
Light-confining device can control superconductivity — even in the dark (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00296-3/", "url": "https://www.nature.com/articles/d41586-026-00296-3", "date_published": "2026-02-25T16:45:00.277Z", "date_modified": "2026-02-25T16:45:00.277Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Light-confining device can control superconductivity — even in the dark" }, "zh-Hans": { "title": "光禁锢装置可调控超导性——即使在黑暗中亦然" }, "ja": { "title": "光閉じ込めデバイスは超電導を制御できる——暗闇でも" }, "zh-Hant": { "title": "光禁錮裝置可調控超導性——即使在黑暗中亦然" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00296-3/d41586-026-00296-3_52093474.jpg", "_lite_content_html": "02-25  Light-confining device can control superconductivity — even in the dark (www.nature.com)" }, { "title": "蛋白质工程解决了作物生产中的重大权衡问题", "summary": "Protein engineering fixes a major crop trade-off", "content_text": "Protein engineering fixes a major crop trade-off\n原文地址: https://www.nature.com/articles/d41586-026-00293-6", "content_html": "
\"media.nature.com
Protein engineering fixes a major crop trade-off (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00293-6/", "url": "https://www.nature.com/articles/d41586-026-00293-6", "date_published": "2026-02-25T16:44:59.410Z", "date_modified": "2026-02-25T16:44:59.410Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Protein engineering fixes a major crop trade-off" }, "zh-Hans": { "title": "蛋白质工程解决了作物生产中的重大权衡问题" }, "ja": { "title": "タンパク質工学が主要作物のトレードオフを解決する" }, "zh-Hant": { "title": "蛋白質工程解決了作物生產中的重大權衡問題" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00293-6/d41586-026-00293-6_52098562.jpg", "_lite_content_html": "02-25  Protein engineering fixes a major crop trade-off (www.nature.com)" }, { "title": "利用镜面装置实现的放大X射线激光脉冲", "summary": "Amplified X-ray laser pulses achieved using mirror set-up", "content_text": "Amplified X-ray laser pulses achieved using mirror set-up\n原文地址: https://www.nature.com/articles/d41586-026-00580-2", "content_html": "
\"media.nature.com
Amplified X-ray laser pulses achieved using mirror set-up (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00580-2/", "url": "https://www.nature.com/articles/d41586-026-00580-2", "date_published": "2026-02-25T16:44:58.476Z", "date_modified": "2026-02-25T16:44:58.476Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Amplified X-ray laser pulses achieved using mirror set-up" }, "zh-Hans": { "title": "利用镜面装置实现的放大X射线激光脉冲" }, "ja": { "title": "ミラー配置を用いて達成された増幅X線レーザーパルス" }, "zh-Hant": { "title": "利用鏡面裝置實現的放大X射線激光脈衝" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00580-2/d41586-026-00580-2_52097998.png", "_lite_content_html": "02-25  Amplified X-ray laser pulses achieved using mirror set-up (www.nature.com)" }, { "title": "篮球鞋吱吱作响的秘密", "summary": "The secret of squeaky basketball shoes", "content_text": "The secret of squeaky basketball shoes\n原文地址: https://www.nature.com/articles/d41586-026-00295-4", "content_html": "
\"media.nature.com
The secret of squeaky basketball shoes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00295-4/", "url": "https://www.nature.com/articles/d41586-026-00295-4", "date_published": "2026-02-25T16:44:57.280Z", "date_modified": "2026-02-25T16:44:57.280Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The secret of squeaky basketball shoes" }, "zh-Hans": { "title": "篮球鞋吱吱作响的秘密" }, "ja": { "title": "きしむバスケットボールシューズの秘密" }, "zh-Hant": { "title": "籃球鞋吱吱作響的秘密" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00295-4/d41586-026-00295-4_52093636.jpg", "_lite_content_html": "02-25  The secret of squeaky basketball shoes (www.nature.com)" }, { "title": "帕金森病影响着控制全身动作的大脑区域网络", "summary": "Parkinson’s disease affects network of brain regions that controls whole-body action", "content_text": "Parkinson’s disease affects network of brain regions that controls whole-body action\n原文地址: https://www.nature.com/articles/d41586-026-00573-1", "content_html": "
\"media.nature.com
Parkinson’s disease affects network of brain regions that controls whole-body action (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00573-1/", "url": "https://www.nature.com/articles/d41586-026-00573-1", "date_published": "2026-02-25T16:44:55.971Z", "date_modified": "2026-02-25T16:44:55.971Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Parkinson’s disease affects network of brain regions that controls whole-body action" }, "zh-Hans": { "title": "帕金森病影响着控制全身动作的大脑区域网络" }, "ja": { "title": "パーキンソン病は全身の動作を制御する脳領域のネットワークに影響を及ぼす" }, "zh-Hant": { "title": "帕金森病影響著控制全身動作的大腦區域網絡" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00573-1/d41586-026-00573-1_52098180.png", "_lite_content_html": "02-25  Parkinson’s disease affects network of brain regions that controls whole-body action (www.nature.com)" }, { "title": "环境暴露训练免疫系统抑制过敏反应", "summary": "Environmental exposure trains the immune system to dampen allergic responses", "content_text": "Environmental exposure trains the immune system to dampen allergic responses\n原文地址: https://www.nature.com/articles/d41586-026-00040-x", "content_html": "
\"media.nature.com
Environmental exposure trains the immune system to dampen allergic responses (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00040-x/", "url": "https://www.nature.com/articles/d41586-026-00040-x", "date_published": "2026-02-25T16:44:55.079Z", "date_modified": "2026-02-25T16:44:55.079Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Environmental exposure trains the immune system to dampen allergic responses" }, "zh-Hans": { "title": "环境暴露训练免疫系统抑制过敏反应" }, "ja": { "title": "環境曝露は免疫系を訓練し、アレルギー反応を抑制する" }, "zh-Hant": { "title": "環境暴露訓練免疫系統抑制過敏反應" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00040-x/d41586-026-00040-x_52103164.jpg", "_lite_content_html": "02-25  Environmental exposure trains the immune system to dampen allergic responses (www.nature.com)" }, { "title": "通向多细胞化的灵活路径", "summary": "Flexible paths to multicellularity", "content_text": "Flexible paths to multicellularity\n原文地址: https://www.nature.com/articles/d41586-026-00292-7", "content_html": "
\"media.nature.com
Flexible paths to multicellularity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00292-7/", "url": "https://www.nature.com/articles/d41586-026-00292-7", "date_published": "2026-02-25T16:44:53.946Z", "date_modified": "2026-02-25T16:44:53.946Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Flexible paths to multicellularity" }, "zh-Hans": { "title": "通向多细胞化的灵活路径" }, "ja": { "title": "多細胞性への多様な経路" }, "zh-Hant": { "title": "通向多細胞化的靈活路徑" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00292-7/d41586-026-00292-7_52098476.jpg", "_lite_content_html": "02-25  Flexible paths to multicellularity (www.nature.com)" }, { "title": "数百种脂质的蛋白质载体已被鉴定出来", "summary": "The protein carriers of hundreds of lipids have been identified", "content_text": "The protein carriers of hundreds of lipids have been identified\n原文地址: https://www.nature.com/articles/d41586-026-00570-4", "content_html": "
\"media.nature.com
The protein carriers of hundreds of lipids have been identified (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00570-4/", "url": "https://www.nature.com/articles/d41586-026-00570-4", "date_published": "2026-02-25T16:44:52.999Z", "date_modified": "2026-02-25T16:44:52.999Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The protein carriers of hundreds of lipids have been identified" }, "zh-Hans": { "title": "数百种脂质的蛋白质载体已被鉴定出来" }, "ja": { "title": "数百種類の脂質を運ぶタンパク質輸送体が同定された" }, "zh-Hant": { "title": "數百種脂質的蛋白質載體已被鑑定出來" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00570-4/d41586-026-00570-4_52098326.png", "_lite_content_html": "02-25  The protein carriers of hundreds of lipids have been identified (www.nature.com)" }, { "title": "我们需要对可避免的气候变化风险进行全球性评估。", "summary": "We need a global assessment of avoidable climate-change risks", "content_text": "We need a global assessment of avoidable climate-change risks\n原文地址: https://www.nature.com/articles/d41586-026-00544-6", "content_html": "
\"media.nature.com
We need a global assessment of avoidable climate-change risks (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00544-6/", "url": "https://www.nature.com/articles/d41586-026-00544-6", "date_published": "2026-02-25T16:44:51.745Z", "date_modified": "2026-02-25T16:44:51.745Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "We need a global assessment of avoidable climate-change risks" }, "zh-Hans": { "title": "我们需要对可避免的气候变化风险进行全球性评估。" }, "ja": { "title": "回避可能な気候変動リスクに関する包括的な評価が必要である" }, "zh-Hant": { "title": "我們需要對可避免的氣候變化風險進行全球性評估。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00544-6/d41586-026-00544-6_52093902.jpg", "_lite_content_html": "02-25  We need a global assessment of avoidable climate-change risks (www.nature.com)" }, { "title": "干细胞为衰弱症提供了一种强有力的治疗手段", "summary": "Stem cells provide a potent treatment for frailty", "content_text": "Stem cells provide a potent treatment for frailty\n原文地址: https://www.nature.com/articles/d41586-026-00584-y", "content_html": "
\"media.nature.com
Stem cells provide a potent treatment for frailty (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00584-y/", "url": "https://www.nature.com/articles/d41586-026-00584-y", "date_published": "2026-02-25T16:44:50.858Z", "date_modified": "2026-02-25T16:44:50.858Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Stem cells provide a potent treatment for frailty" }, "zh-Hans": { "title": "干细胞为衰弱症提供了一种强有力的治疗手段" }, "ja": { "title": "幹細胞は虚弱に対する強力な治療法を提供する" }, "zh-Hant": { "title": "幹細胞為衰弱症提供了一種強有力的治療手段" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00584-y/d41586-026-00584-y_52093806.jpg", "_lite_content_html": "02-25  Stem cells provide a potent treatment for frailty (www.nature.com)" }, { "title": "量子网络中的纠缠辅助非局域光学干涉测量", "summary": "Entanglement-assisted non-local optical interferometry in a quantum network", "content_text": "Entanglement-assisted non-local optical interferometry in a quantum network\n原文地址: https://www.nature.com/articles/s41586-026-10171-w", "content_html": "
\"media.springernature.com
Entanglement-assisted non-local optical interferometry in a quantum network (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10171-w/", "url": "https://www.nature.com/articles/s41586-026-10171-w", "date_published": "2026-02-25T16:44:49.186Z", "date_modified": "2026-02-25T16:44:49.186Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Entanglement-assisted non-local optical interferometry in a quantum network" }, "zh-Hans": { "title": "量子网络中的纠缠辅助非局域光学干涉测量" }, "ja": { "title": "量子ネットワークにおけるエンタングルメント補助型非局所光学干渉法" }, "zh-Hant": { "title": "量子網絡中的糾纏輔助非局域光學干涉測量" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10171-w/MediaObjects/41586_2026_10171_Fig1_HTML.png", "_lite_content_html": "02-25  Entanglement-assisted non-local optical interferometry in a quantum network (www.nature.com)" }, { "title": "成年期、衰老及阿尔茨海默病中的人类海马神经发生", "summary": "Human hippocampal neurogenesis in adulthood, ageing and Alzheimer’s disease", "content_text": "Human hippocampal neurogenesis in adulthood, ageing and Alzheimer’s disease\n原文地址: https://www.nature.com/articles/s41586-026-10169-4", "content_html": "
\"media.springernature.com
Human hippocampal neurogenesis in adulthood, ageing and Alzheimer’s disease (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10169-4/", "url": "https://www.nature.com/articles/s41586-026-10169-4", "date_published": "2026-02-25T16:44:47.554Z", "date_modified": "2026-02-25T16:44:47.554Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Human hippocampal neurogenesis in adulthood, ageing and Alzheimer’s disease" }, "zh-Hans": { "title": "成年期、衰老及阿尔茨海默病中的人类海马神经发生" }, "ja": { "title": "成人期、加齢、およびアルツハイマー病におけるヒト海馬神経新生" }, "zh-Hant": { "title": "成年期、衰老及阿爾茨海默病中的人類海馬神經發生" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10169-4/MediaObjects/41586_2026_10169_Fig1_HTML.png", "_lite_content_html": "02-25  Human hippocampal neurogenesis in adulthood, ageing and Alzheimer’s disease (www.nature.com)" }, { "title": "揭示La₃Ni₂O₇中异质超导性的起源", "summary": "Uncovering origins of heterogeneous superconductivity in La3Ni2O7", "content_text": "Uncovering origins of heterogeneous superconductivity in La3Ni2O7\n原文地址: https://www.nature.com/articles/s41586-025-10095-x", "content_html": "
\"media.springernature.com
Uncovering origins of heterogeneous superconductivity in La3Ni2O7 (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-025-10095-x/", "url": "https://www.nature.com/articles/s41586-025-10095-x", "date_published": "2026-02-25T16:44:46.140Z", "date_modified": "2026-02-25T16:44:46.140Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Uncovering origins of heterogeneous superconductivity in La3Ni2O7" }, "zh-Hans": { "title": "揭示La₃Ni₂O₇中异质超导性的起源" }, "ja": { "title": "La₃Ni₂O₇における不均一超伝導の起源解明" }, "zh-Hant": { "title": "揭示La₃Ni₂O₇中異質超導性的起源" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10095-x/MediaObjects/41586_2025_10095_Fig1_HTML.png", "_lite_content_html": "02-25  Uncovering origins of heterogeneous superconductivity in La3Ni2O7 (www.nature.com)" }, { "title": "在单核苷酸分辨率下对复杂性状变异进行功能性剖析", "summary": "Functional dissection of complex trait variants at single-nucleotide resolution", "content_text": "Functional dissection of complex trait variants at single-nucleotide resolution\n原文地址: https://www.nature.com/articles/s41586-026-10121-6", "content_html": "
\"media.springernature.com
Functional dissection of complex trait variants at single-nucleotide resolution (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10121-6/", "url": "https://www.nature.com/articles/s41586-026-10121-6", "date_published": "2026-02-25T16:44:44.230Z", "date_modified": "2026-02-25T16:44:44.230Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Functional dissection of complex trait variants at single-nucleotide resolution" }, "zh-Hans": { "title": "在单核苷酸分辨率下对复杂性状变异进行功能性剖析" }, "ja": { "title": "単一ヌクレオチド解像度における複合形質変異体の機能的解剖" }, "zh-Hant": { "title": "在單核苷酸分辨率下對複雜性狀變異進行功能性剖析" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10121-6/MediaObjects/41586_2026_10121_Fig1_HTML.png", "_lite_content_html": "02-25  Functional dissection of complex trait variants at single-nucleotide resolution (www.nature.com)" }, { "title": "CLCC1通过调控内质网双分子层平衡来维持脂质稳态", "summary": "CLCC1 governs ER bilayer equilibration to maintain lipid homeostasis", "content_text": "CLCC1 governs ER bilayer equilibration to maintain lipid homeostasis\n原文地址: https://www.nature.com/articles/s41586-026-10161-y", "content_html": "
\"media.springernature.com
CLCC1 governs ER bilayer equilibration to maintain lipid homeostasis (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10161-y/", "url": "https://www.nature.com/articles/s41586-026-10161-y", "date_published": "2026-02-25T16:44:43.327Z", "date_modified": "2026-02-25T16:44:43.327Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "CLCC1 governs ER bilayer equilibration to maintain lipid homeostasis" }, "zh-Hans": { "title": "CLCC1通过调控内质网双分子层平衡来维持脂质稳态" }, "ja": { "title": "CLCC1は脂質恒常性を維持するために小胞体二重層の平衡を制御する" }, "zh-Hant": { "title": "CLCC1通過調控內質網雙分子層平衡來維持脂質穩態" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10161-y/MediaObjects/41586_2026_10161_Fig1_HTML.png", "_lite_content_html": "02-25  CLCC1 governs ER bilayer equilibration to maintain lipid homeostasis (www.nature.com)" }, { "title": "珊瑚微生物群落作为未知基因组与生物合成多样性的储库", "summary": "Coral microbiomes as reservoirs of unknown genomic and biosynthetic diversity", "content_text": "Coral microbiomes as reservoirs of unknown genomic and biosynthetic diversity\n原文地址: https://www.nature.com/articles/s41586-026-10159-6", "content_html": "
\"media.springernature.com
Coral microbiomes as reservoirs of unknown genomic and biosynthetic diversity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10159-6/", "url": "https://www.nature.com/articles/s41586-026-10159-6", "date_published": "2026-02-25T16:44:41.145Z", "date_modified": "2026-02-25T16:44:41.145Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Coral microbiomes as reservoirs of unknown genomic and biosynthetic diversity" }, "zh-Hans": { "title": "珊瑚微生物群落作为未知基因组与生物合成多样性的储库" }, "ja": { "title": "サンゴの微生物叢は未知のゲノム多様性と生合成多様性の貯蔵庫として機能する" }, "zh-Hant": { "title": "珊瑚微生物群落作為未知基因組與生物合成多樣性的儲庫" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10159-6/MediaObjects/41586_2026_10159_Fig1_HTML.png", "_lite_content_html": "02-25  Coral microbiomes as reservoirs of unknown genomic and biosynthetic diversity (www.nature.com)" }, { "title": "阿根廷化石改写了神秘恐龙类群的演化历史", "summary": "Argentine fossil rewrites evolutionary history of a baffling dinosaur clade", "content_text": "Argentine fossil rewrites evolutionary history of a baffling dinosaur clade\n原文地址: https://www.nature.com/articles/s41586-026-10194-3", "content_html": "
\"media.springernature.com
Argentine fossil rewrites evolutionary history of a baffling dinosaur clade (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10194-3/", "url": "https://www.nature.com/articles/s41586-026-10194-3", "date_published": "2026-02-25T16:44:40.167Z", "date_modified": "2026-02-25T16:44:40.167Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Argentine fossil rewrites evolutionary history of a baffling dinosaur clade" }, "zh-Hans": { "title": "阿根廷化石改写了神秘恐龙类群的演化历史" }, "ja": { "title": "アルゼンチンの化石が謎の恐竜分類群の進化史を書き換える" }, "zh-Hant": { "title": "阿根廷化石改寫了神秘恐龍類群的演化歷史" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10194-3/MediaObjects/41586_2026_10194_Fig1_HTML.png", "_lite_content_html": "02-25  Argentine fossil rewrites evolutionary history of a baffling dinosaur clade (www.nature.com)" }, { "title": "用于高能量密度和低温电池的氢氟烃电解质", "summary": "Hydrofluorocarbon electrolytes for energy-dense and low-temperature batteries", "content_text": "Hydrofluorocarbon electrolytes for energy-dense and low-temperature batteries\n原文地址: https://www.nature.com/articles/s41586-026-10210-6", "content_html": "
\"media.springernature.com
Hydrofluorocarbon electrolytes for energy-dense and low-temperature batteries (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10210-6/", "url": "https://www.nature.com/articles/s41586-026-10210-6", "date_published": "2026-02-25T16:44:38.433Z", "date_modified": "2026-02-25T16:44:38.433Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Hydrofluorocarbon electrolytes for energy-dense and low-temperature batteries" }, "zh-Hans": { "title": "用于高能量密度和低温电池的氢氟烃电解质" }, "ja": { "title": "高エネルギー密度・低温電池用ハイドロフルオロカーボン電解質" }, "zh-Hant": { "title": "用於高能量密度和低溫電池的氫氟烴電解質" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10210-6/MediaObjects/41586_2026_10210_Fig1_HTML.png", "_lite_content_html": "02-25  Hydrofluorocarbon electrolytes for energy-dense and low-temperature batteries (www.nature.com)" }, { "title": "无场全开关手性反铁磁序", "summary": "Field-free full switching of chiral antiferromagnetic order", "content_text": "Field-free full switching of chiral antiferromagnetic order\n原文地址: https://www.nature.com/articles/s41586-026-10175-6", "content_html": "
\"media.springernature.com
Field-free full switching of chiral antiferromagnetic order (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10175-6/", "url": "https://www.nature.com/articles/s41586-026-10175-6", "date_published": "2026-02-25T16:44:37.153Z", "date_modified": "2026-02-25T16:44:37.153Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Field-free full switching of chiral antiferromagnetic order" }, "zh-Hans": { "title": "无场全开关手性反铁磁序" }, "ja": { "title": "磁場不要のキラル反強磁性秩序の完全なスイッチング" }, "zh-Hant": { "title": "無場全開關手性反鐵磁序" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10175-6/MediaObjects/41586_2026_10175_Fig1_HTML.png", "_lite_content_html": "02-25  Field-free full switching of chiral antiferromagnetic order (www.nature.com)" }, { "title": "重塑E3连接酶可增强玉米的耐寒性与磷酸盐利用效率", "summary": "Rewiring an E3 ligase enhances cold resilience and phosphate use in maize", "content_text": "Rewiring an E3 ligase enhances cold resilience and phosphate use in maize\n原文地址: https://www.nature.com/articles/s41586-026-10142-1", "content_html": "
\"media.springernature.com
Rewiring an E3 ligase enhances cold resilience and phosphate use in maize (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10142-1/", "url": "https://www.nature.com/articles/s41586-026-10142-1", "date_published": "2026-02-25T16:44:35.204Z", "date_modified": "2026-02-25T16:44:35.204Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Rewiring an E3 ligase enhances cold resilience and phosphate use in maize" }, "zh-Hans": { "title": "重塑E3连接酶可增强玉米的耐寒性与磷酸盐利用效率" }, "ja": { "title": "E3リガーゼの再配線はトウモロコシの耐寒性とリン酸利用効率を高める" }, "zh-Hant": { "title": "重塑E3連接酶可增強玉米的耐寒性與磷酸鹽利用效率" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10142-1/MediaObjects/41586_2026_10142_Fig1_HTML.png", "_lite_content_html": "02-25  Rewiring an E3 ligase enhances cold resilience and phosphate use in maize (www.nature.com)" }, { "title": "一种疾病模型资源揭示了组织特异性癌症演变的核心原理", "summary": "A disease model resource reveals core principles of tissue-specific cancer evolution", "content_text": "A disease model resource reveals core principles of tissue-specific cancer evolution\n原文地址: https://www.nature.com/articles/s41586-026-10187-2", "content_html": "
\"media.springernature.com
A disease model resource reveals core principles of tissue-specific cancer evolution (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10187-2/", "url": "https://www.nature.com/articles/s41586-026-10187-2", "date_published": "2026-02-25T16:44:32.543Z", "date_modified": "2026-02-25T16:44:32.543Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A disease model resource reveals core principles of tissue-specific cancer evolution" }, "zh-Hans": { "title": "一种疾病模型资源揭示了组织特异性癌症演变的核心原理" }, "ja": { "title": "疾患モデルリソースが明らかにする組織特異的がん進化の核心原理" }, "zh-Hant": { "title": "一種疾病模型資源揭示了組織特異性癌症演變的核心原理" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10187-2/MediaObjects/41586_2026_10187_Fig1_HTML.png", "_lite_content_html": "02-25  A disease model resource reveals core principles of tissue-specific cancer evolution (www.nature.com)" }, { "title": "OR7A10 GPCR工程改造增强CAR-NK疗法对抗实体瘤", "summary": "OR7A10 GPCR engineering boosts CAR-NK therapy against solid tumours", "content_text": "OR7A10 GPCR engineering boosts CAR-NK therapy against solid tumours\n原文地址: https://www.nature.com/articles/s41586-026-10149-8", "content_html": "
\"media.springernature.com
OR7A10 GPCR engineering boosts CAR-NK therapy against solid tumours (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10149-8/", "url": "https://www.nature.com/articles/s41586-026-10149-8", "date_published": "2026-02-25T16:44:30.896Z", "date_modified": "2026-02-25T16:44:30.896Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "OR7A10 GPCR engineering boosts CAR-NK therapy against solid tumours" }, "zh-Hans": { "title": "OR7A10 GPCR工程改造增强CAR-NK疗法对抗实体瘤" }, "ja": { "title": "OR7A10 GPCRの改変が固形腫瘍に対するCAR-NK療法を強化する" }, "zh-Hant": { "title": "OR7A10 GPCR工程改造增強CAR-NK療法對抗實體瘤" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10149-8/MediaObjects/41586_2026_10149_Fig1_HTML.png", "_lite_content_html": "02-25  OR7A10 GPCR engineering boosts CAR-NK therapy against solid tumours (www.nature.com)" }, { "title": "噬菌体裂解蛋白对MurJ翻转酶的协同抑制作用", "summary": "Convergent MurJ flippase inhibition by phage lysis proteins", "content_text": "Convergent MurJ flippase inhibition by phage lysis proteins\n原文地址: https://www.nature.com/articles/s41586-026-10163-w", "content_html": "
\"media.springernature.com
Convergent MurJ flippase inhibition by phage lysis proteins (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10163-w/", "url": "https://www.nature.com/articles/s41586-026-10163-w", "date_published": "2026-02-25T16:44:29.281Z", "date_modified": "2026-02-25T16:44:29.281Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Convergent MurJ flippase inhibition by phage lysis proteins" }, "zh-Hans": { "title": "噬菌体裂解蛋白对MurJ翻转酶的协同抑制作用" }, "ja": { "title": "ファージ溶解タンパク質によるMurJフリッパースの収束的阻害" }, "zh-Hant": { "title": "噬菌體裂解蛋白對MurJ翻轉酶的協同抑制作用" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10163-w/MediaObjects/41586_2026_10163_Fig1_HTML.png", "_lite_content_html": "02-25  Convergent MurJ flippase inhibition by phage lysis proteins (www.nature.com)" }, { "title": "盐度调控的纤毛虫中克隆聚合型多细胞性", "summary": "Clonal-aggregative multicellularity tuned by salinity in a choanoflagellate", "content_text": "Clonal-aggregative multicellularity tuned by salinity in a choanoflagellate\n原文地址: https://www.nature.com/articles/s41586-026-10137-y", "content_html": "
\"media.springernature.com
Clonal-aggregative multicellularity tuned by salinity in a choanoflagellate (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10137-y/", "url": "https://www.nature.com/articles/s41586-026-10137-y", "date_published": "2026-02-25T16:44:27.417Z", "date_modified": "2026-02-25T16:44:27.417Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Clonal-aggregative multicellularity tuned by salinity in a choanoflagellate" }, "zh-Hans": { "title": "盐度调控的纤毛虫中克隆聚合型多细胞性" }, "ja": { "title": "塩分濃度によって調節されるチョアノフラゲラートのクローン的集合性多細胞性" }, "zh-Hant": { "title": "鹽度調控的纖毛蟲中克隆聚合型多細胞性" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10137-y/MediaObjects/41586_2026_10137_Fig1_HTML.png", "_lite_content_html": "02-25  Clonal-aggregative multicellularity tuned by salinity in a choanoflagellate (www.nature.com)" }, { "title": "可旋转的胶体组装体展现出机械超材料行为", "summary": "Pivoting colloidal assemblies exhibit mechanical metamaterial behaviour", "content_text": "Pivoting colloidal assemblies exhibit mechanical metamaterial behaviour\n原文地址: https://www.nature.com/articles/s41586-026-10217-z", "content_html": "
\"media.springernature.com
Pivoting colloidal assemblies exhibit mechanical metamaterial behaviour (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10217-z/", "url": "https://www.nature.com/articles/s41586-026-10217-z", "date_published": "2026-02-25T16:44:25.857Z", "date_modified": "2026-02-25T16:44:25.857Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pivoting colloidal assemblies exhibit mechanical metamaterial behaviour" }, "zh-Hans": { "title": "可旋转的胶体组装体展现出机械超材料行为" }, "ja": { "title": "回転するコロイド集合体は機械的メタマテリアル挙動を示す" }, "zh-Hant": { "title": "可旋轉的膠體組裝體展現出機械超材料行為" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10217-z/MediaObjects/41586_2026_10217_Fig1_HTML.png", "_lite_content_html": "02-25  Pivoting colloidal assemblies exhibit mechanical metamaterial behaviour (www.nature.com)" }, { "title": "软硬界面摩擦中的吱吱声", "summary": "Squeaking at soft–rigid frictional interfaces", "content_text": "Squeaking at soft–rigid frictional interfaces\n原文地址: https://www.nature.com/articles/s41586-026-10132-3", "content_html": "
\"media.springernature.com
Squeaking at soft–rigid frictional interfaces (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10132-3/", "url": "https://www.nature.com/articles/s41586-026-10132-3", "date_published": "2026-02-25T16:44:24.352Z", "date_modified": "2026-02-25T16:44:24.352Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Squeaking at soft–rigid frictional interfaces" }, "zh-Hans": { "title": "软硬界面摩擦中的吱吱声" }, "ja": { "title": "軟質–硬質摩擦界面におけるきしむ音" }, "zh-Hant": { "title": "軟硬界面摩擦中的吱吱聲" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10132-3/MediaObjects/41586_2026_10132_Fig1_HTML.png", "_lite_content_html": "02-25  Squeaking at soft–rigid frictional interfaces (www.nature.com)" }, { "title": "基于器官胶囊过滤的胰腺靶向脂质纳米颗粒", "summary": "Pancreatic-targeted lipid nanoparticles based on organ capsule filtration", "content_text": "Pancreatic-targeted lipid nanoparticles based on organ capsule filtration\n原文地址: https://www.nature.com/articles/s41586-026-10158-7", "content_html": "
\"media.springernature.com
Pancreatic-targeted lipid nanoparticles based on organ capsule filtration (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10158-7/", "url": "https://www.nature.com/articles/s41586-026-10158-7", "date_published": "2026-02-25T16:44:22.642Z", "date_modified": "2026-02-25T16:44:22.642Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pancreatic-targeted lipid nanoparticles based on organ capsule filtration" }, "zh-Hans": { "title": "基于器官胶囊过滤的胰腺靶向脂质纳米颗粒" }, "ja": { "title": "臓器カプセル濾過に基づく膵臓標的脂質ナノ粒子" }, "zh-Hant": { "title": "基於器官膠囊過濾的胰腺靶向脂質納米顆粒" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10158-7/MediaObjects/41586_2026_10158_Fig1_HTML.png", "_lite_content_html": "02-25  Pancreatic-targeted lipid nanoparticles based on organ capsule filtration (www.nature.com)" }, { "title": "外周免疫诱导树突状细胞驱动早期过敏性炎症", "summary": "Peripheral immune-inducer dendritic cells drive early-life allergic inflammation", "content_text": "Peripheral immune-inducer dendritic cells drive early-life allergic inflammation\n原文地址: https://www.nature.com/articles/s41586-026-10162-x", "content_html": "
\"media.springernature.com
Peripheral immune-inducer dendritic cells drive early-life allergic inflammation (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10162-x/", "url": "https://www.nature.com/articles/s41586-026-10162-x", "date_published": "2026-02-25T16:44:21.025Z", "date_modified": "2026-02-25T16:44:21.025Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Peripheral immune-inducer dendritic cells drive early-life allergic inflammation" }, "zh-Hans": { "title": "外周免疫诱导树突状细胞驱动早期过敏性炎症" }, "ja": { "title": "末梢免疫誘導性樹状細胞が幼少期のアレルギー性炎症を促進する" }, "zh-Hant": { "title": "外周免疫誘導樹突狀細胞驅動早期過敏性炎症" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10162-x/MediaObjects/41586_2026_10162_Fig1_HTML.png", "_lite_content_html": "02-25  Peripheral immune-inducer dendritic cells drive early-life allergic inflammation (www.nature.com)" }, { "title": "皮层树突中的矢量化指令信号", "summary": "Vectorized instructive signals in cortical dendrites", "content_text": "Vectorized instructive signals in cortical dendrites\n原文地址: https://www.nature.com/articles/s41586-026-10190-7", "content_html": "
\"media.springernature.com
Vectorized instructive signals in cortical dendrites (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10190-7/", "url": "https://www.nature.com/articles/s41586-026-10190-7", "date_published": "2026-02-25T16:44:19.216Z", "date_modified": "2026-02-25T16:44:19.216Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Vectorized instructive signals in cortical dendrites" }, "zh-Hans": { "title": "皮层树突中的矢量化指令信号" }, "ja": { "title": "皮質樹状突起におけるベクトル化された指示信号" }, "zh-Hant": { "title": "皮層樹突中的矢量化指令信號" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10190-7/MediaObjects/41586_2026_10190_Fig1_HTML.png", "_lite_content_html": "02-25  Vectorized instructive signals in cortical dendrites (www.nature.com)" }, { "title": "一种膜结合型核酸内切酶在噬菌体基因组注入过程中直接切割噬菌体DNA", "summary": "A membrane-bound nuclease directly cleaves phage DNA during genome injection", "content_text": "A membrane-bound nuclease directly cleaves phage DNA during genome injection\n原文地址: https://www.nature.com/articles/s41586-026-10207-1", "content_html": "
\"media.springernature.com
A membrane-bound nuclease directly cleaves phage DNA during genome injection (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10207-1/", "url": "https://www.nature.com/articles/s41586-026-10207-1", "date_published": "2026-02-25T16:44:17.373Z", "date_modified": "2026-02-25T16:44:17.373Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A membrane-bound nuclease directly cleaves phage DNA during genome injection" }, "zh-Hans": { "title": "一种膜结合型核酸内切酶在噬菌体基因组注入过程中直接切割噬菌体DNA" }, "ja": { "title": "膜結合型ヌクレアーゼは、ファージDNAをゲノム注入中に直接切断する" }, "zh-Hant": { "title": "一種膜結合型核酸內切酶在噬菌體基因組注入過程中直接切割噬菌體DNA" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10207-1/MediaObjects/41586_2026_10207_Fig1_HTML.png", "_lite_content_html": "02-25  A membrane-bound nuclease directly cleaves phage DNA during genome injection (www.nature.com)" }, { "title": "棘皮动物立体梯度结构实现机械电感知", "summary": "Echinoderm stereom gradient structures enable mechanoelectrical perception", "content_text": "Echinoderm stereom gradient structures enable mechanoelectrical perception\n原文地址: https://www.nature.com/articles/s41586-026-10164-9", "content_html": "
\"media.springernature.com
Echinoderm stereom gradient structures enable mechanoelectrical perception (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10164-9/", "url": "https://www.nature.com/articles/s41586-026-10164-9", "date_published": "2026-02-25T16:44:15.712Z", "date_modified": "2026-02-25T16:44:15.712Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Echinoderm stereom gradient structures enable mechanoelectrical perception" }, "zh-Hans": { "title": "棘皮动物立体梯度结构实现机械电感知" }, "ja": { "title": "棘皮動物のステレオーム勾配構造は機械電気知覚を可能にする" }, "zh-Hant": { "title": "棘皮動物立體梯度結構實現機械電感知" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10164-9/MediaObjects/41586_2026_10164_Fig1_HTML.png", "_lite_content_html": "02-25  Echinoderm stereom gradient structures enable mechanoelectrical perception (www.nature.com)" }, { "title": "视觉皮层的紧凑型深度神经网络模型", "summary": "Compact deep neural network models of the visual cortex", "content_text": "Compact deep neural network models of the visual cortex\n原文地址: https://www.nature.com/articles/s41586-026-10150-1", "content_html": "
\"media.springernature.com
Compact deep neural network models of the visual cortex (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10150-1/", "url": "https://www.nature.com/articles/s41586-026-10150-1", "date_published": "2026-02-25T16:44:14.101Z", "date_modified": "2026-02-25T16:44:14.101Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Compact deep neural network models of the visual cortex" }, "zh-Hans": { "title": "视觉皮层的紧凑型深度神经网络模型" }, "ja": { "title": "視覚皮質のコンパクト深層ニューラルネットワークモデル" }, "zh-Hant": { "title": "視覺皮層的緊湊型深度神經網絡模型" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10150-1/MediaObjects/41586_2026_10150_Fig1_HTML.png", "_lite_content_html": "02-25  Compact deep neural network models of the visual cortex (www.nature.com)" }, { "title": "空腔调制超导性", "summary": "Cavity-altered superconductivity", "content_text": "Cavity-altered superconductivity\n原文地址: https://www.nature.com/articles/s41586-025-10062-6", "content_html": "
\"media.springernature.com
Cavity-altered superconductivity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-025-10062-6/", "url": "https://www.nature.com/articles/s41586-025-10062-6", "date_published": "2026-02-25T16:44:12.547Z", "date_modified": "2026-02-25T16:44:12.547Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cavity-altered superconductivity" }, "zh-Hans": { "title": "空腔调制超导性" }, "ja": { "title": "空洞変調超伝導" }, "zh-Hant": { "title": "空腔調製超導性" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10062-6/MediaObjects/41586_2025_10062_Fig1_HTML.png", "_lite_content_html": "02-25  Cavity-altered superconductivity (www.nature.com)" }, { "title": "扫描隧道显微镜探测场诱导响应的局限性", "summary": "Limitations of probing field-induced response with STM", "content_text": "Limitations of probing field-induced response with STM\n原文地址: https://www.nature.com/articles/s41586-026-10126-1", "content_html": "
\"media.springernature.com
Limitations of probing field-induced response with STM (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10126-1/", "url": "https://www.nature.com/articles/s41586-026-10126-1", "date_published": "2026-02-25T16:44:10.837Z", "date_modified": "2026-02-25T16:44:10.837Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Limitations of probing field-induced response with STM" }, "zh-Hans": { "title": "扫描隧道显微镜探测场诱导响应的局限性" }, "ja": { "title": "STMによる磁場誘起応答の探査における限界" }, "zh-Hant": { "title": "掃描隧道顯微鏡探測場誘導響應的侷限性" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10126-1/MediaObjects/41586_2026_10126_Fig1_HTML.png", "_lite_content_html": "02-25  Limitations of probing field-induced response with STM (www.nature.com)" }, { "title": "地震与闪电如何解释运动鞋的吱吱声", "summary": "How earthquakes and lightning help explain squeaky sneakers", "content_text": "How earthquakes and lightning help explain squeaky sneakers\n原文地址: https://www.nature.com/articles/d41586-026-00619-4", "content_html": "
\"media.nature.com
How earthquakes and lightning help explain squeaky sneakers (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00619-4/", "url": "https://www.nature.com/articles/d41586-026-00619-4", "date_published": "2026-02-25T16:44:09.964Z", "date_modified": "2026-02-25T16:44:09.964Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How earthquakes and lightning help explain squeaky sneakers" }, "zh-Hans": { "title": "地震与闪电如何解释运动鞋的吱吱声" }, "ja": { "title": "地震と落雷がスニーカーのきしむ音を説明する手助けとなる理由" }, "zh-Hant": { "title": "地震與閃電如何解釋運動鞋的吱吱聲" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00619-4/d41586-026-00619-4_52093928.jpg", "_lite_content_html": "02-25  How earthquakes and lightning help explain squeaky sneakers (www.nature.com)" }, { "title": "吱吱作响的运动鞋背后的惊人科学", "summary": "The surprising science of squeaky sneakers", "content_text": "The surprising science of squeaky sneakers\n原文地址: https://www.nature.com/articles/d41586-026-00620-x", "content_html": "
\"media.nature.com
The surprising science of squeaky sneakers (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00620-x/", "url": "https://www.nature.com/articles/d41586-026-00620-x", "date_published": "2026-02-25T16:44:08.746Z", "date_modified": "2026-02-25T16:44:08.746Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The surprising science of squeaky sneakers" }, "zh-Hans": { "title": "吱吱作响的运动鞋背后的惊人科学" }, "ja": { "title": "きしむスニーカーの驚くべき科学" }, "zh-Hant": { "title": "吱吱作響的運動鞋背後的驚人科學" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00620-x/d41586-026-00620-x_52103264.jpg", "_lite_content_html": "02-25  The surprising science of squeaky sneakers (www.nature.com)" }, { "title": "回复主题:扫描隧道显微镜探测场致响应的局限性", "summary": "Reply to: Limitations of probing field-induced response with STM", "content_text": "Reply to: Limitations of probing field-induced response with STM\n原文地址: https://www.nature.com/articles/s41586-026-10127-0", "content_html": "
\"media.springernature.com
Reply to: Limitations of probing field-induced response with STM (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-s41586-026-10127-0/", "url": "https://www.nature.com/articles/s41586-026-10127-0", "date_published": "2026-02-25T16:44:07.139Z", "date_modified": "2026-02-25T16:44:07.139Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Reply to: Limitations of probing field-induced response with STM" }, "zh-Hans": { "title": "回复主题:扫描隧道显微镜探测场致响应的局限性" }, "ja": { "title": "返信先: STMによる磁場誘起応答の探査における限界" }, "zh-Hant": { "title": "回覆主題:掃描隧道顯微鏡探測場致響應的侷限性" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10127-0/MediaObjects/41586_2026_10127_Fig1_HTML.png", "_lite_content_html": "02-25  Reply to: Limitations of probing field-induced response with STM (www.nature.com)" }, { "title": "如何才能顺利转换研究领域?三位科学家给出建议", "summary": "What''s the best way to change research fields? These three scientists have ideas", "content_text": "What''s the best way to change research fields? These three scientists have ideas\n原文地址: https://www.nature.com/articles/d41586-025-04161-7", "content_html": "
\"media.nature.com
What''s the best way to change research fields? These three scientists have ideas (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-025-04161-7/", "url": "https://www.nature.com/articles/d41586-025-04161-7", "date_published": "2026-02-25T13:47:38.135Z", "date_modified": "2026-02-25T13:47:38.135Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "What''s the best way to change research fields? These three scientists have ideas" }, "zh-Hans": { "title": "如何才能顺利转换研究领域?三位科学家给出建议" }, "ja": { "title": "研究分野を変える最善の方法とは? 3人の科学者が提案するアイデア" }, "zh-Hant": { "title": "如何才能順利轉換研究領域?三位科學家給出建議" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-025-04161-7/d41586-025-04161-7_52074594.jpg", "_lite_content_html": "02-25  What''s the best way to change research fields? These three scientists have ideas (www.nature.com)" }, { "title": "未来完成进行被动态及其他精神传动障碍", "summary": "The future perfect continuous passive and other transitive disorders of the mind", "content_text": "The future perfect continuous passive and other transitive disorders of the mind\n原文地址: https://www.nature.com/articles/d41586-026-00132-8", "content_html": "
\"media.nature.com
The future perfect continuous passive and other transitive disorders of the mind (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00132-8/", "url": "https://www.nature.com/articles/d41586-026-00132-8", "date_published": "2026-02-25T13:47:37.171Z", "date_modified": "2026-02-25T13:47:37.171Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The future perfect continuous passive and other transitive disorders of the mind" }, "zh-Hans": { "title": "未来完成进行被动态及其他精神传动障碍" }, "ja": { "title": "未来完了進行受動態およびその他の心の転移性障害" }, "zh-Hant": { "title": "未來完成進行被動態及其他精神傳動障礙" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00132-8/d41586-026-00132-8_51934204.jpg", "_lite_content_html": "02-25  The future perfect continuous passive and other transitive disorders of the mind (www.nature.com)" }, { "title": "欧盟领导人应避免仓促修订绿色氢能法规", "summary": "EU leaders should not rush to revamp green-hydrogen rules", "content_text": "EU leaders should not rush to revamp green-hydrogen rules\n原文地址: https://www.nature.com/articles/d41586-026-00560-6", "content_html": "
\"media.nature.com
EU leaders should not rush to revamp green-hydrogen rules (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00560-6/", "url": "https://www.nature.com/articles/d41586-026-00560-6", "date_published": "2026-02-25T12:43:40.847Z", "date_modified": "2026-02-25T12:43:40.847Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "EU leaders should not rush to revamp green-hydrogen rules" }, "zh-Hans": { "title": "欧盟领导人应避免仓促修订绿色氢能法规" }, "ja": { "title": "EU首脳はグリーン水素の規制を急いで見直すべきではない" }, "zh-Hant": { "title": "歐盟領導人應避免倉促修訂綠色氫能法規" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00560-6/d41586-026-00560-6_52098146.jpg", "_lite_content_html": "02-25  EU leaders should not rush to revamp green-hydrogen rules (www.nature.com)" }, { "title": "识别论文造假的五种方法", "summary": "Five ways to spot when a paper is a fraud", "content_text": "Five ways to spot when a paper is a fraud\n原文地址: https://www.nature.com/articles/d41586-026-00569-x", "content_html": "
\"media.nature.com
Five ways to spot when a paper is a fraud (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00569-x/", "url": "https://www.nature.com/articles/d41586-026-00569-x", "date_published": "2026-02-25T11:55:49.560Z", "date_modified": "2026-02-25T11:55:49.560Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Five ways to spot when a paper is a fraud" }, "zh-Hans": { "title": "识别论文造假的五种方法" }, "ja": { "title": "論文が不正であることを見抜く5つの方法" }, "zh-Hant": { "title": "識別論文造假的五種方法" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00569-x/d41586-026-00569-x_52079372.jpg", "_lite_content_html": "02-25  Five ways to spot when a paper is a fraud (www.nature.com)" }, { "title": "每日简报:新冠病毒起源——我们所知与未知", "summary": "Daily briefing: COVID’s origins — what we do and don’t know", "content_text": "Daily briefing: COVID’s origins — what we do and don’t know\n原文地址: https://www.nature.com/articles/d41586-026-00609-6", "content_html": "
\"media.nature.com
Daily briefing: COVID’s origins — what we do and don’t know (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00609-6/", "url": "https://www.nature.com/articles/d41586-026-00609-6", "date_published": "2026-02-25T11:55:48.674Z", "date_modified": "2026-02-25T11:55:48.674Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: COVID’s origins — what we do and don’t know" }, "zh-Hans": { "title": "每日简报:新冠病毒起源——我们所知与未知" }, "ja": { "title": "デイリーブリーフィング:COVIDの起源——我々が知っていることと知らないこと" }, "zh-Hant": { "title": "每日簡報:新冠病毒起源——我們所知與未知" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00609-6/d41586-026-00609-6_52098576.png", "_lite_content_html": "02-24  Daily briefing: COVID’s origins — what we do and don’t know (www.nature.com)" }, { "title": "首个记录历史大气氢浓度的冰芯记录", "summary": "The first ice-core record of historical atmospheric hydrogen levels", "content_text": "The first ice-core record of historical atmospheric hydrogen levels\n原文地址: https://www.nature.com/articles/d41586-026-00578-w", "content_html": "
\"media.nature.com
The first ice-core record of historical atmospheric hydrogen levels (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00578-w/", "url": "https://www.nature.com/articles/d41586-026-00578-w", "date_published": "2026-02-25T10:51:51.375Z", "date_modified": "2026-02-25T10:51:51.375Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The first ice-core record of historical atmospheric hydrogen levels" }, "zh-Hans": { "title": "首个记录历史大气氢浓度的冰芯记录" }, "ja": { "title": "歴史的大気水素濃度の初の氷床コア記録" }, "zh-Hant": { "title": "首個記錄歷史大氣氫濃度的冰芯記錄" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00578-w/d41586-026-00578-w_52093872.png", "_lite_content_html": "02-25  The first ice-core record of historical atmospheric hydrogen levels (www.nature.com)" }, { "title": "动物实验的时代正在消逝。科学将走向何方?", "summary": "The age of animal experiments is waning. Where will science go next?", "content_text": "The age of animal experiments is waning. Where will science go next?\n原文地址: https://www.nature.com/articles/d41586-026-00563-3", "content_html": "
\"media.nature.com
The age of animal experiments is waning. Where will science go next? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00563-3/", "url": "https://www.nature.com/articles/d41586-026-00563-3", "date_published": "2026-02-25T10:51:49.932Z", "date_modified": "2026-02-25T10:51:49.932Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The age of animal experiments is waning. Where will science go next?" }, "zh-Hans": { "title": "动物实验的时代正在消逝。科学将走向何方?" }, "ja": { "title": "動物実験の時代は終わりを告げつつある。科学は次にどこへ向かうのか?" }, "zh-Hant": { "title": "動物實驗的時代正在消逝。科學將走向何方?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00563-3/d41586-026-00563-3_52074902.jpg", "_lite_content_html": "02-25  The age of animal experiments is waning. Where will science go next? (www.nature.com)" }, { "title": "政策研究中的临时期刊:临时刊名能否提供答案?", "summary": "Pop-up journals for policy research: can temporary titles deliver answers?", "content_text": "Pop-up journals for policy research: can temporary titles deliver answers?\n原文地址: https://www.nature.com/articles/d41586-026-00446-7", "content_html": "
\"media.nature.com
Pop-up journals for policy research: can temporary titles deliver answers? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_25__www-nature-com--articles-d41586-026-00446-7/", "url": "https://www.nature.com/articles/d41586-026-00446-7", "date_published": "2026-02-25T01:49:43.964Z", "date_modified": "2026-02-25T01:49:43.964Z", "_original_published": "2026-02-25T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Pop-up journals for policy research: can temporary titles deliver answers?" }, "zh-Hans": { "title": "政策研究中的临时期刊:临时刊名能否提供答案?" }, "ja": { "title": "政策研究のためのポップアップ・ジャーナル:一時的なタイトルは答えをもたらすか?" }, "zh-Hant": { "title": "政策研究中的臨時期刊:臨時刊名能否提供答案?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00446-7/d41586-026-00446-7_52093632.jpg", "_lite_content_html": "02-25  Pop-up journals for policy research: can temporary titles deliver answers? (www.nature.com)" }, { "title": "该蚂蚁物种仅由蚁后组成——没有工蚁或雄蚁。", "summary": "This ant species is composed of only queens — no workers or males", "content_text": "This ant species is composed of only queens — no workers or males\n原文地址: https://www.nature.com/articles/d41586-026-00517-9", "content_html": "
\"media.nature.com
This ant species is composed of only queens — no workers or males (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00517-9/", "url": "https://www.nature.com/articles/d41586-026-00517-9", "date_published": "2026-02-24T22:21:44.950Z", "date_modified": "2026-02-24T22:21:44.950Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "This ant species is composed of only queens — no workers or males" }, "zh-Hans": { "title": "该蚂蚁物种仅由蚁后组成——没有工蚁或雄蚁。" }, "ja": { "title": "このアリの種は女王アリのみで構成されており、働きアリもオスも存在しない。" }, "zh-Hant": { "title": "該螞蟻物種僅由蟻后組成——沒有工蟻或雄蟻。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00517-9/d41586-026-00517-9_52098630.jpg", "_lite_content_html": "02-24  This ant species is composed of only queens — no workers or males (www.nature.com)" }, { "title": "污水系统悄然将污染物释放到空气中", "summary": "Sewage systems secretly waft pollution into the air", "content_text": "Sewage systems secretly waft pollution into the air\n原文地址: https://www.nature.com/articles/d41586-026-00514-y", "content_html": "
\"media.nature.com
Sewage systems secretly waft pollution into the air (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00514-y/", "url": "https://www.nature.com/articles/d41586-026-00514-y", "date_published": "2026-02-24T22:21:43.494Z", "date_modified": "2026-02-24T22:21:43.494Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Sewage systems secretly waft pollution into the air" }, "zh-Hans": { "title": "污水系统悄然将污染物释放到空气中" }, "ja": { "title": "下水システムは密かに汚染物質を大気中に漂わせる" }, "zh-Hant": { "title": "汙水系統悄然將汙染物釋放到空氣中" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00514-y/d41586-026-00514-y_52084478.jpg", "_lite_content_html": "02-24  Sewage systems secretly waft pollution into the air (www.nature.com)" }, { "title": "HIV储库克隆中的动态抗原表达与细胞毒性T细胞抵抗性", "summary": "Dynamic antigen expression and cytotoxic T cell resistance in HIV reservoir clones", "content_text": "Dynamic antigen expression and cytotoxic T cell resistance in HIV reservoir clones\n原文地址: https://www.nature.com/articles/s41586-026-10298-w", "content_html": "
Dynamic antigen expression and cytotoxic T cell resistance in HIV reservoir clones (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-s41586-026-10298-w/", "url": "https://www.nature.com/articles/s41586-026-10298-w", "date_published": "2026-02-24T16:31:48.677Z", "date_modified": "2026-02-24T16:31:48.677Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Dynamic antigen expression and cytotoxic T cell resistance in HIV reservoir clones" }, "zh-Hans": { "title": "HIV储库克隆中的动态抗原表达与细胞毒性T细胞抵抗性" }, "ja": { "title": "HIVリザーバークローンにおける動的抗原発現と細胞傷害性T細胞抵抗性" }, "zh-Hant": { "title": "HIV儲庫克隆中的動態抗原表達與細胞毒性T細胞抵抗性" } }, "_lite_content_html": "02-24  Dynamic antigen expression and cytotoxic T cell resistance in HIV reservoir clones (www.nature.com)" }, { "title": "编者关切声明:钙调神经磷酸酶与ATF3在鳞状皮肤癌中的相反作用", "summary": "Editorial Expression of Concern: Opposing roles for calcineurin and ATF3 in squamous skin cancer", "content_text": "Editorial Expression of Concern: Opposing roles for calcineurin and ATF3 in squamous skin cancer\n原文地址: https://www.nature.com/articles/s41586-026-10293-1", "content_html": "
Editorial Expression of Concern: Opposing roles for calcineurin and ATF3 in squamous skin cancer (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-s41586-026-10293-1/", "url": "https://www.nature.com/articles/s41586-026-10293-1", "date_published": "2026-02-24T16:31:47.551Z", "date_modified": "2026-02-24T16:31:47.551Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Editorial Expression of Concern: Opposing roles for calcineurin and ATF3 in squamous skin cancer" }, "zh-Hans": { "title": "编者关切声明:钙调神经磷酸酶与ATF3在鳞状皮肤癌中的相反作用" }, "ja": { "title": "懸念表明:扁平上皮皮膚癌におけるカルシニューリンとATF3の相反する役割" }, "zh-Hant": { "title": "編者關切聲明:鈣調神經磷酸酶與ATF3在鱗狀皮膚癌中的相反作用" } }, "_lite_content_html": "02-24  Editorial Expression of Concern: Opposing roles for calcineurin and ATF3 in squamous skin cancer (www.nature.com)" }, { "title": "核武器试验有害——没有理由重启", "summary": "Nuclear weapons testing is harmful — there’s no case for a restart", "content_text": "Nuclear weapons testing is harmful — there’s no case for a restart\n原文地址: https://www.nature.com/articles/d41586-026-00561-5", "content_html": "
\"media.nature.com
Nuclear weapons testing is harmful — there’s no case for a restart (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00561-5/", "url": "https://www.nature.com/articles/d41586-026-00561-5", "date_published": "2026-02-24T15:27:24.593Z", "date_modified": "2026-02-24T15:27:24.593Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Nuclear weapons testing is harmful — there’s no case for a restart" }, "zh-Hans": { "title": "核武器试验有害——没有理由重启" }, "ja": { "title": "核兵器実験は有害である——再開の正当性は全くない" }, "zh-Hant": { "title": "核武器試驗有害——沒有理由重啟" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00561-5/d41586-026-00561-5_52098074.jpg", "_lite_content_html": "02-24  Nuclear weapons testing is harmful — there’s no case for a restart (www.nature.com)" }, { "title": "科学史上的珍宝或许就藏在显而易见之处", "summary": "Treasures of scientific history could be hiding in plain sight", "content_text": "Treasures of scientific history could be hiding in plain sight\n原文地址: https://www.nature.com/articles/d41586-026-00298-1", "content_html": "
\"media.nature.com
Treasures of scientific history could be hiding in plain sight (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00298-1/", "url": "https://www.nature.com/articles/d41586-026-00298-1", "date_published": "2026-02-24T14:39:57.394Z", "date_modified": "2026-02-24T14:39:57.394Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Treasures of scientific history could be hiding in plain sight" }, "zh-Hans": { "title": "科学史上的珍宝或许就藏在显而易见之处" }, "ja": { "title": "科学史の宝物が、目に見える場所に隠れているかもしれない" }, "zh-Hant": { "title": "科學史上的珍寶或許就藏在顯而易見之處" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00298-1/d41586-026-00298-1_15948436.jpg", "_lite_content_html": "02-24  Treasures of scientific history could be hiding in plain sight (www.nature.com)" }, { "title": "作者更正:河流三角洲的全球性沉降", "summary": "Author Correction: Global subsidence of river deltas", "content_text": "Author Correction: Global subsidence of river deltas\n原文地址: https://www.nature.com/articles/s41586-026-10294-0", "content_html": "
Author Correction: Global subsidence of river deltas (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-s41586-026-10294-0/", "url": "https://www.nature.com/articles/s41586-026-10294-0", "date_published": "2026-02-24T13:35:41.986Z", "date_modified": "2026-02-24T13:35:41.986Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: Global subsidence of river deltas" }, "zh-Hans": { "title": "作者更正:河流三角洲的全球性沉降" }, "ja": { "title": "著者訂正:河川デルタの全球的な沈降" }, "zh-Hant": { "title": "作者更正:河流三角洲的全球性沉降" } }, "_lite_content_html": "02-24  Author Correction: Global subsidence of river deltas (www.nature.com)" }, { "title": "科学家必须挺身而出,阻止核扩散", "summary": "Scientists must step up to avert a nuclear breakout", "content_text": "Scientists must step up to avert a nuclear breakout\n原文地址: https://www.nature.com/articles/d41586-026-00562-4", "content_html": "
\"media.nature.com
Scientists must step up to avert a nuclear breakout (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00562-4/", "url": "https://www.nature.com/articles/d41586-026-00562-4", "date_published": "2026-02-24T12:47:20.831Z", "date_modified": "2026-02-24T12:47:20.831Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Scientists must step up to avert a nuclear breakout" }, "zh-Hans": { "title": "科学家必须挺身而出,阻止核扩散" }, "ja": { "title": "科学者たちは核拡散を阻止するために立ち上がらねばならない" }, "zh-Hant": { "title": "科學家必須挺身而出,阻止核擴散" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00562-4/d41586-026-00562-4_52079516.jpg", "_lite_content_html": "02-24  Scientists must step up to avert a nuclear breakout (www.nature.com)" }, { "title": "每日简报:新型AI药物发现引擎“达到AlphaFold4的规模”", "summary": "Daily briefing: New AI drug-discovery engine is ‘on the scale of an AlphaFold4’", "content_text": "Daily briefing: New AI drug-discovery engine is ‘on the scale of an AlphaFold4’\n原文地址: https://www.nature.com/articles/d41586-026-00605-w", "content_html": "
\"media.nature.com
Daily briefing: New AI drug-discovery engine is ‘on the scale of an AlphaFold4’ (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00605-w/", "url": "https://www.nature.com/articles/d41586-026-00605-w", "date_published": "2026-02-24T12:47:19.919Z", "date_modified": "2026-02-24T12:47:19.919Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: New AI drug-discovery engine is ‘on the scale of an AlphaFold4’" }, "zh-Hans": { "title": "每日简报:新型AI药物发现引擎“达到AlphaFold4的规模”" }, "ja": { "title": "デイリーブリーフィング:新たなAI創薬エンジンは「AlphaFold4と同等の規模」" }, "zh-Hant": { "title": "每日簡報:新型AI藥物發現引擎“達到AlphaFold4的規模”" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00605-w/d41586-026-00605-w_52097902.png", "_lite_content_html": "02-23  Daily briefing: New AI drug-discovery engine is ‘on the scale of an AlphaFold4’ (www.nature.com)" }, { "title": "每日简报:通用疫苗可保护小鼠免受多种病原体侵害", "summary": "Daily briefing: ‘Universal’ vaccine protects mice from multiple pathogens", "content_text": "Daily briefing: ‘Universal’ vaccine protects mice from multiple pathogens\n原文地址: https://www.nature.com/articles/d41586-026-00588-8", "content_html": "
\"media.nature.com
Daily briefing: ‘Universal’ vaccine protects mice from multiple pathogens (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00588-8/", "url": "https://www.nature.com/articles/d41586-026-00588-8", "date_published": "2026-02-24T12:47:18.937Z", "date_modified": "2026-02-24T12:47:18.937Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: ‘Universal’ vaccine protects mice from multiple pathogens" }, "zh-Hans": { "title": "每日简报:通用疫苗可保护小鼠免受多种病原体侵害" }, "ja": { "title": "デイリーブリーフィング:「ユニバーサル」ワクチンがマウスを複数の病原体から保護" }, "zh-Hant": { "title": "每日簡報:通用疫苗可保護小鼠免受多種病原體侵害" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00588-8/d41586-026-00588-8_52093278.png", "_lite_content_html": "02-20  Daily briefing: ‘Universal’ vaccine protects mice from multiple pathogens (www.nature.com)" }, { "title": "新冠病毒的起源:已知与未知", "summary": "COVID’s origins: what we do and don’t know", "content_text": "COVID’s origins: what we do and don’t know\n原文地址: https://www.nature.com/articles/d41586-026-00530-y", "content_html": "
\"media.nature.com
COVID’s origins: what we do and don’t know (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00530-y/", "url": "https://www.nature.com/articles/d41586-026-00530-y", "date_published": "2026-02-24T11:44:23.344Z", "date_modified": "2026-02-24T11:44:23.344Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "COVID’s origins: what we do and don’t know" }, "zh-Hans": { "title": "新冠病毒的起源:已知与未知" }, "ja": { "title": "COVIDの起源:私たちが知っていることと知らないこと" }, "zh-Hant": { "title": "新冠病毒的起源:已知與未知" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00530-y/d41586-026-00530-y_52079504.jpg", "_lite_content_html": "02-24  COVID’s origins: what we do and don’t know (www.nature.com)" }, { "title": "中国正向阿尔茨海默病宣战。其应对策略能为世界其他地区带来哪些启示?", "summary": "China is waging war on Alzheimer’s. What can its approach teach the rest of the world?", "content_text": "China is waging war on Alzheimer’s. What can its approach teach the rest of the world?\n原文地址: https://www.nature.com/articles/d41586-026-00564-2", "content_html": "
\"media.nature.com
China is waging war on Alzheimer’s. What can its approach teach the rest of the world? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00564-2/", "url": "https://www.nature.com/articles/d41586-026-00564-2", "date_published": "2026-02-24T10:41:48.024Z", "date_modified": "2026-02-24T10:41:48.024Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "China is waging war on Alzheimer’s. What can its approach teach the rest of the world?" }, "zh-Hans": { "title": "中国正向阿尔茨海默病宣战。其应对策略能为世界其他地区带来哪些启示?" }, "ja": { "title": "中国はアルツハイマー病との戦いを展開している。その取り組みは世界に何を示せるのか?" }, "zh-Hant": { "title": "中國正向阿爾茨海默病宣戰。其應對策略能為世界其他地區帶來哪些啟示?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00564-2/d41586-026-00564-2_52084216.jpg", "_lite_content_html": "02-24  China is waging war on Alzheimer’s. What can its approach teach the rest of the world? (www.nature.com)" }, { "title": "仅凭证据无法拯救生物多样性:黄金苹果螺揭示了执行缺口", "summary": "Evidence alone won’t save biodiversity: the golden apple snail reveals an implementation gap", "content_text": "Evidence alone won’t save biodiversity: the golden apple snail reveals an implementation gap\n原文地址: https://www.nature.com/articles/d41586-026-00593-x", "content_html": "
Evidence alone won’t save biodiversity: the golden apple snail reveals an implementation gap (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00593-x/", "url": "https://www.nature.com/articles/d41586-026-00593-x", "date_published": "2026-02-24T10:41:47.042Z", "date_modified": "2026-02-24T10:41:47.042Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Evidence alone won’t save biodiversity: the golden apple snail reveals an implementation gap" }, "zh-Hans": { "title": "仅凭证据无法拯救生物多样性:黄金苹果螺揭示了执行缺口" }, "ja": { "title": "証拠だけでは生物多様性を救えない:ゴールデンアップルスネイルが示す実施のギャップ" }, "zh-Hant": { "title": "僅憑證據無法拯救生物多樣性:黃金蘋果螺揭示了執行缺口" } }, "_lite_content_html": "02-24  Evidence alone won’t save biodiversity: the golden apple snail reveals an implementation gap (www.nature.com)" }, { "title": "在科学出版的环境足迹中考虑人工智能的影响", "summary": "Account for AI in the environmental footprint of scientific publishing", "content_text": "Account for AI in the environmental footprint of scientific publishing\n原文地址: https://www.nature.com/articles/d41586-026-00590-0", "content_html": "
Account for AI in the environmental footprint of scientific publishing (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00590-0/", "url": "https://www.nature.com/articles/d41586-026-00590-0", "date_published": "2026-02-24T10:41:46.045Z", "date_modified": "2026-02-24T10:41:46.045Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Account for AI in the environmental footprint of scientific publishing" }, "zh-Hans": { "title": "在科学出版的环境足迹中考虑人工智能的影响" }, "ja": { "title": "科学出版物の環境フットプリントにおけるAIの影響を考慮する" }, "zh-Hant": { "title": "在科學出版的環境足跡中考慮人工智能的影響" } }, "_lite_content_html": "02-24  Account for AI in the environmental footprint of scientific publishing (www.nature.com)" }, { "title": "削减智利气候研究经费将损害科学事业并危及整个地区", "summary": "Defunding Chile’s climate research will undermine science and the region", "content_text": "Defunding Chile’s climate research will undermine science and the region\n原文地址: https://www.nature.com/articles/d41586-026-00592-y", "content_html": "
Defunding Chile’s climate research will undermine science and the region (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00592-y/", "url": "https://www.nature.com/articles/d41586-026-00592-y", "date_published": "2026-02-24T10:41:45.061Z", "date_modified": "2026-02-24T10:41:45.061Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Defunding Chile’s climate research will undermine science and the region" }, "zh-Hans": { "title": "削减智利气候研究经费将损害科学事业并危及整个地区" }, "ja": { "title": "チリの気候研究への資金削減は、科学と地域全体を損なうことになる" }, "zh-Hant": { "title": "削減智利氣候研究經費將損害科學事業並危及整個地區" } }, "_lite_content_html": "02-24  Defunding Chile’s climate research will undermine science and the region (www.nature.com)" }, { "title": "贡献者角色分类工具必须用于记录作者贡献程度。", "summary": "The Contributor Role Taxonomy tool must serve to record extent of authorship", "content_text": "The Contributor Role Taxonomy tool must serve to record extent of authorship\n原文地址: https://www.nature.com/articles/d41586-026-00591-z", "content_html": "
The Contributor Role Taxonomy tool must serve to record extent of authorship (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_24__www-nature-com--articles-d41586-026-00591-z/", "url": "https://www.nature.com/articles/d41586-026-00591-z", "date_published": "2026-02-24T10:41:43.926Z", "date_modified": "2026-02-24T10:41:43.926Z", "_original_published": "2026-02-24T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The Contributor Role Taxonomy tool must serve to record extent of authorship" }, "zh-Hans": { "title": "贡献者角色分类工具必须用于记录作者贡献程度。" }, "ja": { "title": "寄稿者役割分類ツールは、著作者としての関与の程度を記録する役割を果たさなければならない" }, "zh-Hant": { "title": "貢獻者角色分類工具必須用於記錄作者貢獻程度。" } }, "_lite_content_html": "02-24  The Contributor Role Taxonomy tool must serve to record extent of authorship (www.nature.com)" }, { "title": "嘶鸣时哼唱:研究人员从马嘴里直接识别出两种声音", "summary": "Whistle while you whinny: researchers identify two sounds straight from the horse’s mouth", "content_text": "Whistle while you whinny: researchers identify two sounds straight from the horse’s mouth\n原文地址: https://www.nature.com/articles/d41586-026-00545-5", "content_html": "
\"media.nature.com
Whistle while you whinny: researchers identify two sounds straight from the horse’s mouth (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00545-5/", "url": "https://www.nature.com/articles/d41586-026-00545-5", "date_published": "2026-02-23T18:25:57.833Z", "date_modified": "2026-02-23T18:25:57.833Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Whistle while you whinny: researchers identify two sounds straight from the horse’s mouth" }, "zh-Hans": { "title": "嘶鸣时哼唱:研究人员从马嘴里直接识别出两种声音" }, "ja": { "title": "口笛を吹きながらいななけ:研究者が馬の口から直接発せられる二つの音を特定" }, "zh-Hant": { "title": "嘶鳴時哼唱:研究人員從馬嘴裡直接識別出兩種聲音" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00545-5/d41586-026-00545-5_52084346.jpg", "_lite_content_html": "02-23  Whistle while you whinny: researchers identify two sounds straight from the horse’s mouth (www.nature.com)" }, { "title": "铁器时代集体墓葬揭示前所未有的针对妇女儿童的暴力行为", "summary": "Iron Age mass grave reveals unprecedented violence against women and children", "content_text": "Iron Age mass grave reveals unprecedented violence against women and children\n原文地址: https://www.nature.com/articles/d41586-026-00535-7", "content_html": "
\"media.nature.com
Iron Age mass grave reveals unprecedented violence against women and children (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00535-7/", "url": "https://www.nature.com/articles/d41586-026-00535-7", "date_published": "2026-02-23T17:22:13.717Z", "date_modified": "2026-02-23T17:22:13.717Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Iron Age mass grave reveals unprecedented violence against women and children" }, "zh-Hans": { "title": "铁器时代集体墓葬揭示前所未有的针对妇女儿童的暴力行为" }, "ja": { "title": "鉄器時代の集団墓地から、女性と子どもに対する前例のない暴力が明らかになる" }, "zh-Hant": { "title": "鐵器時代集體墓葬揭示前所未有的針對婦女兒童的暴力行為" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00535-7/d41586-026-00535-7_52079032.jpg", "_lite_content_html": "02-23  Iron Age mass grave reveals unprecedented violence against women and children (www.nature.com)" }, { "title": "日本即将批准首例干细胞疗法", "summary": "First-of-a-kind stem cell therapies set for approval in Japan", "content_text": "First-of-a-kind stem cell therapies set for approval in Japan\n原文地址: https://www.nature.com/articles/d41586-026-00585-x", "content_html": "
\"media.nature.com
First-of-a-kind stem cell therapies set for approval in Japan (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00585-x/", "url": "https://www.nature.com/articles/d41586-026-00585-x", "date_published": "2026-02-23T16:33:55.038Z", "date_modified": "2026-02-23T16:33:55.038Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "First-of-a-kind stem cell therapies set for approval in Japan" }, "zh-Hans": { "title": "日本即将批准首例干细胞疗法" }, "ja": { "title": "日本で初の幹細胞治療が承認へ" }, "zh-Hant": { "title": "日本即將批准首例幹細胞療法" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00585-x/d41586-026-00585-x_52093618.jpg", "_lite_content_html": "02-23  First-of-a-kind stem cell therapies set for approval in Japan (www.nature.com)" }, { "title": "通过膦氧化还原催化实现末端烯烃的马可夫尼科夫羟胺化反应", "summary": "Markovnikov hydroamination of terminal alkenes via phosphine redox catalysis", "content_text": "Markovnikov hydroamination of terminal alkenes via phosphine redox catalysis\n原文地址: https://www.nature.com/articles/s41586-026-10263-7", "content_html": "
Markovnikov hydroamination of terminal alkenes via phosphine redox catalysis (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-s41586-026-10263-7/", "url": "https://www.nature.com/articles/s41586-026-10263-7", "date_published": "2026-02-23T16:33:54.243Z", "date_modified": "2026-02-23T16:33:54.243Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Markovnikov hydroamination of terminal alkenes via phosphine redox catalysis" }, "zh-Hans": { "title": "通过膦氧化还原催化实现末端烯烃的马可夫尼科夫羟胺化反应" }, "ja": { "title": "リン系酸化還元触媒を用いた末端アルケンのマルコフニコフ式ヒドロアミノ化反応" }, "zh-Hant": { "title": "通過膦氧化還原催化實現末端烯烴的馬可夫尼科夫羥胺化反應" } }, "_lite_content_html": "02-23  Markovnikov hydroamination of terminal alkenes via phosphine redox catalysis (www.nature.com)" }, { "title": "\"母亲惩罚\"究竟有多严重?在丹麦,其经济损失高达12万美元。", "summary": "How big is the ‘motherhood penalty’? In Denmark, it adds up to 120,000", "content_text": "How big is the ‘motherhood penalty’? In Denmark, it adds up to 120,000\n原文地址: https://www.nature.com/articles/d41586-026-00463-6", "content_html": "
\"media.nature.com
How big is the ‘motherhood penalty’? In Denmark, it adds up to 120,000 (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00463-6/", "url": "https://www.nature.com/articles/d41586-026-00463-6", "date_published": "2026-02-23T14:26:03.718Z", "date_modified": "2026-02-23T14:26:03.718Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How big is the ‘motherhood penalty’? In Denmark, it adds up to 120,000" }, "zh-Hans": { "title": "\"母亲惩罚\"究竟有多严重?在丹麦,其经济损失高达12万美元。" }, "ja": { "title": "「母性ペナルティ」の規模はどれほどか?デンマークでは12万ドルに上る" }, "zh-Hant": { "title": "\"母親懲罰\"究竟有多嚴重?在丹麥,其經濟損失高達12萬美元。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00463-6/d41586-026-00463-6_52074510.jpg", "_lite_content_html": "02-23  How big is the ‘motherhood penalty’? In Denmark, it adds up to 120,000 (www.nature.com)" }, { "title": "为何每位科学家都需要一位图书管理员", "summary": "Why every scientist needs a librarian", "content_text": "Why every scientist needs a librarian\n原文地址: https://www.nature.com/articles/d41586-026-00568-y", "content_html": "
\"media.nature.com
Why every scientist needs a librarian (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00568-y/", "url": "https://www.nature.com/articles/d41586-026-00568-y", "date_published": "2026-02-23T12:33:53.673Z", "date_modified": "2026-02-23T12:33:53.673Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why every scientist needs a librarian" }, "zh-Hans": { "title": "为何每位科学家都需要一位图书管理员" }, "ja": { "title": "なぜすべての科学者に司書が必要なのか" }, "zh-Hant": { "title": "為何每位科學家都需要一位圖書管理員" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00568-y/d41586-026-00568-y_52074638.jpg", "_lite_content_html": "02-23  Why every scientist needs a librarian (www.nature.com)" }, { "title": "音乐并非世界通用语言——但当语言失效时,它能将我们凝聚在一起。", "summary": "Music is not a universal language — but it can bring us together when words fail", "content_text": "Music is not a universal language — but it can bring us together when words fail\n原文地址: https://www.nature.com/articles/d41586-026-00565-1", "content_html": "
\"media.nature.com
Music is not a universal language — but it can bring us together when words fail (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00565-1/", "url": "https://www.nature.com/articles/d41586-026-00565-1", "date_published": "2026-02-23T11:45:46.866Z", "date_modified": "2026-02-23T11:45:46.866Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Music is not a universal language — but it can bring us together when words fail" }, "zh-Hans": { "title": "音乐并非世界通用语言——但当语言失效时,它能将我们凝聚在一起。" }, "ja": { "title": "音楽は万人の共通語ではない――しかし言葉が通じない時、私たちを結びつけることができる" }, "zh-Hant": { "title": "音樂並非世界通用語言——但當語言失效時,它能將我們凝聚在一起。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00565-1/d41586-026-00565-1_52079472.jpg", "_lite_content_html": "02-23  Music is not a universal language — but it can bring us together when words fail (www.nature.com)" }, { "title": "这款人工智能能提升你的同行评审质量——并使其更显礼貌", "summary": "This AI can improve your peer review — and make it more polite", "content_text": "This AI can improve your peer review — and make it more polite\n原文地址: https://www.nature.com/articles/d41586-026-00536-6", "content_html": "
\"media.nature.com
This AI can improve your peer review — and make it more polite (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00536-6/", "url": "https://www.nature.com/articles/d41586-026-00536-6", "date_published": "2026-02-23T10:25:40.307Z", "date_modified": "2026-02-23T10:25:40.307Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "This AI can improve your peer review — and make it more polite" }, "zh-Hans": { "title": "这款人工智能能提升你的同行评审质量——并使其更显礼貌" }, "ja": { "title": "このAIは査読の質を向上させ、より丁寧なものにします" }, "zh-Hant": { "title": "這款人工智能能提升你的同行評審質量——並使其更顯禮貌" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00536-6/d41586-026-00536-6_52079380.jpg", "_lite_content_html": "02-23  This AI can improve your peer review — and make it more polite (www.nature.com)" }, { "title": "美国黑人大学竞逐顶尖研究排名", "summary": "Historically Black US universities chase top research ranking", "content_text": "Historically Black US universities chase top research ranking\n原文地址: https://www.nature.com/articles/d41586-026-00366-6", "content_html": "
\"media.nature.com
Historically Black US universities chase top research ranking (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00366-6/", "url": "https://www.nature.com/articles/d41586-026-00366-6", "date_published": "2026-02-23T10:25:39.548Z", "date_modified": "2026-02-23T10:25:39.548Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Historically Black US universities chase top research ranking" }, "zh-Hans": { "title": "美国黑人大学竞逐顶尖研究排名" }, "ja": { "title": "歴史的に黒人向けの米国の大学がトップ研究ランキングを追う" }, "zh-Hant": { "title": "美國黑人大學競逐頂尖研究排名" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00366-6/d41586-026-00366-6_52079460.jpg", "_lite_content_html": "02-23  Historically Black US universities chase top research ranking (www.nature.com)" }, { "title": "人工智能工具能够设计基因组。它们会颠覆生命进化的方式吗?", "summary": "AI tools can design genomes. Will they upend how life evolves?", "content_text": "AI tools can design genomes. Will they upend how life evolves?\n原文地址: https://www.nature.com/articles/d41586-026-00566-0", "content_html": "
\"media.nature.com
AI tools can design genomes. Will they upend how life evolves? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00566-0/", "url": "https://www.nature.com/articles/d41586-026-00566-0", "date_published": "2026-02-23T10:25:38.663Z", "date_modified": "2026-02-23T10:25:38.663Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI tools can design genomes. Will they upend how life evolves?" }, "zh-Hans": { "title": "人工智能工具能够设计基因组。它们会颠覆生命进化的方式吗?" }, "ja": { "title": "AIツールはゲノムを設計できる。生命の進化の仕方を覆すだろうか?" }, "zh-Hant": { "title": "人工智能工具能夠設計基因組。它們會顛覆生命進化的方式嗎?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00566-0/d41586-026-00566-0_52079256.jpg", "_lite_content_html": "02-23  AI tools can design genomes. Will they upend how life evolves? (www.nature.com)" }, { "title": "从维多利亚时代的航海到消失的地图:书评速递", "summary": "From Victorian voyages to vanishing maps: Books in brief", "content_text": "From Victorian voyages to vanishing maps: Books in brief\n原文地址: https://www.nature.com/articles/d41586-026-00567-z", "content_html": "
\"media.nature.com
From Victorian voyages to vanishing maps: Books in brief (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/9/en_rss_2026_02_23__www-nature-com--articles-d41586-026-00567-z/", "url": "https://www.nature.com/articles/d41586-026-00567-z", "date_published": "2026-02-23T09:37:39.872Z", "date_modified": "2026-02-23T09:37:39.872Z", "_original_published": "2026-02-23T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "From Victorian voyages to vanishing maps: Books in brief" }, "zh-Hans": { "title": "从维多利亚时代的航海到消失的地图:书评速递" }, "ja": { "title": "ヴィクトリア朝の航海から消えゆく地図まで:書籍紹介" }, "zh-Hant": { "title": "從維多利亞時代的航海到消失的地圖:書評速遞" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00567-z/d41586-026-00567-z_51913866.jpg", "_lite_content_html": "02-23  From Victorian voyages to vanishing maps: Books in brief (www.nature.com)" }, { "title": "凝胶助力微型脊髓修复损伤", "summary": "Gel helps mini spinal cords to heal from injury", "content_text": "Gel helps mini spinal cords to heal from injury\n原文地址: https://www.nature.com/articles/d41586-026-00512-0", "content_html": "
\"media.nature.com
Gel helps mini spinal cords to heal from injury (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00512-0/", "url": "https://www.nature.com/articles/d41586-026-00512-0", "date_published": "2026-02-20T22:13:45.469Z", "date_modified": "2026-02-20T22:13:45.469Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Gel helps mini spinal cords to heal from injury" }, "zh-Hans": { "title": "凝胶助力微型脊髓修复损伤" }, "ja": { "title": "ゲルが損傷したミニ脊髄の修復を助ける" }, "zh-Hant": { "title": "凝膠助力微型脊髓修復損傷" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00512-0/d41586-026-00512-0_52046392.jpg", "_lite_content_html": "02-20  Gel helps mini spinal cords to heal from injury (www.nature.com)" }, { "title": "冰壶石为何能在冰面上以这种方式滑行?", "summary": "Why do curling stones slide across ice the way they do?", "content_text": "Why do curling stones slide across ice the way they do?\n原文地址: https://www.nature.com/articles/d41586-026-00556-2", "content_html": "
\"media.nature.com
Why do curling stones slide across ice the way they do? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00556-2/", "url": "https://www.nature.com/articles/d41586-026-00556-2", "date_published": "2026-02-20T21:25:38.772Z", "date_modified": "2026-02-20T21:25:38.772Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why do curling stones slide across ice the way they do?" }, "zh-Hans": { "title": "冰壶石为何能在冰面上以这种方式滑行?" }, "ja": { "title": "カーリングストーンはなぜあのようにはじけて滑るのか?" }, "zh-Hant": { "title": "冰壺石為何能在冰面上以這種方式滑行?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00556-2/d41586-026-00556-2_52084518.jpg", "_lite_content_html": "02-20  Why do curling stones slide across ice the way they do? (www.nature.com)" }, { "title": "肥胖药物是否引发严重并发症?科学依据如何说明", "summary": "Are obesity drugs causing a severe complication? What the science says", "content_text": "Are obesity drugs causing a severe complication? What the science says\n原文地址: https://www.nature.com/articles/d41586-026-00552-6", "content_html": "
\"media.nature.com
Are obesity drugs causing a severe complication? What the science says (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00552-6/", "url": "https://www.nature.com/articles/d41586-026-00552-6", "date_published": "2026-02-20T17:59:07.562Z", "date_modified": "2026-02-20T17:59:07.562Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Are obesity drugs causing a severe complication? What the science says" }, "zh-Hans": { "title": "肥胖药物是否引发严重并发症?科学依据如何说明" }, "ja": { "title": "肥満治療薬は深刻な合併症を引き起こしているのか?科学が示す真実" }, "zh-Hant": { "title": "肥胖藥物是否引發嚴重併發症?科學依據如何說明" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00552-6/d41586-026-00552-6_52084236.jpg", "_lite_content_html": "02-20  Are obesity drugs causing a severe complication? What the science says (www.nature.com)" }, { "title": "人工智能正威胁着科学领域的工作岗位。哪些岗位面临最大风险?", "summary": "AI is threatening science jobs. Which ones are most at risk?", "content_text": "AI is threatening science jobs. Which ones are most at risk?\n原文地址: https://www.nature.com/articles/d41586-026-00444-9", "content_html": "
\"media.nature.com
AI is threatening science jobs. Which ones are most at risk? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00444-9/", "url": "https://www.nature.com/articles/d41586-026-00444-9", "date_published": "2026-02-20T17:11:11.970Z", "date_modified": "2026-02-20T17:11:11.970Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI is threatening science jobs. Which ones are most at risk?" }, "zh-Hans": { "title": "人工智能正威胁着科学领域的工作岗位。哪些岗位面临最大风险?" }, "ja": { "title": "AIが科学分野の職を脅かしている。最も危険にさらされているのはどの職種か?" }, "zh-Hant": { "title": "人工智能正威脅著科學領域的工作崗位。哪些崗位面臨最大風險?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00444-9/d41586-026-00444-9_52079044.jpg", "_lite_content_html": "02-20  AI is threatening science jobs. Which ones are most at risk? (www.nature.com)" }, { "title": "逃逸黑洞留下星辰轨迹", "summary": "Runaway black hole leaves a trail of stars", "content_text": "Runaway black hole leaves a trail of stars\n原文地址: https://www.nature.com/articles/d41586-026-00510-2", "content_html": "
\"media.nature.com
Runaway black hole leaves a trail of stars (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00510-2/", "url": "https://www.nature.com/articles/d41586-026-00510-2", "date_published": "2026-02-20T16:23:13.158Z", "date_modified": "2026-02-20T16:23:13.158Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Runaway black hole leaves a trail of stars" }, "zh-Hans": { "title": "逃逸黑洞留下星辰轨迹" }, "ja": { "title": "逃亡したブラックホールが星々の軌跡を残す" }, "zh-Hant": { "title": "逃逸黑洞留下星辰軌跡" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00510-2/d41586-026-00510-2_52063370.jpg", "_lite_content_html": "02-20  Runaway black hole leaves a trail of stars (www.nature.com)" }, { "title": "简报聊天:悬停的熊蜂如何保持冷静", "summary": "Briefing chat: How hovering bumblebees keep their cool", "content_text": "Briefing chat: How hovering bumblebees keep their cool\n原文地址: https://www.nature.com/articles/d41586-026-00582-0", "content_html": "
\"media.nature.com
Briefing chat: How hovering bumblebees keep their cool (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00582-0/", "url": "https://www.nature.com/articles/d41586-026-00582-0", "date_published": "2026-02-20T16:23:11.950Z", "date_modified": "2026-02-20T16:23:11.950Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Briefing chat: How hovering bumblebees keep their cool" }, "zh-Hans": { "title": "简报聊天:悬停的熊蜂如何保持冷静" }, "ja": { "title": "ブリーフィングチャット:ホバリングするマルハナバチが冷静さを保つ方法" }, "zh-Hant": { "title": "簡報聊天:懸停的熊蜂如何保持冷靜" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00582-0/d41586-026-00582-0_52078860.jpg", "_lite_content_html": "02-20  Briefing chat: How hovering bumblebees keep their cool (www.nature.com)" }, { "title": "作者修正:自然行为是通过多巴胺介导的强化机制习得的。", "summary": "Author Correction: Natural behaviour is learned through dopamine-mediated reinforcement", "content_text": "Author Correction: Natural behaviour is learned through dopamine-mediated reinforcement\n原文地址: https://www.nature.com/articles/s41586-026-10199-y", "content_html": "
Author Correction: Natural behaviour is learned through dopamine-mediated reinforcement (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-s41586-026-10199-y/", "url": "https://www.nature.com/articles/s41586-026-10199-y", "date_published": "2026-02-20T15:19:10.635Z", "date_modified": "2026-02-20T15:19:10.635Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: Natural behaviour is learned through dopamine-mediated reinforcement" }, "zh-Hans": { "title": "作者修正:自然行为是通过多巴胺介导的强化机制习得的。" }, "ja": { "title": "著者訂正:自然な行動はドーパミンを介した強化によって学習される" }, "zh-Hant": { "title": "作者修正:自然行為是通過多巴胺介導的強化機制習得的。" } }, "_lite_content_html": "02-20  Author Correction: Natural behaviour is learned through dopamine-mediated reinforcement (www.nature.com)" }, { "title": "出版者更正:PtdIns(3,5)P2是先天免疫信号通路中STING的内源性配体", "summary": "Publisher Correction: PtdIns(3,5)P2 is an endogenous ligand of STING in innate immune signalling", "content_text": "Publisher Correction: PtdIns(3,5)P2 is an endogenous ligand of STING in innate immune signalling\n原文地址: https://www.nature.com/articles/s41586-026-10280-6", "content_html": "
Publisher Correction: PtdIns(3,5)P2 is an endogenous ligand of STING in innate immune signalling (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-s41586-026-10280-6/", "url": "https://www.nature.com/articles/s41586-026-10280-6", "date_published": "2026-02-20T13:11:29.836Z", "date_modified": "2026-02-20T13:11:29.836Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Publisher Correction: PtdIns(3,5)P2 is an endogenous ligand of STING in innate immune signalling" }, "zh-Hans": { "title": "出版者更正:PtdIns(3,5)P2是先天免疫信号通路中STING的内源性配体" }, "ja": { "title": "出版社による訂正:PtdIns(3,5)P2は、自然免疫シグナル伝達におけるSTINGの内因性リガンドである" }, "zh-Hant": { "title": "出版者更正:PtdIns(3,5)P2是先天免疫信號通路中STING的內源性配體" } }, "_lite_content_html": "02-20  Publisher Correction: PtdIns(3,5)P2 is an endogenous ligand of STING in innate immune signalling (www.nature.com)" }, { "title": "每日简报:自动化机器人\"科学家\"引发实验室工作未来之争", "summary": "Daily briefing: Automated robot ‘scientists’ spark debate over the future of lab work", "content_text": "Daily briefing: Automated robot ‘scientists’ spark debate over the future of lab work\n原文地址: https://www.nature.com/articles/d41586-026-00557-1", "content_html": "
\"media.nature.com
Daily briefing: Automated robot ‘scientists’ spark debate over the future of lab work (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00557-1/", "url": "https://www.nature.com/articles/d41586-026-00557-1", "date_published": "2026-02-20T13:11:28.944Z", "date_modified": "2026-02-20T13:11:28.944Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: Automated robot ‘scientists’ spark debate over the future of lab work" }, "zh-Hans": { "title": "每日简报:自动化机器人\"科学家\"引发实验室工作未来之争" }, "ja": { "title": "デイリーブリーフィング:自動化されたロボット「科学者」が実験室の未来をめぐる議論を巻き起こす" }, "zh-Hant": { "title": "每日簡報:自動化機器人\"科學家\"引發實驗室工作未來之爭" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00557-1/d41586-026-00557-1_52083834.png", "_lite_content_html": "02-19  Daily briefing: Automated robot ‘scientists’ spark debate over the future of lab work (www.nature.com)" }, { "title": "军事化加剧可能改变科研生涯的五种方式", "summary": "Five ways increased militarization could change scientific careers", "content_text": "Five ways increased militarization could change scientific careers\n原文地址: https://www.nature.com/articles/d41586-025-04168-0", "content_html": "
\"media.nature.com
Five ways increased militarization could change scientific careers (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-025-04168-0/", "url": "https://www.nature.com/articles/d41586-025-04168-0", "date_published": "2026-02-20T11:20:24.881Z", "date_modified": "2026-02-20T11:20:24.881Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Five ways increased militarization could change scientific careers" }, "zh-Hans": { "title": "军事化加剧可能改变科研生涯的五种方式" }, "ja": { "title": "軍事化の進展が科学者のキャリアに及ぼす5つの影響" }, "zh-Hant": { "title": "軍事化加劇可能改變科研生涯的五種方式" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-025-04168-0/d41586-025-04168-0_51960968.jpg", "_lite_content_html": "02-20  Five ways increased militarization could change scientific careers (www.nature.com)" }, { "title": "每日简报:关于自闭症与衰老的已知与未知", "summary": "Daily briefing: What we know about autism and ageing — and what we don’t", "content_text": "Daily briefing: What we know about autism and ageing — and what we don’t\n原文地址: https://www.nature.com/articles/d41586-026-00541-9", "content_html": "
\"media.nature.com
Daily briefing: What we know about autism and ageing — and what we don’t (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00541-9/", "url": "https://www.nature.com/articles/d41586-026-00541-9", "date_published": "2026-02-20T11:20:23.357Z", "date_modified": "2026-02-20T11:20:23.357Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: What we know about autism and ageing — and what we don’t" }, "zh-Hans": { "title": "每日简报:关于自闭症与衰老的已知与未知" }, "ja": { "title": "デイリーブリーフィング:自閉症と加齢について私たちが知っていること、そして知らないこと" }, "zh-Hant": { "title": "每日簡報:關於自閉症與衰老的已知與未知" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00541-9/d41586-026-00541-9_52078646.png", "_lite_content_html": "02-18  Daily briefing: What we know about autism and ageing — and what we don’t (www.nature.com)" }, { "title": "超粘性脚垫助力机器人攀爬墙壁", "summary": "Super-sticky feet help a robot to climb the walls", "content_text": "Super-sticky feet help a robot to climb the walls\n原文地址: https://www.nature.com/articles/d41586-026-00513-z", "content_html": "
\"media.nature.com
Super-sticky feet help a robot to climb the walls (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_20__www-nature-com--articles-d41586-026-00513-z/", "url": "https://www.nature.com/articles/d41586-026-00513-z", "date_published": "2026-02-20T04:08:30.758Z", "date_modified": "2026-02-20T04:08:30.758Z", "_original_published": "2026-02-20T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Super-sticky feet help a robot to climb the walls" }, "zh-Hans": { "title": "超粘性脚垫助力机器人攀爬墙壁" }, "ja": { "title": "超粘着性の足がロボットの壁登りを可能にする" }, "zh-Hant": { "title": "超粘性腳墊助力機器人攀爬牆壁" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00513-z/d41586-026-00513-z_52074908.jpg", "_lite_content_html": "02-20  Super-sticky feet help a robot to climb the walls (www.nature.com)" }, { "title": "“万能疫苗”保护小鼠免受多种病原体侵害", "summary": "‘Universal vaccine’ protects mice against multiple pathogens", "content_text": "‘Universal vaccine’ protects mice against multiple pathogens\n原文地址: https://www.nature.com/articles/d41586-026-00506-y", "content_html": "
\"media.nature.com
‘Universal vaccine’ protects mice against multiple pathogens (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-d41586-026-00506-y/", "url": "https://www.nature.com/articles/d41586-026-00506-y", "date_published": "2026-02-19T20:09:45.743Z", "date_modified": "2026-02-19T20:09:45.743Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "‘Universal vaccine’ protects mice against multiple pathogens" }, "zh-Hans": { "title": "“万能疫苗”保护小鼠免受多种病原体侵害" }, "ja": { "title": "「ユニバーサルワクチン」がマウスを複数の病原体から保護" }, "zh-Hant": { "title": "“萬能疫苗”保護小鼠免受多種病原體侵害" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00506-y/d41586-026-00506-y_52079164.jpg", "_lite_content_html": "02-19  ‘Universal vaccine’ protects mice against multiple pathogens (www.nature.com)" }, { "title": "生物技术投资者即将执掌美国国家科学基金会", "summary": "Biotech investor set to lead US National Science Foundation", "content_text": "Biotech investor set to lead US National Science Foundation\n原文地址: https://www.nature.com/articles/d41586-026-00537-5", "content_html": "
\"media.nature.com
Biotech investor set to lead US National Science Foundation (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-d41586-026-00537-5/", "url": "https://www.nature.com/articles/d41586-026-00537-5", "date_published": "2026-02-19T20:09:44.796Z", "date_modified": "2026-02-19T20:09:44.796Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Biotech investor set to lead US National Science Foundation" }, "zh-Hans": { "title": "生物技术投资者即将执掌美国国家科学基金会" }, "ja": { "title": "バイオテクノロジー投資家が米国国立科学財団のトップに就任予定" }, "zh-Hant": { "title": "生物技術投資者即將執掌美國國家科學基金會" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00537-5/d41586-026-00537-5_52078706.jpg", "_lite_content_html": "02-19  Biotech investor set to lead US National Science Foundation (www.nature.com)" }, { "title": "血液检测有望预测阿尔茨海默病症状何时出现", "summary": "Blood test holds promise for predicting when Alzheimer’s symptoms will start", "content_text": "Blood test holds promise for predicting when Alzheimer’s symptoms will start\n原文地址: https://www.nature.com/articles/d41586-026-00531-x", "content_html": "
\"media.nature.com
Blood test holds promise for predicting when Alzheimer’s symptoms will start (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-d41586-026-00531-x/", "url": "https://www.nature.com/articles/d41586-026-00531-x", "date_published": "2026-02-19T17:14:31.130Z", "date_modified": "2026-02-19T17:14:31.130Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Blood test holds promise for predicting when Alzheimer’s symptoms will start" }, "zh-Hans": { "title": "血液检测有望预测阿尔茨海默病症状何时出现" }, "ja": { "title": "血液検査がアルツハイマー病の症状発症時期の予測に有望視されている" }, "zh-Hant": { "title": "血液檢測有望預測阿爾茨海默病症狀何時出現" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00531-x/d41586-026-00531-x_52074804.jpg", "_lite_content_html": "02-19  Blood test holds promise for predicting when Alzheimer’s symptoms will start (www.nature.com)" }, { "title": "宿主对持续性EB病毒感染的调控", "summary": "Host control of persistent Epstein–Barr virus infection", "content_text": "Host control of persistent Epstein–Barr virus infection\n原文地址: https://www.nature.com/articles/s41586-026-10274-4", "content_html": "
Host control of persistent Epstein–Barr virus infection (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-s41586-026-10274-4/", "url": "https://www.nature.com/articles/s41586-026-10274-4", "date_published": "2026-02-19T17:14:30.063Z", "date_modified": "2026-02-19T17:14:30.063Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Host control of persistent Epstein–Barr virus infection" }, "zh-Hans": { "title": "宿主对持续性EB病毒感染的调控" }, "ja": { "title": "持続性エプスタイン・バーウイルス感染の宿主制御" }, "zh-Hant": { "title": "宿主對持續性EB病毒感染的調控" } }, "_lite_content_html": "02-19  Host control of persistent Epstein–Barr virus infection (www.nature.com)" }, { "title": "全球科学新闻业举步维艰,美国援助削减影响显现", "summary": "Science journalism on the ropes worldwide as US aid cuts bite", "content_text": "Science journalism on the ropes worldwide as US aid cuts bite\n原文地址: https://www.nature.com/articles/d41586-026-00117-7", "content_html": "
\"media.nature.com
Science journalism on the ropes worldwide as US aid cuts bite (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-d41586-026-00117-7/", "url": "https://www.nature.com/articles/d41586-026-00117-7", "date_published": "2026-02-19T14:18:06.302Z", "date_modified": "2026-02-19T14:18:06.302Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Science journalism on the ropes worldwide as US aid cuts bite" }, "zh-Hans": { "title": "全球科学新闻业举步维艰,美国援助削减影响显现" }, "ja": { "title": "世界的に科学ジャーナリズムが窮地に立たされる 米国援助削減の影響が深刻化" }, "zh-Hant": { "title": "全球科學新聞業舉步維艱,美國援助削減影響顯現" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00117-7/d41586-026-00117-7_52042436.jpg", "_lite_content_html": "02-19  Science journalism on the ropes worldwide as US aid cuts bite (www.nature.com)" }, { "title": "学术界的父母陷阱:研究员母亲面临的困境", "summary": "Academia’s parent trap: the struggles faced by researcher mothers", "content_text": "Academia’s parent trap: the struggles faced by researcher mothers\n原文地址: https://www.nature.com/articles/d41586-026-00157-z", "content_html": "
\"media.nature.com
Academia’s parent trap: the struggles faced by researcher mothers (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-d41586-026-00157-z/", "url": "https://www.nature.com/articles/d41586-026-00157-z", "date_published": "2026-02-19T14:18:04.999Z", "date_modified": "2026-02-19T14:18:04.999Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Academia’s parent trap: the struggles faced by researcher mothers" }, "zh-Hans": { "title": "学术界的父母陷阱:研究员母亲面临的困境" }, "ja": { "title": "学界の親の罠:研究者である母親が直面する苦闘" }, "zh-Hant": { "title": "學術界的父母陷阱:研究員母親面臨的困境" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00157-z/d41586-026-00157-z_51917692.jpg", "_lite_content_html": "02-19  Academia’s parent trap: the struggles faced by researcher mothers (www.nature.com)" }, { "title": "“AlphaFold 4”——科学家惊叹于DeepMind药物分支机构推出的独家新型人工智能", "summary": "‘An AlphaFold 4’ – scientists marvel at DeepMind drug spin-off’s exclusive new AI", "content_text": "‘An AlphaFold 4’ – scientists marvel at DeepMind drug spin-off’s exclusive new AI\n原文地址: https://www.nature.com/articles/d41586-026-00365-7", "content_html": "
\"media.nature.com
‘An AlphaFold 4’ – scientists marvel at DeepMind drug spin-off’s exclusive new AI (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_19__www-nature-com--articles-d41586-026-00365-7/", "url": "https://www.nature.com/articles/d41586-026-00365-7", "date_published": "2026-02-19T11:53:57.193Z", "date_modified": "2026-02-19T11:53:57.193Z", "_original_published": "2026-02-19T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "‘An AlphaFold 4’ – scientists marvel at DeepMind drug spin-off’s exclusive new AI" }, "zh-Hans": { "title": "“AlphaFold 4”——科学家惊叹于DeepMind药物分支机构推出的独家新型人工智能" }, "ja": { "title": "「アルファフォールド4」― 科学者たちが驚嘆するディープマインドの医薬品スピンオフ企業が独占開発した新AI" }, "zh-Hant": { "title": "“AlphaFold 4”——科學家驚歎於DeepMind藥物分支機構推出的獨家新型人工智能" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00365-7/d41586-026-00365-7_52074752.jpg", "_lite_content_html": "02-19  ‘An AlphaFold 4’ – scientists marvel at DeepMind drug spin-off’s exclusive new AI (www.nature.com)" }, { "title": "这种巨型病毒劫持细胞的蛋白质制造机器,从而疯狂增殖。", "summary": "This giant virus hijacks cells’ protein-making machinery to multiply wildly", "content_text": "This giant virus hijacks cells’ protein-making machinery to multiply wildly\n原文地址: https://www.nature.com/articles/d41586-026-00532-w", "content_html": "
\"media.nature.com
This giant virus hijacks cells’ protein-making machinery to multiply wildly (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00532-w/", "url": "https://www.nature.com/articles/d41586-026-00532-w", "date_published": "2026-02-18T22:06:15.599Z", "date_modified": "2026-02-18T22:06:15.599Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "This giant virus hijacks cells’ protein-making machinery to multiply wildly" }, "zh-Hans": { "title": "这种巨型病毒劫持细胞的蛋白质制造机器,从而疯狂增殖。" }, "ja": { "title": "この巨大ウイルスは細胞のタンパク質合成機構を乗っ取り、爆発的に増殖する" }, "zh-Hant": { "title": "這種巨型病毒劫持細胞的蛋白質製造機器,從而瘋狂增殖。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00532-w/d41586-026-00532-w_52070324.jpg", "_lite_content_html": "02-18  This giant virus hijacks cells’ protein-making machinery to multiply wildly (www.nature.com)" }, { "title": "随着二氧化碳排放量的增加,森林土壤正面临养分短缺问题", "summary": "Forest soils are running short of nutrients as CO2 emissions rise", "content_text": "Forest soils are running short of nutrients as CO2 emissions rise\n原文地址: https://www.nature.com/articles/d41586-026-00287-4", "content_html": "
\"media.nature.com
Forest soils are running short of nutrients as CO2 emissions rise (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00287-4/", "url": "https://www.nature.com/articles/d41586-026-00287-4", "date_published": "2026-02-18T17:19:21.275Z", "date_modified": "2026-02-18T17:19:21.275Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Forest soils are running short of nutrients as CO2 emissions rise" }, "zh-Hans": { "title": "随着二氧化碳排放量的增加,森林土壤正面临养分短缺问题" }, "ja": { "title": "森林土壌は二酸化炭素排出量の増加に伴い、栄養分が不足しつつある" }, "zh-Hant": { "title": "隨著二氧化碳排放量的增加,森林土壤正面臨養分短缺問題" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00287-4/d41586-026-00287-4_52050978.jpg", "_lite_content_html": "02-18  Forest soils are running short of nutrients as CO2 emissions rise (www.nature.com)" }, { "title": "基因编辑治疗神经发育障碍小鼠模型", "summary": "Gene editing treats a mouse model of a neurodevelopmental disorder", "content_text": "Gene editing treats a mouse model of a neurodevelopmental disorder\n原文地址: https://www.nature.com/articles/d41586-026-00291-8", "content_html": "
\"media.nature.com
Gene editing treats a mouse model of a neurodevelopmental disorder (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00291-8/", "url": "https://www.nature.com/articles/d41586-026-00291-8", "date_published": "2026-02-18T17:19:20.018Z", "date_modified": "2026-02-18T17:19:20.018Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Gene editing treats a mouse model of a neurodevelopmental disorder" }, "zh-Hans": { "title": "基因编辑治疗神经发育障碍小鼠模型" }, "ja": { "title": "遺伝子編集技術による神経発達障害マウスモデルの治療" }, "zh-Hant": { "title": "基因編輯治療神經發育障礙小鼠模型" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00291-8/d41586-026-00291-8_52070366.jpg", "_lite_content_html": "02-18  Gene editing treats a mouse model of a neurodevelopmental disorder (www.nature.com)" }, { "title": "牡蛎构建几何结构最优的礁体", "summary": "Oysters build reefs with optimal geometries", "content_text": "Oysters build reefs with optimal geometries\n原文地址: https://www.nature.com/articles/d41586-026-00482-3", "content_html": "
\"media.nature.com
Oysters build reefs with optimal geometries (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00482-3/", "url": "https://www.nature.com/articles/d41586-026-00482-3", "date_published": "2026-02-18T17:19:18.525Z", "date_modified": "2026-02-18T17:19:18.525Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Oysters build reefs with optimal geometries" }, "zh-Hans": { "title": "牡蛎构建几何结构最优的礁体" }, "ja": { "title": "カキは最適な幾何学的形状で礁を構築する" }, "zh-Hant": { "title": "牡蠣構建幾何結構最優的礁體" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00482-3/d41586-026-00482-3_52056138.png", "_lite_content_html": "02-18  Oysters build reefs with optimal geometries (www.nature.com)" }, { "title": "疟疾因细胞周期蛋白的抑制而受阻", "summary": "Malaria is hindered by repression of a cell-cycle protein", "content_text": "Malaria is hindered by repression of a cell-cycle protein\n原文地址: https://www.nature.com/articles/d41586-026-00289-2", "content_html": "
\"media.nature.com
Malaria is hindered by repression of a cell-cycle protein (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00289-2/", "url": "https://www.nature.com/articles/d41586-026-00289-2", "date_published": "2026-02-18T17:19:17.312Z", "date_modified": "2026-02-18T17:19:17.312Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Malaria is hindered by repression of a cell-cycle protein" }, "zh-Hans": { "title": "疟疾因细胞周期蛋白的抑制而受阻" }, "ja": { "title": "マラリアは細胞周期タンパク質の抑制によって阻害される" }, "zh-Hant": { "title": "瘧疾因細胞週期蛋白的抑制而受阻" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00289-2/d41586-026-00289-2_52070090.jpg", "_lite_content_html": "02-18  Malaria is hindered by repression of a cell-cycle protein (www.nature.com)" }, { "title": "激光刻写玻璃板可将数据保存数千年", "summary": "Laser-written glass tablets can preserve data for millennia", "content_text": "Laser-written glass tablets can preserve data for millennia\n原文地址: https://www.nature.com/articles/d41586-026-00286-5", "content_html": "
\"media.nature.com
Laser-written glass tablets can preserve data for millennia (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00286-5/", "url": "https://www.nature.com/articles/d41586-026-00286-5", "date_published": "2026-02-18T17:19:16.076Z", "date_modified": "2026-02-18T17:19:16.076Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Laser-written glass tablets can preserve data for millennia" }, "zh-Hans": { "title": "激光刻写玻璃板可将数据保存数千年" }, "ja": { "title": "レーザーで刻まれたガラス板は数千年にわたりデータを保存できる" }, "zh-Hant": { "title": "激光刻寫玻璃板可將數據保存數千年" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00286-5/d41586-026-00286-5_52063192.jpg", "_lite_content_html": "02-18  Laser-written glass tablets can preserve data for millennia (www.nature.com)" }, { "title": "芯片级器件高效增强光信号", "summary": "Chip-scale device efficiently boosts light signals", "content_text": "Chip-scale device efficiently boosts light signals\n原文地址: https://www.nature.com/articles/d41586-026-00484-1", "content_html": "
\"media.nature.com
Chip-scale device efficiently boosts light signals (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00484-1/", "url": "https://www.nature.com/articles/d41586-026-00484-1", "date_published": "2026-02-18T17:19:14.579Z", "date_modified": "2026-02-18T17:19:14.579Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Chip-scale device efficiently boosts light signals" }, "zh-Hans": { "title": "芯片级器件高效增强光信号" }, "ja": { "title": "チップスケールデバイスが光信号を効率的に増幅する" }, "zh-Hant": { "title": "芯片級器件高效增強光信號" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00484-1/d41586-026-00484-1_52070262.png", "_lite_content_html": "02-18  Chip-scale device efficiently boosts light signals (www.nature.com)" }, { "title": "人工智能成功诊断罕见病", "summary": "AI succeeds in diagnosing rare diseases", "content_text": "AI succeeds in diagnosing rare diseases\n原文地址: https://www.nature.com/articles/d41586-026-00290-9", "content_html": "
\"media.nature.com
AI succeeds in diagnosing rare diseases (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00290-9/", "url": "https://www.nature.com/articles/d41586-026-00290-9", "date_published": "2026-02-18T17:19:13.377Z", "date_modified": "2026-02-18T17:19:13.377Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI succeeds in diagnosing rare diseases" }, "zh-Hans": { "title": "人工智能成功诊断罕见病" }, "ja": { "title": "AIが希少疾患の診断に成功" }, "zh-Hant": { "title": "人工智能成功診斷罕見病" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00290-9/d41586-026-00290-9_52070372.jpg", "_lite_content_html": "02-18  AI succeeds in diagnosing rare diseases (www.nature.com)" }, { "title": "个性化mRNA疫苗在难治性乳腺癌中诱导出强效且持久的免疫力", "summary": "Personalized mRNA vaccine induces strong, durable immunity in hard-to-treat breast cancer", "content_text": "Personalized mRNA vaccine induces strong, durable immunity in hard-to-treat breast cancer\n原文地址: https://www.nature.com/articles/d41586-026-00477-0", "content_html": "
\"media.nature.com
Personalized mRNA vaccine induces strong, durable immunity in hard-to-treat breast cancer (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00477-0/", "url": "https://www.nature.com/articles/d41586-026-00477-0", "date_published": "2026-02-18T17:19:11.951Z", "date_modified": "2026-02-18T17:19:11.951Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Personalized mRNA vaccine induces strong, durable immunity in hard-to-treat breast cancer" }, "zh-Hans": { "title": "个性化mRNA疫苗在难治性乳腺癌中诱导出强效且持久的免疫力" }, "ja": { "title": "個別化mRNAワクチンは治療困難な乳癌において強力かつ持続的な免疫を誘導する" }, "zh-Hant": { "title": "個性化mRNA疫苗在難治性乳腺癌中誘導出強效且持久的免疫力" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00477-0/d41586-026-00477-0_52070254.png", "_lite_content_html": "02-18  Personalized mRNA vaccine induces strong, durable immunity in hard-to-treat breast cancer (www.nature.com)" }, { "title": "在X平台开启\"为您推荐\"信息流改变了政治观点,但关闭该功能并未产生影响。", "summary": "Turning on the ‘for you’ feed on X shifted political opinions, but turning it off did not", "content_text": "Turning on the ‘for you’ feed on X shifted political opinions, but turning it off did not\n原文地址: https://www.nature.com/articles/d41586-026-00486-z", "content_html": "
\"media.nature.com
Turning on the ‘for you’ feed on X shifted political opinions, but turning it off did not (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00486-z/", "url": "https://www.nature.com/articles/d41586-026-00486-z", "date_published": "2026-02-18T17:19:10.541Z", "date_modified": "2026-02-18T17:19:10.541Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Turning on the ‘for you’ feed on X shifted political opinions, but turning it off did not" }, "zh-Hans": { "title": "在X平台开启\"为您推荐\"信息流改变了政治观点,但关闭该功能并未产生影响。" }, "ja": { "title": "Xで「おすすめ」フィードをオンにすると政治的意見が変わったが、オフにしても変化はなかった" }, "zh-Hant": { "title": "在X平臺開啟\"為您推薦\"信息流改變了政治觀點,但關閉該功能並未產生影響。" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00486-z/d41586-026-00486-z_52070336.png", "_lite_content_html": "02-18  Turning on the ‘for you’ feed on X shifted political opinions, but turning it off did not (www.nature.com)" }, { "title": "人工智能为临床细胞样本的成像与评估提供新途径", "summary": "AI offers way to image and assess clinical cell samples", "content_text": "AI offers way to image and assess clinical cell samples\n原文地址: https://www.nature.com/articles/d41586-026-00288-3", "content_html": "
\"media.nature.com
AI offers way to image and assess clinical cell samples (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00288-3/", "url": "https://www.nature.com/articles/d41586-026-00288-3", "date_published": "2026-02-18T17:19:09.302Z", "date_modified": "2026-02-18T17:19:09.302Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI offers way to image and assess clinical cell samples" }, "zh-Hans": { "title": "人工智能为临床细胞样本的成像与评估提供新途径" }, "ja": { "title": "AIは臨床細胞サンプルの画像化と評価を実現する手法を提供する" }, "zh-Hant": { "title": "人工智能為臨床細胞樣本的成像與評估提供新途徑" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00288-3/d41586-026-00288-3_52070112.jpg", "_lite_content_html": "02-18  AI offers way to image and assess clinical cell samples (www.nature.com)" }, { "title": "微软团队打造\"革命性\"数据存储系统,可保存数千年", "summary": "Microsoft team creates ''revolutionary'' data storage system that lasts for millennia", "content_text": "Microsoft team creates ''revolutionary'' data storage system that lasts for millennia\n原文地址: https://www.nature.com/articles/d41586-026-00502-2", "content_html": "
\"media.nature.com
Microsoft team creates ''revolutionary'' data storage system that lasts for millennia (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00502-2/", "url": "https://www.nature.com/articles/d41586-026-00502-2", "date_published": "2026-02-18T17:19:08.081Z", "date_modified": "2026-02-18T17:19:08.081Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Microsoft team creates ''revolutionary'' data storage system that lasts for millennia" }, "zh-Hans": { "title": "微软团队打造\"革命性\"数据存储系统,可保存数千年" }, "ja": { "title": "マイクロソフトのチームが数千年持続する「画期的な」データ保存システムを開発" }, "zh-Hant": { "title": "微軟團隊打造\"革命性\"數據存儲系統,可保存數千年" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00502-2/d41586-026-00502-2_52070010.jpg", "_lite_content_html": "02-18  Microsoft team creates ''revolutionary'' data storage system that lasts for millennia (www.nature.com)" }, { "title": "颅骨窦道如何保护大脑免受损伤与病原体侵害", "summary": "How ‘skull drains’ keep the brain safe from damage and pathogens", "content_text": "How ‘skull drains’ keep the brain safe from damage and pathogens\n原文地址: https://www.nature.com/articles/d41586-026-00518-8", "content_html": "
\"media.nature.com
How ‘skull drains’ keep the brain safe from damage and pathogens (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00518-8/", "url": "https://www.nature.com/articles/d41586-026-00518-8", "date_published": "2026-02-18T17:19:06.691Z", "date_modified": "2026-02-18T17:19:06.691Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How ‘skull drains’ keep the brain safe from damage and pathogens" }, "zh-Hans": { "title": "颅骨窦道如何保护大脑免受损伤与病原体侵害" }, "ja": { "title": "「頭蓋骨の排水路」が脳を損傷や病原体から守る仕組み" }, "zh-Hant": { "title": "顱骨竇道如何保護大腦免受損傷與病原體侵害" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00518-8/d41586-026-00518-8_52074712.jpg", "_lite_content_html": "02-18  How ‘skull drains’ keep the brain safe from damage and pathogens (www.nature.com)" }, { "title": "整合应激反应通过脂钙蛋白2促进免疫逃逸", "summary": "The integrated stress response promotes immune evasion through lipocalin 2", "content_text": "The integrated stress response promotes immune evasion through lipocalin 2\n原文地址: https://www.nature.com/articles/s41586-026-10143-0", "content_html": "
\"media.springernature.com
The integrated stress response promotes immune evasion through lipocalin 2 (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10143-0/", "url": "https://www.nature.com/articles/s41586-026-10143-0", "date_published": "2026-02-18T17:19:05.015Z", "date_modified": "2026-02-18T17:19:05.015Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The integrated stress response promotes immune evasion through lipocalin 2" }, "zh-Hans": { "title": "整合应激反应通过脂钙蛋白2促进免疫逃逸" }, "ja": { "title": "統合ストレス応答はリポカリン2を介した免疫回避を促進する" }, "zh-Hant": { "title": "整合應激反應通過脂鈣蛋白2促進免疫逃逸" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10143-0/MediaObjects/41586_2026_10143_Fig1_HTML.png", "_lite_content_html": "02-18  The integrated stress response promotes immune evasion through lipocalin 2 (www.nature.com)" }, { "title": "冷注射合成高发光性钙钛矿纳米晶体", "summary": "Cold-injection synthesis of highly emissive perovskite nanocrystals", "content_text": "Cold-injection synthesis of highly emissive perovskite nanocrystals\n原文地址: https://www.nature.com/articles/s41586-026-10117-2", "content_html": "
\"media.springernature.com
Cold-injection synthesis of highly emissive perovskite nanocrystals (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10117-2/", "url": "https://www.nature.com/articles/s41586-026-10117-2", "date_published": "2026-02-18T17:19:02.775Z", "date_modified": "2026-02-18T17:19:02.775Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Cold-injection synthesis of highly emissive perovskite nanocrystals" }, "zh-Hans": { "title": "冷注射合成高发光性钙钛矿纳米晶体" }, "ja": { "title": "高放射率ペロブスカイトナノ結晶の低温注入合成" }, "zh-Hant": { "title": "冷注射合成高發光性鈣鈦礦納米晶體" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10117-2/MediaObjects/41586_2026_10117_Fig1_HTML.png", "_lite_content_html": "02-18  Cold-injection synthesis of highly emissive perovskite nanocrystals (www.nature.com)" }, { "title": "体莫尔金属中的高维费米学", "summary": "Higher-dimensional Fermiology in bulk moiré metals", "content_text": "Higher-dimensional Fermiology in bulk moiré metals\n原文地址: https://www.nature.com/articles/s41586-026-10173-8", "content_html": "
\"media.springernature.com
Higher-dimensional Fermiology in bulk moiré metals (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10173-8/", "url": "https://www.nature.com/articles/s41586-026-10173-8", "date_published": "2026-02-18T17:19:00.546Z", "date_modified": "2026-02-18T17:19:00.546Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Higher-dimensional Fermiology in bulk moiré metals" }, "zh-Hans": { "title": "体莫尔金属中的高维费米学" }, "ja": { "title": "バルク・モアレ金属における高次元フェルミ論" }, "zh-Hant": { "title": "體莫爾金屬中的高維費米學" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10173-8/MediaObjects/41586_2026_10173_Fig1_HTML.png", "_lite_content_html": "02-18  Higher-dimensional Fermiology in bulk moiré metals (www.nature.com)" }, { "title": "祖先和体细胞特征表明肢端黑色素瘤的起源及其预后", "summary": "Ancestry and somatic profile indicate acral melanoma origin and prognosis", "content_text": "Ancestry and somatic profile indicate acral melanoma origin and prognosis\n原文地址: https://www.nature.com/articles/s41586-025-09967-z", "content_html": "
\"media.springernature.com
Ancestry and somatic profile indicate acral melanoma origin and prognosis (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-09967-z/", "url": "https://www.nature.com/articles/s41586-025-09967-z", "date_published": "2026-02-18T17:18:59.555Z", "date_modified": "2026-02-18T17:18:59.555Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ancestry and somatic profile indicate acral melanoma origin and prognosis" }, "zh-Hans": { "title": "祖先和体细胞特征表明肢端黑色素瘤的起源及其预后" }, "ja": { "title": "祖先および体細胞プロファイルは末梢性黒色腫の起源と予後を示唆する" }, "zh-Hant": { "title": "祖先和體細胞特徵表明肢端黑色素瘤的起源及其預後" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-09967-z/MediaObjects/41586_2025_9967_Fig1_HTML.png", "_lite_content_html": "02-18  Ancestry and somatic profile indicate acral melanoma origin and prognosis (www.nature.com)" }, { "title": "黏膜疫苗接种可清除艰难梭菌定植", "summary": "Mucosal vaccination clears Clostridioides difficile colonization", "content_text": "Mucosal vaccination clears Clostridioides difficile colonization\n原文地址: https://www.nature.com/articles/s41586-026-10138-x", "content_html": "
\"media.springernature.com
Mucosal vaccination clears Clostridioides difficile colonization (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10138-x/", "url": "https://www.nature.com/articles/s41586-026-10138-x", "date_published": "2026-02-18T17:18:58.149Z", "date_modified": "2026-02-18T17:18:58.149Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Mucosal vaccination clears Clostridioides difficile colonization" }, "zh-Hans": { "title": "黏膜疫苗接种可清除艰难梭菌定植" }, "ja": { "title": "粘膜ワクチン接種はクロストリジオイデス・ディフィシル(C. difficile)の定着を除去する" }, "zh-Hant": { "title": "黏膜疫苗接種可清除艱難梭菌定植" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10138-x/MediaObjects/41586_2026_10138_Fig1_HTML.png", "_lite_content_html": "02-18  Mucosal vaccination clears Clostridioides difficile colonization (www.nature.com)" }, { "title": "具有可追溯推理功能的罕见病诊断智能系统", "summary": "An agentic system for rare disease diagnosis with traceable reasoning", "content_text": "An agentic system for rare disease diagnosis with traceable reasoning\n原文地址: https://www.nature.com/articles/s41586-025-10097-9", "content_html": "
\"media.springernature.com
An agentic system for rare disease diagnosis with traceable reasoning (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10097-9/", "url": "https://www.nature.com/articles/s41586-025-10097-9", "date_published": "2026-02-18T17:18:56.666Z", "date_modified": "2026-02-18T17:18:56.666Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "An agentic system for rare disease diagnosis with traceable reasoning" }, "zh-Hans": { "title": "具有可追溯推理功能的罕见病诊断智能系统" }, "ja": { "title": "希少疾患診断のための追跡可能な推論を備えた能動的システム" }, "zh-Hant": { "title": "具有可追溯推理功能的罕見病診斷智能系統" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10097-9/MediaObjects/41586_2025_10097_Fig1_HTML.png", "_lite_content_html": "02-18  An agentic system for rare disease diagnosis with traceable reasoning (www.nature.com)" }, { "title": "X平台信息流算法的政治效应", "summary": "The political effects of X’s feed algorithm", "content_text": "The political effects of X’s feed algorithm\n原文地址: https://www.nature.com/articles/s41586-026-10098-2", "content_html": "
\"media.springernature.com
The political effects of X’s feed algorithm (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10098-2/", "url": "https://www.nature.com/articles/s41586-026-10098-2", "date_published": "2026-02-18T17:18:55.542Z", "date_modified": "2026-02-18T17:18:55.542Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The political effects of X’s feed algorithm" }, "zh-Hans": { "title": "X平台信息流算法的政治效应" }, "ja": { "title": "Xのフィードアルゴリズムの政治的影響" }, "zh-Hant": { "title": "X平臺信息流算法的政治效應" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10098-2/MediaObjects/41586_2026_10098_Fig1_HTML.png", "_lite_content_html": "02-18  The political effects of X’s feed algorithm (www.nature.com)" }, { "title": "整合酶将病毒RNA锚定于HIV-1衣壳内部", "summary": "Integrase anchors viral RNA to the HIV-1 capsid interior", "content_text": "Integrase anchors viral RNA to the HIV-1 capsid interior\n原文地址: https://www.nature.com/articles/s41586-026-10154-x", "content_html": "
\"media.springernature.com
Integrase anchors viral RNA to the HIV-1 capsid interior (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10154-x/", "url": "https://www.nature.com/articles/s41586-026-10154-x", "date_published": "2026-02-18T17:18:53.746Z", "date_modified": "2026-02-18T17:18:53.746Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Integrase anchors viral RNA to the HIV-1 capsid interior" }, "zh-Hans": { "title": "整合酶将病毒RNA锚定于HIV-1衣壳内部" }, "ja": { "title": "インテグラーゼはウイルスRNAをHIV-1カプシド内部に固定する" }, "zh-Hant": { "title": "整合酶將病毒RNA錨定於HIV-1衣殼內部" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10154-x/MediaObjects/41586_2026_10154_Fig1_HTML.png", "_lite_content_html": "02-18  Integrase anchors viral RNA to the HIV-1 capsid interior (www.nature.com)" }, { "title": "古菌-真核生物共同祖先后代的氧代谢", "summary": "Oxygen metabolism in descendants of the archaeal-eukaryotic ancestor", "content_text": "Oxygen metabolism in descendants of the archaeal-eukaryotic ancestor\n原文地址: https://www.nature.com/articles/s41586-026-10128-z", "content_html": "
\"media.springernature.com
Oxygen metabolism in descendants of the archaeal-eukaryotic ancestor (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10128-z/", "url": "https://www.nature.com/articles/s41586-026-10128-z", "date_published": "2026-02-18T17:18:51.683Z", "date_modified": "2026-02-18T17:18:51.683Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Oxygen metabolism in descendants of the archaeal-eukaryotic ancestor" }, "zh-Hans": { "title": "古菌-真核生物共同祖先后代的氧代谢" }, "ja": { "title": "古細菌と真核生物の共通祖先の子孫における酸素代謝" }, "zh-Hant": { "title": "古菌-真核生物共同祖先後代的氧代謝" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10128-z/MediaObjects/41586_2026_10128_Fig1_HTML.png", "_lite_content_html": "02-18  Oxygen metabolism in descendants of the archaeal-eukaryotic ancestor (www.nature.com)" }, { "title": "阿古蒂整合环境线索以调节父代行为", "summary": "Agouti integrates environmental cues to regulate paternal behaviour", "content_text": "Agouti integrates environmental cues to regulate paternal behaviour\n原文地址: https://www.nature.com/articles/s41586-026-10123-4", "content_html": "
\"media.springernature.com
Agouti integrates environmental cues to regulate paternal behaviour (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10123-4/", "url": "https://www.nature.com/articles/s41586-026-10123-4", "date_published": "2026-02-18T17:18:50.028Z", "date_modified": "2026-02-18T17:18:50.028Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Agouti integrates environmental cues to regulate paternal behaviour" }, "zh-Hans": { "title": "阿古蒂整合环境线索以调节父代行为" }, "ja": { "title": "アグーチは環境刺激を統合して父性行動を調節する" }, "zh-Hant": { "title": "阿古蒂整合環境線索以調節父代行為" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10123-4/MediaObjects/41586_2026_10123_Fig1_HTML.png", "_lite_content_html": "02-18  Agouti integrates environmental cues to regulate paternal behaviour (www.nature.com)" }, { "title": "LTR逆转座子在远古时期被征用为酵母着丝粒", "summary": "Ancient co-option of LTR retrotransposons as yeast centromeres", "content_text": "Ancient co-option of LTR retrotransposons as yeast centromeres\n原文地址: https://www.nature.com/articles/s41586-025-10092-0", "content_html": "
\"media.springernature.com
Ancient co-option of LTR retrotransposons as yeast centromeres (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10092-0/", "url": "https://www.nature.com/articles/s41586-025-10092-0", "date_published": "2026-02-18T17:18:49.028Z", "date_modified": "2026-02-18T17:18:49.028Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ancient co-option of LTR retrotransposons as yeast centromeres" }, "zh-Hans": { "title": "LTR逆转座子在远古时期被征用为酵母着丝粒" }, "ja": { "title": "LTR逆転写トランスポゾンが酵母のセントロメアとして古代に採用されたこと" }, "zh-Hant": { "title": "LTR逆轉座子在遠古時期被徵用為酵母著絲粒" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10092-0/MediaObjects/41586_2025_10092_Fig1_HTML.png", "_lite_content_html": "02-18  Ancient co-option of LTR retrotransposons as yeast centromeres (www.nature.com)" }, { "title": "核苷酸信号协调细菌免疫的激活与抑制", "summary": "Nucleotide signals coordinate activation and inhibition of bacterial immunity", "content_text": "Nucleotide signals coordinate activation and inhibition of bacterial immunity\n原文地址: https://www.nature.com/articles/s41586-026-10135-0", "content_html": "
\"media.springernature.com
Nucleotide signals coordinate activation and inhibition of bacterial immunity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10135-0/", "url": "https://www.nature.com/articles/s41586-026-10135-0", "date_published": "2026-02-18T17:18:47.257Z", "date_modified": "2026-02-18T17:18:47.257Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Nucleotide signals coordinate activation and inhibition of bacterial immunity" }, "zh-Hans": { "title": "核苷酸信号协调细菌免疫的激活与抑制" }, "ja": { "title": "ヌクレオチドシグナルは細菌免疫の活性化と抑制を調整する" }, "zh-Hant": { "title": "核苷酸信號協調細菌免疫的激活與抑制" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10135-0/MediaObjects/41586_2026_10135_Fig1_HTML.png", "_lite_content_html": "02-18  Nucleotide signals coordinate activation and inhibition of bacterial immunity (www.nature.com)" }, { "title": "评估大型语言模型道德能力的路线图", "summary": "A roadmap for evaluating moral competence in large language models", "content_text": "A roadmap for evaluating moral competence in large language models\n原文地址: https://www.nature.com/articles/s41586-025-10021-1", "content_html": "
\"media.springernature.com
A roadmap for evaluating moral competence in large language models (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10021-1/", "url": "https://www.nature.com/articles/s41586-025-10021-1", "date_published": "2026-02-18T17:18:45.575Z", "date_modified": "2026-02-18T17:18:45.575Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A roadmap for evaluating moral competence in large language models" }, "zh-Hans": { "title": "评估大型语言模型道德能力的路线图" }, "ja": { "title": "大規模言語モデルにおける道徳的能力評価のためのロードマップ" }, "zh-Hant": { "title": "評估大型語言模型道德能力的路線圖" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10021-1/MediaObjects/41586_2025_10021_Fig1_HTML.png", "_lite_content_html": "02-18  A roadmap for evaluating moral competence in large language models (www.nature.com)" }, { "title": "基于全切片边缘断层成像的临床级自主细胞病理学", "summary": "Clinical-grade autonomous cytopathology through whole-slide edge tomography", "content_text": "Clinical-grade autonomous cytopathology through whole-slide edge tomography\n原文地址: https://www.nature.com/articles/s41586-025-10094-y", "content_html": "
\"media.springernature.com
Clinical-grade autonomous cytopathology through whole-slide edge tomography (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10094-y/", "url": "https://www.nature.com/articles/s41586-025-10094-y", "date_published": "2026-02-18T17:18:43.987Z", "date_modified": "2026-02-18T17:18:43.987Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Clinical-grade autonomous cytopathology through whole-slide edge tomography" }, "zh-Hans": { "title": "基于全切片边缘断层成像的临床级自主细胞病理学" }, "ja": { "title": "全スライドエッジトモグラフィーによる臨床グレード自律型細胞病理学" }, "zh-Hant": { "title": "基於全切片邊緣斷層成像的臨床級自主細胞病理學" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10094-y/MediaObjects/41586_2025_10094_Fig1_HTML.png", "_lite_content_html": "02-18  Clinical-grade autonomous cytopathology through whole-slide edge tomography (www.nature.com)" }, { "title": "集成光子学实现超宽带光纤-无线通信", "summary": "Integrated photonics enabling ultra-wideband fibre–wireless communication", "content_text": "Integrated photonics enabling ultra-wideband fibre–wireless communication\n原文地址: https://www.nature.com/articles/s41586-026-10172-9", "content_html": "
\"media.springernature.com
Integrated photonics enabling ultra-wideband fibre–wireless communication (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10172-9/", "url": "https://www.nature.com/articles/s41586-026-10172-9", "date_published": "2026-02-18T17:18:42.249Z", "date_modified": "2026-02-18T17:18:42.249Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Integrated photonics enabling ultra-wideband fibre–wireless communication" }, "zh-Hans": { "title": "集成光子学实现超宽带光纤-无线通信" }, "ja": { "title": "統合フォトニクスによる超広帯域光ファイバー・無線通信の実現" }, "zh-Hant": { "title": "集成光子學實現超寬帶光纖-無線通信" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10172-9/MediaObjects/41586_2026_10172_Fig1_HTML.png", "_lite_content_html": "02-18  Integrated photonics enabling ultra-wideband fibre–wireless communication (www.nature.com)" }, { "title": "激光玻璃书写技术实现高密度、高速率与高效能的档案数据存储", "summary": "Laser writing in glass for dense, fast and efficient archival data storage", "content_text": "Laser writing in glass for dense, fast and efficient archival data storage\n原文地址: https://www.nature.com/articles/s41586-025-10042-w", "content_html": "
\"media.springernature.com
Laser writing in glass for dense, fast and efficient archival data storage (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10042-w/", "url": "https://www.nature.com/articles/s41586-025-10042-w", "date_published": "2026-02-18T17:18:41.271Z", "date_modified": "2026-02-18T17:18:41.271Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Laser writing in glass for dense, fast and efficient archival data storage" }, "zh-Hans": { "title": "激光玻璃书写技术实现高密度、高速率与高效能的档案数据存储" }, "ja": { "title": "ガラスへのレーザー書き込みによる高密度・高速・効率的なアーカイブデータ保存" }, "zh-Hant": { "title": "激光玻璃書寫技術實現高密度、高速率與高效能的檔案數據存儲" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10042-w/MediaObjects/41586_2025_10042_Fig1_HTML.png", "_lite_content_html": "02-18  Laser writing in glass for dense, fast and efficient archival data storage (www.nature.com)" }, { "title": "高度动态的硬脑膜窦支持脑膜免疫", "summary": "Highly dynamic dural sinuses support meningeal immunity", "content_text": "Highly dynamic dural sinuses support meningeal immunity\n原文地址: https://www.nature.com/articles/s41586-026-10165-8", "content_html": "
\"media.springernature.com
Highly dynamic dural sinuses support meningeal immunity (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10165-8/", "url": "https://www.nature.com/articles/s41586-026-10165-8", "date_published": "2026-02-18T17:18:39.289Z", "date_modified": "2026-02-18T17:18:39.289Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Highly dynamic dural sinuses support meningeal immunity" }, "zh-Hans": { "title": "高度动态的硬脑膜窦支持脑膜免疫" }, "ja": { "title": "高度に動的な硬膜洞は髄膜免疫を支える" }, "zh-Hant": { "title": "高度動態的硬腦膜竇支持腦膜免疫" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10165-8/MediaObjects/41586_2026_10165_Fig1_HTML.png", "_lite_content_html": "02-18  Highly dynamic dural sinuses support meningeal immunity (www.nature.com)" }, { "title": "RYK是一种GPNMB受体,可驱动MASH", "summary": "RYK is a GPNMB receptor that drives MASH", "content_text": "RYK is a GPNMB receptor that drives MASH\n原文地址: https://www.nature.com/articles/s41586-026-10160-z", "content_html": "
\"media.springernature.com
RYK is a GPNMB receptor that drives MASH (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10160-z/", "url": "https://www.nature.com/articles/s41586-026-10160-z", "date_published": "2026-02-18T17:18:37.389Z", "date_modified": "2026-02-18T17:18:37.389Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "RYK is a GPNMB receptor that drives MASH" }, "zh-Hans": { "title": "RYK是一种GPNMB受体,可驱动MASH" }, "ja": { "title": "RYKはMASHを駆動するGPNMB受容体である" }, "zh-Hant": { "title": "RYK是一種GPNMB受體,可驅動MASH" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10160-z/MediaObjects/41586_2026_10160_Fig1_HTML.png", "_lite_content_html": "02-18  RYK is a GPNMB receptor that drives MASH (www.nature.com)" }, { "title": "对Chd3基因进行体内碱基编辑可挽救小鼠的行为异常", "summary": "In vivo base editing of Chd3 rescues behavioural abnormalities in mice", "content_text": "In vivo base editing of Chd3 rescues behavioural abnormalities in mice\n原文地址: https://www.nature.com/articles/s41586-026-10113-6", "content_html": "
\"media.springernature.com
In vivo base editing of Chd3 rescues behavioural abnormalities in mice (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10113-6/", "url": "https://www.nature.com/articles/s41586-026-10113-6", "date_published": "2026-02-18T17:18:35.445Z", "date_modified": "2026-02-18T17:18:35.445Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "In vivo base editing of Chd3 rescues behavioural abnormalities in mice" }, "zh-Hans": { "title": "对Chd3基因进行体内碱基编辑可挽救小鼠的行为异常" }, "ja": { "title": "Chd3の生体内ベース編集はマウスの行動異常を回復させる" }, "zh-Hant": { "title": "對Chd3基因進行體內鹼基編輯可挽救小鼠的行為異常" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10113-6/MediaObjects/41586_2026_10113_Fig1_HTML.png", "_lite_content_html": "02-18  In vivo base editing of Chd3 rescues behavioural abnormalities in mice (www.nature.com)" }, { "title": "微管与LIS1在动力蛋白运输装置组装中的作用", "summary": "Roles of microtubules and LIS1 in dynein transport machinery assembly", "content_text": "Roles of microtubules and LIS1 in dynein transport machinery assembly\n原文地址: https://www.nature.com/articles/s41586-026-10153-y", "content_html": "
\"media.springernature.com
Roles of microtubules and LIS1 in dynein transport machinery assembly (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10153-y/", "url": "https://www.nature.com/articles/s41586-026-10153-y", "date_published": "2026-02-18T17:18:33.838Z", "date_modified": "2026-02-18T17:18:33.838Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Roles of microtubules and LIS1 in dynein transport machinery assembly" }, "zh-Hans": { "title": "微管与LIS1在动力蛋白运输装置组装中的作用" }, "ja": { "title": "微小管とLIS1がダイニン輸送機構の組み立てに果たす役割" }, "zh-Hant": { "title": "微管與LIS1在動力蛋白運輸裝置組裝中的作用" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10153-y/MediaObjects/41586_2026_10153_Fig1_HTML.png", "_lite_content_html": "02-18  Roles of microtubules and LIS1 in dynein transport machinery assembly (www.nature.com)" }, { "title": "小鼠大脑单细胞及转录本特异性翻译组学分析", "summary": "Single-cell and isoform-specific translational profiling of the mouse brain", "content_text": "Single-cell and isoform-specific translational profiling of the mouse brain\n原文地址: https://www.nature.com/articles/s41586-026-10118-1", "content_html": "
\"media.springernature.com
Single-cell and isoform-specific translational profiling of the mouse brain (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10118-1/", "url": "https://www.nature.com/articles/s41586-026-10118-1", "date_published": "2026-02-18T17:18:32.070Z", "date_modified": "2026-02-18T17:18:32.070Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Single-cell and isoform-specific translational profiling of the mouse brain" }, "zh-Hans": { "title": "小鼠大脑单细胞及转录本特异性翻译组学分析" }, "ja": { "title": "マウス脳における単一細胞およびアイソフォーム特異的翻訳プロファイリング" }, "zh-Hant": { "title": "小鼠大腦單細胞及轉錄本特異性翻譯組學分析" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10118-1/MediaObjects/41586_2026_10118_Fig1_HTML.png", "_lite_content_html": "02-18  Single-cell and isoform-specific translational profiling of the mouse brain (www.nature.com)" }, { "title": "红细胞中细胞周期蛋白D3表达降低可预防疟疾", "summary": "Reduced cyclin D3 expression in erythroid cells protects against malaria", "content_text": "Reduced cyclin D3 expression in erythroid cells protects against malaria\n原文地址: https://www.nature.com/articles/s41586-026-10110-9", "content_html": "
\"media.springernature.com
Reduced cyclin D3 expression in erythroid cells protects against malaria (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10110-9/", "url": "https://www.nature.com/articles/s41586-026-10110-9", "date_published": "2026-02-18T17:18:30.337Z", "date_modified": "2026-02-18T17:18:30.337Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Reduced cyclin D3 expression in erythroid cells protects against malaria" }, "zh-Hans": { "title": "红细胞中细胞周期蛋白D3表达降低可预防疟疾" }, "ja": { "title": "赤芽球細胞におけるサイクリンD3発現の低下がマラリアから保護する" }, "zh-Hant": { "title": "紅細胞中細胞週期蛋白D3表達降低可預防瘧疾" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10110-9/MediaObjects/41586_2026_10110_Fig1_HTML.png", "_lite_content_html": "02-18  Reduced cyclin D3 expression in erythroid cells protects against malaria (www.nature.com)" }, { "title": "个性化mRNA疫苗在佐剂三阴性乳腺癌中诱导持久的T细胞免疫", "summary": "Individualized mRNA vaccines evoke durable T cell immunity in adjuvant TNBC", "content_text": "Individualized mRNA vaccines evoke durable T cell immunity in adjuvant TNBC\n原文地址: https://www.nature.com/articles/s41586-025-10004-2", "content_html": "
\"media.springernature.com
Individualized mRNA vaccines evoke durable T cell immunity in adjuvant TNBC (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10004-2/", "url": "https://www.nature.com/articles/s41586-025-10004-2", "date_published": "2026-02-18T17:18:28.803Z", "date_modified": "2026-02-18T17:18:28.803Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Individualized mRNA vaccines evoke durable T cell immunity in adjuvant TNBC" }, "zh-Hans": { "title": "个性化mRNA疫苗在佐剂三阴性乳腺癌中诱导持久的T细胞免疫" }, "ja": { "title": "個別化mRNAワクチンは、アジュバントを併用したトリプルネガティブ乳癌において持続的なT細胞免疫を誘導する" }, "zh-Hant": { "title": "個性化mRNA疫苗在佐劑三陰性乳腺癌中誘導持久的T細胞免疫" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10004-2/MediaObjects/41586_2025_10004_Fig1_HTML.png", "_lite_content_html": "02-18  Individualized mRNA vaccines evoke durable T cell immunity in adjuvant TNBC (www.nature.com)" }, { "title": "基于n型导电聚合物的实用锂-有机电池", "summary": "Practical lithium–organic batteries enabled by an n-type conducting polymer", "content_text": "Practical lithium–organic batteries enabled by an n-type conducting polymer\n原文地址: https://www.nature.com/articles/s41586-026-10174-7", "content_html": "
\"media.springernature.com
Practical lithium–organic batteries enabled by an n-type conducting polymer (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10174-7/", "url": "https://www.nature.com/articles/s41586-026-10174-7", "date_published": "2026-02-18T17:18:27.357Z", "date_modified": "2026-02-18T17:18:27.357Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Practical lithium–organic batteries enabled by an n-type conducting polymer" }, "zh-Hans": { "title": "基于n型导电聚合物的实用锂-有机电池" }, "ja": { "title": "n型導電性ポリマーによって実現された実用的なリチウム有機電池" }, "zh-Hant": { "title": "基於n型導電聚合物的實用鋰-有機電池" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10174-7/MediaObjects/41586_2026_10174_Fig1_HTML.png", "_lite_content_html": "02-18  Practical lithium–organic batteries enabled by an n-type conducting polymer (www.nature.com)" }, { "title": "利用STARLING准确预测无序蛋白质集合", "summary": "Accurate predictions of disordered protein ensembles with STARLING", "content_text": "Accurate predictions of disordered protein ensembles with STARLING\n原文地址: https://www.nature.com/articles/s41586-026-10141-2", "content_html": "
\"media.springernature.com
Accurate predictions of disordered protein ensembles with STARLING (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10141-2/", "url": "https://www.nature.com/articles/s41586-026-10141-2", "date_published": "2026-02-18T17:18:25.675Z", "date_modified": "2026-02-18T17:18:25.675Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Accurate predictions of disordered protein ensembles with STARLING" }, "zh-Hans": { "title": "利用STARLING准确预测无序蛋白质集合" }, "ja": { "title": "STARLINGによる無秩序なタンパク質集合体の正確な予測" }, "zh-Hant": { "title": "利用STARLING準確預測無序蛋白質集合" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10141-2/MediaObjects/41586_2026_10141_Fig1_HTML.png", "_lite_content_html": "02-18  Accurate predictions of disordered protein ensembles with STARLING (www.nature.com)" }, { "title": "牡蛎礁的天然结构最大限度地提高了幼体存活率", "summary": "The natural architecture of oyster reefs maximizes recruit survival", "content_text": "The natural architecture of oyster reefs maximizes recruit survival\n原文地址: https://www.nature.com/articles/s41586-026-10103-8", "content_html": "
\"media.springernature.com
The natural architecture of oyster reefs maximizes recruit survival (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10103-8/", "url": "https://www.nature.com/articles/s41586-026-10103-8", "date_published": "2026-02-18T17:18:23.715Z", "date_modified": "2026-02-18T17:18:23.715Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The natural architecture of oyster reefs maximizes recruit survival" }, "zh-Hans": { "title": "牡蛎礁的天然结构最大限度地提高了幼体存活率" }, "ja": { "title": "牡蠣礁の自然な構造は、幼生の生存率を最大化する" }, "zh-Hant": { "title": "牡蠣礁的天然結構最大限度地提高了幼體存活率" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10103-8/MediaObjects/41586_2026_10103_Fig1_HTML.png", "_lite_content_html": "02-18  The natural architecture of oyster reefs maximizes recruit survival (www.nature.com)" }, { "title": "大气二氧化碳浓度上升导致北方森林氮元素可用性降低", "summary": "Rising atmospheric CO2 reduces nitrogen availability in boreal forests", "content_text": "Rising atmospheric CO2 reduces nitrogen availability in boreal forests\n原文地址: https://www.nature.com/articles/s41586-025-10039-5", "content_html": "
\"media.springernature.com
Rising atmospheric CO2 reduces nitrogen availability in boreal forests (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-025-10039-5/", "url": "https://www.nature.com/articles/s41586-025-10039-5", "date_published": "2026-02-18T17:18:21.561Z", "date_modified": "2026-02-18T17:18:21.561Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Rising atmospheric CO2 reduces nitrogen availability in boreal forests" }, "zh-Hans": { "title": "大气二氧化碳浓度上升导致北方森林氮元素可用性降低" }, "ja": { "title": "大気中の二酸化炭素濃度の増加は、北方林における窒素の利用可能性を低下させる" }, "zh-Hant": { "title": "大氣二氧化碳濃度上升導致北方森林氮元素可用性降低" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-10039-5/MediaObjects/41586_2025_10039_Fig1_HTML.png", "_lite_content_html": "02-18  Rising atmospheric CO2 reduces nitrogen availability in boreal forests (www.nature.com)" }, { "title": "巨型能量存储与全聚合物纳米复合材料的介电性能", "summary": "Giant energy storage and dielectric performance in all-polymer nanocomposites", "content_text": "Giant energy storage and dielectric performance in all-polymer nanocomposites\n原文地址: https://www.nature.com/articles/s41586-026-10195-2", "content_html": "
\"media.springernature.com
Giant energy storage and dielectric performance in all-polymer nanocomposites (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10195-2/", "url": "https://www.nature.com/articles/s41586-026-10195-2", "date_published": "2026-02-18T17:18:19.722Z", "date_modified": "2026-02-18T17:18:19.722Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Giant energy storage and dielectric performance in all-polymer nanocomposites" }, "zh-Hans": { "title": "巨型能量存储与全聚合物纳米复合材料的介电性能" }, "ja": { "title": "全ポリマーナノコンポジットにおける巨大エネルギー貯蔵と誘電性能" }, "zh-Hant": { "title": "巨型能量存儲與全聚合物納米複合材料的介電性能" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10195-2/MediaObjects/41586_2026_10195_Fig1_HTML.png", "_lite_content_html": "02-18  Giant energy storage and dielectric performance in all-polymer nanocomposites (www.nature.com)" }, { "title": "这块玻璃能保存两百万本书长达一万年", "summary": "This chunk of glass could store two million books for 10,000 years", "content_text": "This chunk of glass could store two million books for 10,000 years\n原文地址: https://www.nature.com/articles/d41586-026-00534-8", "content_html": "
\"media.nature.com
This chunk of glass could store two million books for 10,000 years (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00534-8/", "url": "https://www.nature.com/articles/d41586-026-00534-8", "date_published": "2026-02-18T17:18:18.457Z", "date_modified": "2026-02-18T17:18:18.457Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "This chunk of glass could store two million books for 10,000 years" }, "zh-Hans": { "title": "这块玻璃能保存两百万本书长达一万年" }, "ja": { "title": "このガラス片は200万冊の本を1万年間保存できる" }, "zh-Hant": { "title": "這塊玻璃能保存兩百萬本書長達一萬年" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00534-8/d41586-026-00534-8_52074494.jpg", "_lite_content_html": "02-18  This chunk of glass could store two million books for 10,000 years (www.nature.com)" }, { "title": "硼酸酯的立体特异性烷基-烷基交叉偶联反应", "summary": "Stereospecific alkyl–alkyl cross-coupling of boronic esters", "content_text": "Stereospecific alkyl–alkyl cross-coupling of boronic esters\n原文地址: https://www.nature.com/articles/s41586-026-10261-9", "content_html": "
Stereospecific alkyl–alkyl cross-coupling of boronic esters (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10261-9/", "url": "https://www.nature.com/articles/s41586-026-10261-9", "date_published": "2026-02-18T17:18:17.430Z", "date_modified": "2026-02-18T17:18:17.430Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Stereospecific alkyl–alkyl cross-coupling of boronic esters" }, "zh-Hans": { "title": "硼酸酯的立体特异性烷基-烷基交叉偶联反应" }, "ja": { "title": "ボロン酸エステルの立体特異的アルキル-アルキル交差カップリング" }, "zh-Hant": { "title": "硼酸酯的立體特異性烷基-烷基交叉偶聯反應" } }, "_lite_content_html": "02-18  Stereospecific alkyl–alkyl cross-coupling of boronic esters (www.nature.com)" }, { "title": "南极冰盖下钻取到有史以来最深的岩芯", "summary": "Deepest-ever rock core extracted from under Antarctic ice sheet", "content_text": "Deepest-ever rock core extracted from under Antarctic ice sheet\n原文地址: https://www.nature.com/articles/d41586-026-00520-0", "content_html": "
\"media.nature.com
Deepest-ever rock core extracted from under Antarctic ice sheet (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00520-0/", "url": "https://www.nature.com/articles/d41586-026-00520-0", "date_published": "2026-02-18T14:06:17.412Z", "date_modified": "2026-02-18T14:06:17.412Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Deepest-ever rock core extracted from under Antarctic ice sheet" }, "zh-Hans": { "title": "南极冰盖下钻取到有史以来最深的岩芯" }, "ja": { "title": "南極氷床下から採取された史上最深の岩石コア" }, "zh-Hant": { "title": "南極冰蓋下鑽取到有史以來最深的巖芯" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00520-0/d41586-026-00520-0_52074504.gif", "_lite_content_html": "02-18  Deepest-ever rock core extracted from under Antarctic ice sheet (www.nature.com)" }, { "title": "中期更新", "summary": "Mid-cycle update", "content_text": "Mid-cycle update\n原文地址: https://www.nature.com/articles/d41586-026-00134-6", "content_html": "
\"media.nature.com
Mid-cycle update (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00134-6/", "url": "https://www.nature.com/articles/d41586-026-00134-6", "date_published": "2026-02-18T14:06:16.591Z", "date_modified": "2026-02-18T14:06:16.591Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Mid-cycle update" }, "zh-Hans": { "title": "中期更新" }, "ja": { "title": "中間サイクル更新" }, "zh-Hant": { "title": "中期更新" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00134-6/d41586-026-00134-6_51934180.jpg", "_lite_content_html": "02-18  Mid-cycle update (www.nature.com)" }, { "title": "作者更正:BCL6使Ph急性淋巴细胞白血病细胞能够在BCR-ABL1激酶抑制下存活", "summary": "Author Correction: BCL6 enables Ph acute lymphoblastic leukaemia cells to survive BCR–ABL1 kinase inhibition", "content_text": "Author Correction: BCL6 enables Ph acute lymphoblastic leukaemia cells to survive BCR–ABL1 kinase inhibition\n原文地址: https://www.nature.com/articles/s41586-026-10253-9", "content_html": "
\"media.springernature.com
Author Correction: BCL6 enables Ph acute lymphoblastic leukaemia cells to survive BCR–ABL1 kinase inhibition (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-s41586-026-10253-9/", "url": "https://www.nature.com/articles/s41586-026-10253-9", "date_published": "2026-02-18T14:06:15.775Z", "date_modified": "2026-02-18T14:06:15.775Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: BCL6 enables Ph acute lymphoblastic leukaemia cells to survive BCR–ABL1 kinase inhibition" }, "zh-Hans": { "title": "作者更正:BCL6使Ph急性淋巴细胞白血病细胞能够在BCR-ABL1激酶抑制下存活" }, "ja": { "title": "著者訂正:BCL6はPh陽性急性リンパ芽球性白血病細胞がBCR-ABL1キナーゼ阻害に耐えることを可能にする" }, "zh-Hant": { "title": "作者更正:BCL6使Ph急性淋巴細胞白血病細胞能夠在BCR-ABL1激酶抑制下存活" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10253-9/MediaObjects/41586_2026_10253_Fig1_HTML.png", "_lite_content_html": "02-18  Author Correction: BCL6 enables Ph acute lymphoblastic leukaemia cells to survive BCR–ABL1 kinase inhibition (www.nature.com)" }, { "title": "自动驾驶的\"机器人实验室\"会取代生物学家吗?论文引发热议", "summary": "Will self-driving ''robot labs'' replace biologists? Paper sparks debate", "content_text": "Will self-driving ''robot labs'' replace biologists? Paper sparks debate\n原文地址: https://www.nature.com/articles/d41586-026-00453-8", "content_html": "
\"media.nature.com
Will self-driving ''robot labs'' replace biologists? Paper sparks debate (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00453-8/", "url": "https://www.nature.com/articles/d41586-026-00453-8", "date_published": "2026-02-18T13:02:26.502Z", "date_modified": "2026-02-18T13:02:26.502Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Will self-driving ''robot labs'' replace biologists? Paper sparks debate" }, "zh-Hans": { "title": "自动驾驶的\"机器人实验室\"会取代生物学家吗?论文引发热议" }, "ja": { "title": "自律走行型「ロボット実験室」は生物学者を置き換えるのか?論文が議論を呼ぶ" }, "zh-Hant": { "title": "自動駕駛的\"機器人實驗室\"會取代生物學家嗎?論文引發熱議" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00453-8/d41586-026-00453-8_52063112.jpg", "_lite_content_html": "02-18  Will self-driving ''robot labs'' replace biologists? Paper sparks debate (www.nature.com)" }, { "title": "每日简报:科学领域网红如何应对网络虚假信息", "summary": "Daily briefing: The science influencers tackling misinformation online", "content_text": "Daily briefing: The science influencers tackling misinformation online\n原文地址: https://www.nature.com/articles/d41586-026-00528-6", "content_html": "
\"media.nature.com
Daily briefing: The science influencers tackling misinformation online (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00528-6/", "url": "https://www.nature.com/articles/d41586-026-00528-6", "date_published": "2026-02-18T13:02:25.630Z", "date_modified": "2026-02-18T13:02:25.630Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: The science influencers tackling misinformation online" }, "zh-Hans": { "title": "每日简报:科学领域网红如何应对网络虚假信息" }, "ja": { "title": "デイリーブリーフィング:オンライン上の誤情報と戦う科学系インフルエンサーたち" }, "zh-Hant": { "title": "每日簡報:科學領域網紅如何應對網絡虛假信息" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00528-6/d41586-026-00528-6_52070294.png", "_lite_content_html": "02-17  Daily briefing: The science influencers tackling misinformation online (www.nature.com)" }, { "title": "为何中欧应携手推动全球碳脱碳化进程", "summary": "Why China and Europe should collaborate to ‘defossilize’ the world’s carbon", "content_text": "Why China and Europe should collaborate to ‘defossilize’ the world’s carbon\n原文地址: https://www.nature.com/articles/d41586-026-00383-5", "content_html": "
\"media.nature.com
Why China and Europe should collaborate to ‘defossilize’ the world’s carbon (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00383-5/", "url": "https://www.nature.com/articles/d41586-026-00383-5", "date_published": "2026-02-18T12:15:34.127Z", "date_modified": "2026-02-18T12:15:34.127Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why China and Europe should collaborate to ‘defossilize’ the world’s carbon" }, "zh-Hans": { "title": "为何中欧应携手推动全球碳脱碳化进程" }, "ja": { "title": "なぜ中国と欧州が協力して世界の炭素を「脱化石燃料化」すべきか" }, "zh-Hant": { "title": "為何中歐應攜手推動全球碳脫碳化進程" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00383-5/d41586-026-00383-5_52070106.jpg", "_lite_content_html": "02-18  Why China and Europe should collaborate to ‘defossilize’ the world’s carbon (www.nature.com)" }, { "title": "自闭症患者如何衰老——这对他们的健康意味着什么?", "summary": "How do autistic people age — and what does it mean for their health?", "content_text": "How do autistic people age — and what does it mean for their health?\n原文地址: https://www.nature.com/articles/d41586-026-00471-6", "content_html": "
\"media.nature.com
How do autistic people age — and what does it mean for their health? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_18__www-nature-com--articles-d41586-026-00471-6/", "url": "https://www.nature.com/articles/d41586-026-00471-6", "date_published": "2026-02-18T11:12:02.040Z", "date_modified": "2026-02-18T11:12:02.040Z", "_original_published": "2026-02-18T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How do autistic people age — and what does it mean for their health?" }, "zh-Hans": { "title": "自闭症患者如何衰老——这对他们的健康意味着什么?" }, "ja": { "title": "自閉症の人々はどのように加齢するのか——そしてそれは彼らの健康にとって何を意味するのか?" }, "zh-Hant": { "title": "自閉症患者如何衰老——這對他們的健康意味著什麼?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00471-6/d41586-026-00471-6_52056142.jpg", "_lite_content_html": "02-18  How do autistic people age — and what does it mean for their health? (www.nature.com)" }, { "title": "没有渔民的长江——但仍有鱼", "summary": "A Yangtze without fishers — but not without fish", "content_text": "A Yangtze without fishers — but not without fish\n原文地址: https://www.nature.com/articles/d41586-026-00458-3", "content_html": "
\"media.nature.com
A Yangtze without fishers — but not without fish (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00458-3/", "url": "https://www.nature.com/articles/d41586-026-00458-3", "date_published": "2026-02-17T18:59:19.605Z", "date_modified": "2026-02-17T18:59:19.605Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "A Yangtze without fishers — but not without fish" }, "zh-Hans": { "title": "没有渔民的长江——但仍有鱼" }, "ja": { "title": "漁師のいない長江――魚のいない長江ではない" }, "zh-Hant": { "title": "沒有漁民的長江——但仍有魚" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00458-3/d41586-026-00458-3_52063376.jpg", "_lite_content_html": "02-12  A Yangtze without fishers — but not without fish (www.nature.com)" }, { "title": "纳米科学成为最新投身大规模复制研究的学科领域", "summary": "Nanoscience is latest discipline to embrace large-scale replication efforts", "content_text": "Nanoscience is latest discipline to embrace large-scale replication efforts\n原文地址: https://www.nature.com/articles/d41586-026-00439-6", "content_html": "
\"media.nature.com
Nanoscience is latest discipline to embrace large-scale replication efforts (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00439-6/", "url": "https://www.nature.com/articles/d41586-026-00439-6", "date_published": "2026-02-17T16:51:21.882Z", "date_modified": "2026-02-17T16:51:21.882Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Nanoscience is latest discipline to embrace large-scale replication efforts" }, "zh-Hans": { "title": "纳米科学成为最新投身大规模复制研究的学科领域" }, "ja": { "title": "ナノサイエンスは、大規模な複製努力を取り入れる最新の学問分野である" }, "zh-Hant": { "title": "納米科學成為最新投身大規模複製研究的學科領域" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00439-6/d41586-026-00439-6_52050802.jpg", "_lite_content_html": "02-17  Nanoscience is latest discipline to embrace large-scale replication efforts (www.nature.com)" }, { "title": "不要降低对好奇心驱动的研究的重视程度", "summary": "Don’t deprioritize curiosity-driven research", "content_text": "Don’t deprioritize curiosity-driven research\n原文地址: https://www.nature.com/articles/d41586-026-00469-0", "content_html": "
\"media.nature.com
Don’t deprioritize curiosity-driven research (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00469-0/", "url": "https://www.nature.com/articles/d41586-026-00469-0", "date_published": "2026-02-17T16:03:34.540Z", "date_modified": "2026-02-17T16:03:34.540Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Don’t deprioritize curiosity-driven research" }, "zh-Hans": { "title": "不要降低对好奇心驱动的研究的重视程度" }, "ja": { "title": "好奇心に基づく研究を軽視しないでください" }, "zh-Hant": { "title": "不要降低對好奇心驅動的研究的重視程度" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00469-0/d41586-026-00469-0_52070120.jpg", "_lite_content_html": "02-17  Don’t deprioritize curiosity-driven research (www.nature.com)" }, { "title": "学生的两难选择:选理科还是体育课?", "summary": "Student dilemma: physical science or physical education?", "content_text": "Student dilemma: physical science or physical education?\n原文地址: https://www.nature.com/articles/d41586-026-00297-2", "content_html": "
\"media.nature.com
Student dilemma: physical science or physical education? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00297-2/", "url": "https://www.nature.com/articles/d41586-026-00297-2", "date_published": "2026-02-17T14:51:08.849Z", "date_modified": "2026-02-17T14:51:08.849Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Student dilemma: physical science or physical education?" }, "zh-Hans": { "title": "学生的两难选择:选理科还是体育课?" }, "ja": { "title": "学生のジレンマ:物理科学か体育か?" }, "zh-Hant": { "title": "學生的兩難選擇:選理科還是體育課?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00297-2/d41586-026-00297-2_15948434.jpg", "_lite_content_html": "02-17  Student dilemma: physical science or physical education? (www.nature.com)" }, { "title": "精神疾病诊断手册的更新将失之偏颇——是时候摒弃《精神疾病诊断与统计手册》了吗?", "summary": "Updates to the ‘bible’ for mental-health conditions will miss the mark — is it time to ditch the DSM?", "content_text": "Updates to the ‘bible’ for mental-health conditions will miss the mark — is it time to ditch the DSM?\n原文地址: https://www.nature.com/articles/d41586-026-00470-7", "content_html": "
\"media.nature.com
Updates to the ‘bible’ for mental-health conditions will miss the mark — is it time to ditch the DSM? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00470-7/", "url": "https://www.nature.com/articles/d41586-026-00470-7", "date_published": "2026-02-17T12:51:21.851Z", "date_modified": "2026-02-17T12:51:21.851Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Updates to the ‘bible’ for mental-health conditions will miss the mark — is it time to ditch the DSM?" }, "zh-Hans": { "title": "精神疾病诊断手册的更新将失之偏颇——是时候摒弃《精神疾病诊断与统计手册》了吗?" }, "ja": { "title": "精神疾患の「聖書」とも呼ばれる診断基準の改訂は的を外す——DSMを見直す時か?" }, "zh-Hant": { "title": "精神疾病診斷手冊的更新將失之偏頗——是時候摒棄《精神疾病診斷與統計手冊》了嗎?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00470-7/d41586-026-00470-7_52051230.jpg", "_lite_content_html": "02-17  Updates to the ‘bible’ for mental-health conditions will miss the mark — is it time to ditch the DSM? (www.nature.com)" }, { "title": "出版商更正:致幻剂通过5-HT2A受体介导的Gi信号传导发挥其作用", "summary": "Publisher Correction: Psychedelics elicit their effects by 5-HT2A receptor-mediated Gi signalling", "content_text": "Publisher Correction: Psychedelics elicit their effects by 5-HT2A receptor-mediated Gi signalling\n原文地址: https://www.nature.com/articles/s41586-026-10249-5", "content_html": "
Publisher Correction: Psychedelics elicit their effects by 5-HT2A receptor-mediated Gi signalling (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-s41586-026-10249-5/", "url": "https://www.nature.com/articles/s41586-026-10249-5", "date_published": "2026-02-17T12:51:20.862Z", "date_modified": "2026-02-17T12:51:20.862Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Publisher Correction: Psychedelics elicit their effects by 5-HT2A receptor-mediated Gi signalling" }, "zh-Hans": { "title": "出版商更正:致幻剂通过5-HT2A受体介导的Gi信号传导发挥其作用" }, "ja": { "title": "出版社による訂正:サイケデリック薬物は5-HT2A受容体を介したGiシグナル伝達によってその効果を発揮する" }, "zh-Hant": { "title": "出版商更正:致幻劑通過5-HT2A受體介導的Gi信號傳導發揮其作用" } }, "_lite_content_html": "02-17  Publisher Correction: Psychedelics elicit their effects by 5-HT2A receptor-mediated Gi signalling (www.nature.com)" }, { "title": "在TikTok上走红的科学博主们正致力于打击虚假信息", "summary": "The science influencers going viral on TikTok to fight misinformation", "content_text": "The science influencers going viral on TikTok to fight misinformation\n原文地址: https://www.nature.com/articles/d41586-026-00472-5", "content_html": "
\"media.nature.com
The science influencers going viral on TikTok to fight misinformation (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00472-5/", "url": "https://www.nature.com/articles/d41586-026-00472-5", "date_published": "2026-02-17T12:03:16.211Z", "date_modified": "2026-02-17T12:03:16.211Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The science influencers going viral on TikTok to fight misinformation" }, "zh-Hans": { "title": "在TikTok上走红的科学博主们正致力于打击虚假信息" }, "ja": { "title": "誤情報を撲滅するためTikTokで拡散される科学系インフルエンサー" }, "zh-Hant": { "title": "在TikTok上走紅的科學博主們正致力於打擊虛假信息" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00472-5/d41586-026-00472-5_52063074.jpg", "_lite_content_html": "02-17  The science influencers going viral on TikTok to fight misinformation (www.nature.com)" }, { "title": "性别间大脑差异在青春期后变得更为显著", "summary": "Brain differences between sexes get more pronounced from puberty", "content_text": "Brain differences between sexes get more pronounced from puberty\n原文地址: https://www.nature.com/articles/d41586-026-00349-7", "content_html": "
\"media.nature.com
Brain differences between sexes get more pronounced from puberty (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00349-7/", "url": "https://www.nature.com/articles/d41586-026-00349-7", "date_published": "2026-02-17T12:03:15.295Z", "date_modified": "2026-02-17T12:03:15.295Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Brain differences between sexes get more pronounced from puberty" }, "zh-Hans": { "title": "性别间大脑差异在青春期后变得更为显著" }, "ja": { "title": "性差による脳の違いは思春期からより顕著になる" }, "zh-Hant": { "title": "性別間大腦差異在青春期後變得更為顯著" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00349-7/d41586-026-00349-7_52042032.jpg", "_lite_content_html": "02-17  Brain differences between sexes get more pronounced from puberty (www.nature.com)" }, { "title": "为何人工智能研究人员的高薪对科学未来有害", "summary": "Why sky-high pay for AI researchers is bad for the future of science", "content_text": "Why sky-high pay for AI researchers is bad for the future of science\n原文地址: https://www.nature.com/articles/d41586-026-00474-3", "content_html": "
\"media.nature.com
Why sky-high pay for AI researchers is bad for the future of science (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00474-3/", "url": "https://www.nature.com/articles/d41586-026-00474-3", "date_published": "2026-02-17T11:00:38.823Z", "date_modified": "2026-02-17T11:00:38.823Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why sky-high pay for AI researchers is bad for the future of science" }, "zh-Hans": { "title": "为何人工智能研究人员的高薪对科学未来有害" }, "ja": { "title": "AI研究者に支払われる法外な報酬が科学の未来に悪影響を与える理由" }, "zh-Hant": { "title": "為何人工智能研究人員的高薪對科學未來有害" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00474-3/d41586-026-00474-3_52047000.jpg", "_lite_content_html": "02-17  Why sky-high pay for AI researchers is bad for the future of science (www.nature.com)" }, { "title": "\"青少年说教\"现象背后有何玄机?科学家应研究这种青春期行为", "summary": "What’s behind ‘teensplaining’? Scientists should study this adolescent behaviour", "content_text": "What’s behind ‘teensplaining’? Scientists should study this adolescent behaviour\n原文地址: https://www.nature.com/articles/d41586-026-00496-x", "content_html": "
What’s behind ‘teensplaining’? Scientists should study this adolescent behaviour (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00496-x/", "url": "https://www.nature.com/articles/d41586-026-00496-x", "date_published": "2026-02-17T11:00:38.043Z", "date_modified": "2026-02-17T11:00:38.043Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "What’s behind ‘teensplaining’? Scientists should study this adolescent behaviour" }, "zh-Hans": { "title": "\"青少年说教\"现象背后有何玄机?科学家应研究这种青春期行为" }, "ja": { "title": "「ティーンズプレイン」の背景とは?科学者はこの思春期の行動を研究すべきだ" }, "zh-Hant": { "title": "\"青少年說教\"現象背後有何玄機?科學家應研究這種青春期行為" } }, "_lite_content_html": "02-17  What’s behind ‘teensplaining’? Scientists should study this adolescent behaviour (www.nature.com)" }, { "title": "资金体系需要改革——但这并非“浪费时间和金钱”", "summary": "The funding system needs fixing — but it’s not a ‘waste of time and money’", "content_text": "The funding system needs fixing — but it’s not a ‘waste of time and money’\n原文地址: https://www.nature.com/articles/d41586-026-00498-9", "content_html": "
The funding system needs fixing — but it’s not a ‘waste of time and money’ (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00498-9/", "url": "https://www.nature.com/articles/d41586-026-00498-9", "date_published": "2026-02-17T11:00:35.967Z", "date_modified": "2026-02-17T11:00:35.967Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The funding system needs fixing — but it’s not a ‘waste of time and money’" }, "zh-Hans": { "title": "资金体系需要改革——但这并非“浪费时间和金钱”" }, "ja": { "title": "資金調達システムは改善が必要だ——しかしそれは「時間と金の無駄遣い」ではない" }, "zh-Hant": { "title": "資金體系需要改革——但這並非“浪費時間和金錢”" } }, "_lite_content_html": "02-17  The funding system needs fixing — but it’s not a ‘waste of time and money’ (www.nature.com)" }, { "title": "统计近似并非普遍智能", "summary": "Statistical approximation is not general intelligence", "content_text": "Statistical approximation is not general intelligence\n原文地址: https://www.nature.com/articles/d41586-026-00495-y", "content_html": "
Statistical approximation is not general intelligence (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00495-y/", "url": "https://www.nature.com/articles/d41586-026-00495-y", "date_published": "2026-02-17T11:00:34.684Z", "date_modified": "2026-02-17T11:00:34.684Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Statistical approximation is not general intelligence" }, "zh-Hans": { "title": "统计近似并非普遍智能" }, "ja": { "title": "統計的近似は汎用知能ではない" }, "zh-Hant": { "title": "統計近似並非普遍智能" } }, "_lite_content_html": "02-17  Statistical approximation is not general intelligence (www.nature.com)" }, { "title": "智能手机在课堂上是一把双刃剑", "summary": "Smartphones are a double-edged tool in classrooms", "content_text": "Smartphones are a double-edged tool in classrooms\n原文地址: https://www.nature.com/articles/d41586-026-00497-w", "content_html": "
Smartphones are a double-edged tool in classrooms (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00497-w/", "url": "https://www.nature.com/articles/d41586-026-00497-w", "date_published": "2026-02-17T11:00:25.478Z", "date_modified": "2026-02-17T11:00:25.478Z", "_original_published": "2026-02-17T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Smartphones are a double-edged tool in classrooms" }, "zh-Hans": { "title": "智能手机在课堂上是一把双刃剑" }, "ja": { "title": "スマートフォンは教室において両刃の剣である" }, "zh-Hant": { "title": "智能手機在課堂上是一把雙刃劍" } }, "_lite_content_html": "02-17  Smartphones are a double-edged tool in classrooms (www.nature.com)" }, { "title": "每日简报:新型平台让人工智能代理能在现实世界中雇佣人类助手", "summary": "Daily briefing: New platform lets AI agents hire human helpers in the ‘meatspace’", "content_text": "Daily briefing: New platform lets AI agents hire human helpers in the ‘meatspace’\n原文地址: https://www.nature.com/articles/d41586-026-00522-y", "content_html": "
\"media.nature.com
Daily briefing: New platform lets AI agents hire human helpers in the ‘meatspace’ (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_17__www-nature-com--articles-d41586-026-00522-y/", "url": "https://www.nature.com/articles/d41586-026-00522-y", "date_published": "2026-02-17T11:00:15.794Z", "date_modified": "2026-02-17T11:00:15.794Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: New platform lets AI agents hire human helpers in the ‘meatspace’" }, "zh-Hans": { "title": "每日简报:新型平台让人工智能代理能在现实世界中雇佣人类助手" }, "ja": { "title": "デイリーブリーフィング:新プラットフォームがAIエージェントに「現実世界」で人間の助手を雇うことを可能に" }, "zh-Hant": { "title": "每日簡報:新型平臺讓人工智能代理能在現實世界中僱傭人類助手" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00522-y/d41586-026-00522-y_52069284.png", "_lite_content_html": "02-16  Daily briefing: New platform lets AI agents hire human helpers in the ‘meatspace’ (www.nature.com)" }, { "title": "从头设计GPCR外框架调节剂", "summary": "De novo design of GPCR exoframe modulators", "content_text": "De novo design of GPCR exoframe modulators\n原文地址: https://www.nature.com/articles/s41586-025-09957-1", "content_html": "
\"media.springernature.com
De novo design of GPCR exoframe modulators (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-s41586-025-09957-1/", "url": "https://www.nature.com/articles/s41586-025-09957-1", "date_published": "2026-02-16T16:39:23.754Z", "date_modified": "2026-02-16T16:39:23.754Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "De novo design of GPCR exoframe modulators" }, "zh-Hans": { "title": "从头设计GPCR外框架调节剂" }, "ja": { "title": "GPCRエキソフレームモジュレーターのデノボ設計" }, "zh-Hant": { "title": "從頭設計GPCR外框架調節劑" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-025-09957-1/MediaObjects/41586_2025_9957_Fig1_HTML.png", "_lite_content_html": "02-16  De novo design of GPCR exoframe modulators (www.nature.com)" }, { "title": "编者关切声明:p53去乙酰化调节其对细胞生长与凋亡的影响", "summary": "Editorial Expression of Concern: Deacetylation of p53 modulates its effect on cell growth and apoptosis", "content_text": "Editorial Expression of Concern: Deacetylation of p53 modulates its effect on cell growth and apoptosis\n原文地址: https://www.nature.com/articles/s41586-026-10246-8", "content_html": "
Editorial Expression of Concern: Deacetylation of p53 modulates its effect on cell growth and apoptosis (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-s41586-026-10246-8/", "url": "https://www.nature.com/articles/s41586-026-10246-8", "date_published": "2026-02-16T16:39:22.907Z", "date_modified": "2026-02-16T16:39:22.907Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Editorial Expression of Concern: Deacetylation of p53 modulates its effect on cell growth and apoptosis" }, "zh-Hans": { "title": "编者关切声明:p53去乙酰化调节其对细胞生长与凋亡的影响" }, "ja": { "title": "懸念表明:p53の脱アセチル化は細胞増殖とアポトーシスへの影響を調節する" }, "zh-Hant": { "title": "編者關切聲明:p53去乙酰化調節其對細胞生長與凋亡的影響" } }, "_lite_content_html": "02-16  Editorial Expression of Concern: Deacetylation of p53 modulates its effect on cell growth and apoptosis (www.nature.com)" }, { "title": "编者关切声明:致癌应激介导的p53反应中转录独立型ARF调控机制", "summary": "Editorial Expression of Concern: Transcription-independent ARF regulation in oncogenic stress-mediated p53 responses", "content_text": "Editorial Expression of Concern: Transcription-independent ARF regulation in oncogenic stress-mediated p53 responses\n原文地址: https://www.nature.com/articles/s41586-026-10247-7", "content_html": "
Editorial Expression of Concern: Transcription-independent ARF regulation in oncogenic stress-mediated p53 responses (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-s41586-026-10247-7/", "url": "https://www.nature.com/articles/s41586-026-10247-7", "date_published": "2026-02-16T16:39:22.095Z", "date_modified": "2026-02-16T16:39:22.095Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Editorial Expression of Concern: Transcription-independent ARF regulation in oncogenic stress-mediated p53 responses" }, "zh-Hans": { "title": "编者关切声明:致癌应激介导的p53反应中转录独立型ARF调控机制" }, "ja": { "title": "懸念表明:腫瘍性ストレスを介したp53応答における転写非依存性ARF調節" }, "zh-Hant": { "title": "編者關切聲明:致癌應激介導的p53反應中轉錄獨立型ARF調控機制" } }, "_lite_content_html": "02-16  Editorial Expression of Concern: Transcription-independent ARF regulation in oncogenic stress-mediated p53 responses (www.nature.com)" }, { "title": "作者更正:结直肠癌对EGFR阻断治疗的基因组响应图景", "summary": "Author Correction: The genomic landscape of response to EGFR blockade in colorectal cancer", "content_text": "Author Correction: The genomic landscape of response to EGFR blockade in colorectal cancer\n原文地址: https://www.nature.com/articles/s41586-026-10254-8", "content_html": "
Author Correction: The genomic landscape of response to EGFR blockade in colorectal cancer (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-s41586-026-10254-8/", "url": "https://www.nature.com/articles/s41586-026-10254-8", "date_published": "2026-02-16T14:47:34.736Z", "date_modified": "2026-02-16T14:47:34.736Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: The genomic landscape of response to EGFR blockade in colorectal cancer" }, "zh-Hans": { "title": "作者更正:结直肠癌对EGFR阻断治疗的基因组响应图景" }, "ja": { "title": "著者訂正:大腸癌におけるEGFR阻害に対する応答のゲノム的特徴" }, "zh-Hant": { "title": "作者更正:結直腸癌對EGFR阻斷治療的基因組響應圖景" } }, "_lite_content_html": "02-16  Author Correction: The genomic landscape of response to EGFR blockade in colorectal cancer (www.nature.com)" }, { "title": "“我们在此何为?”——追寻生命意义的博学家们", "summary": "‘What are we doing here?’ The polymaths who searched for the meaning of life", "content_text": "‘What are we doing here?’ The polymaths who searched for the meaning of life\n原文地址: https://www.nature.com/articles/d41586-026-00473-4", "content_html": "
\"media.nature.com
‘What are we doing here?’ The polymaths who searched for the meaning of life (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-d41586-026-00473-4/", "url": "https://www.nature.com/articles/d41586-026-00473-4", "date_published": "2026-02-16T13:43:25.464Z", "date_modified": "2026-02-16T13:43:25.464Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "‘What are we doing here?’ The polymaths who searched for the meaning of life" }, "zh-Hans": { "title": "“我们在此何为?”——追寻生命意义的博学家们" }, "ja": { "title": "「我々はここで何をしているのか?」人生の意味を探求した博学者たち" }, "zh-Hant": { "title": "“我們在此何為?”——追尋生命意義的博學家們" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00473-4/d41586-026-00473-4_52055998.jpg", "_lite_content_html": "02-16  ‘What are we doing here?’ The polymaths who searched for the meaning of life (www.nature.com)" }, { "title": "如何用你的研究专长让科普作家惊叹不已", "summary": "How to wow a popular-science writer with your research expertise", "content_text": "How to wow a popular-science writer with your research expertise\n原文地址: https://www.nature.com/articles/d41586-026-00475-2", "content_html": "
\"media.nature.com
How to wow a popular-science writer with your research expertise (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-d41586-026-00475-2/", "url": "https://www.nature.com/articles/d41586-026-00475-2", "date_published": "2026-02-16T12:55:48.239Z", "date_modified": "2026-02-16T12:55:48.240Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How to wow a popular-science writer with your research expertise" }, "zh-Hans": { "title": "如何用你的研究专长让科普作家惊叹不已" }, "ja": { "title": "研究の専門知識で科学ライターを驚かせる方法" }, "zh-Hant": { "title": "如何用你的研究專長讓科普作家驚歎不已" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00475-2/d41586-026-00475-2_52037646.jpg", "_lite_content_html": "02-16  How to wow a popular-science writer with your research expertise (www.nature.com)" }, { "title": "每日简报:运动能重塑小鼠大脑耐力回路", "summary": "Daily briefing: Exercise rewires the brain for endurance, in mice", "content_text": "Daily briefing: Exercise rewires the brain for endurance, in mice\n原文地址: https://www.nature.com/articles/d41586-026-00499-8", "content_html": "
\"media.nature.com
Daily briefing: Exercise rewires the brain for endurance, in mice (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-d41586-026-00499-8/", "url": "https://www.nature.com/articles/d41586-026-00499-8", "date_published": "2026-02-16T12:55:47.174Z", "date_modified": "2026-02-16T12:55:47.174Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: Exercise rewires the brain for endurance, in mice" }, "zh-Hans": { "title": "每日简报:运动能重塑小鼠大脑耐力回路" }, "ja": { "title": "デイリーブリーフィング:運動はマウスの脳を持久力のために再配線する" }, "zh-Hant": { "title": "每日簡報:運動能重塑小鼠大腦耐力迴路" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00499-8/d41586-026-00499-8_52063204.png", "_lite_content_html": "02-13  Daily briefing: Exercise rewires the brain for endurance, in mice (www.nature.com)" }, { "title": "意识能否被理解——在死亡之前?", "summary": "Can consciousness ever be understood — this side of death?", "content_text": "Can consciousness ever be understood — this side of death?\n原文地址: https://www.nature.com/articles/d41586-026-00448-5", "content_html": "
\"media.nature.com
Can consciousness ever be understood — this side of death? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-d41586-026-00448-5/", "url": "https://www.nature.com/articles/d41586-026-00448-5", "date_published": "2026-02-16T11:36:34.202Z", "date_modified": "2026-02-16T11:36:34.202Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Can consciousness ever be understood — this side of death?" }, "zh-Hans": { "title": "意识能否被理解——在死亡之前?" }, "ja": { "title": "死の向こう側でなければ、意識は理解できるのだろうか?" }, "zh-Hant": { "title": "意識能否被理解——在死亡之前?" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00448-5/d41586-026-00448-5_52042146.jpg", "_lite_content_html": "02-16  Can consciousness ever be understood — this side of death? (www.nature.com)" }, { "title": "欧洲为何将中国排除在旗舰计划\"地平线\"研究项目之外", "summary": "Why Europe barred China from flagship Horizon research programmes", "content_text": "Why Europe barred China from flagship Horizon research programmes\n原文地址: https://www.nature.com/articles/d41586-026-00435-w", "content_html": "
\"media.nature.com
Why Europe barred China from flagship Horizon research programmes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-d41586-026-00435-w/", "url": "https://www.nature.com/articles/d41586-026-00435-w", "date_published": "2026-02-16T11:05:38.348Z", "date_modified": "2026-02-16T11:05:38.348Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why Europe barred China from flagship Horizon research programmes" }, "zh-Hans": { "title": "欧洲为何将中国排除在旗舰计划\"地平线\"研究项目之外" }, "ja": { "title": "欧州が中国の旗艦研究プログラム「ホライズン」への参加を拒否した理由" }, "zh-Hant": { "title": "歐洲為何將中國排除在旗艦計劃\"地平線\"研究項目之外" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00435-w/d41586-026-00435-w_52046548.jpg", "_lite_content_html": "02-16  Why Europe barred China from flagship Horizon research programmes (www.nature.com)" }, { "title": "为什么我们其实并不了解公众对科学的看法", "summary": "Why we don’t really know what the public thinks about science", "content_text": "Why we don’t really know what the public thinks about science\n原文地址: https://www.nature.com/articles/d41586-026-00467-2", "content_html": "
\"media.nature.com
Why we don’t really know what the public thinks about science (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/8/en_rss_2026_02_16__www-nature-com--articles-d41586-026-00467-2/", "url": "https://www.nature.com/articles/d41586-026-00467-2", "date_published": "2026-02-16T11:05:37.092Z", "date_modified": "2026-02-16T11:05:37.092Z", "_original_published": "2026-02-16T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Why we don’t really know what the public thinks about science" }, "zh-Hans": { "title": "为什么我们其实并不了解公众对科学的看法" }, "ja": { "title": "なぜ私たちは一般の人々が科学についてどう考えているのか、本当に知らないのか" }, "zh-Hant": { "title": "為什麼我們其實並不瞭解公眾對科學的看法" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00467-2/d41586-026-00467-2_52051242.jpg", "_lite_content_html": "02-16  Why we don’t really know what the public thinks about science (www.nature.com)" }, { "title": "CAR-T疗法为患有自身免疫性疾病的儿童带来缓解", "summary": "CAR-T therapy provides relief for children with autoimmune diseases", "content_text": "CAR-T therapy provides relief for children with autoimmune diseases\n原文地址: https://www.nature.com/articles/d41586-026-00412-3", "content_html": "
\"media.nature.com
CAR-T therapy provides relief for children with autoimmune diseases (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00412-3/", "url": "https://www.nature.com/articles/d41586-026-00412-3", "date_published": "2026-02-13T21:35:52.698Z", "date_modified": "2026-02-13T21:35:52.698Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "CAR-T therapy provides relief for children with autoimmune diseases" }, "zh-Hans": { "title": "CAR-T疗法为患有自身免疫性疾病的儿童带来缓解" }, "ja": { "title": "CAR-T療法は自己免疫疾患を持つ子どもたちに救いをもたらす" }, "zh-Hant": { "title": "CAR-T療法為患有自身免疫性疾病的兒童帶來緩解" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00412-3/d41586-026-00412-3_51762132.jpg", "_lite_content_html": "02-13  CAR-T therapy provides relief for children with autoimmune diseases (www.nature.com)" }, { "title": "独家:美国关键传染病中心将停止大流行准备工作", "summary": "Exclusive: Key US infectious-diseases centre to drop pandemic preparation", "content_text": "Exclusive: Key US infectious-diseases centre to drop pandemic preparation\n原文地址: https://www.nature.com/articles/d41586-026-00468-1", "content_html": "
\"media.nature.com
Exclusive: Key US infectious-diseases centre to drop pandemic preparation (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00468-1/", "url": "https://www.nature.com/articles/d41586-026-00468-1", "date_published": "2026-02-13T19:28:20.227Z", "date_modified": "2026-02-13T19:28:20.227Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Exclusive: Key US infectious-diseases centre to drop pandemic preparation" }, "zh-Hans": { "title": "独家:美国关键传染病中心将停止大流行准备工作" }, "ja": { "title": "独占:米主要感染症研究センターがパンデミック対策から撤退へ" }, "zh-Hant": { "title": "獨家:美國關鍵傳染病中心將停止大流行準備工作" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00468-1/d41586-026-00468-1_52051266.jpg", "_lite_content_html": "02-13  Exclusive: Key US infectious-diseases centre to drop pandemic preparation (www.nature.com)" }, { "title": "当同事离世:探究学术界的\"死亡否认\"文化", "summary": "When a colleague dies: exploring academia''s ‘death-denying’ culture", "content_text": "When a colleague dies: exploring academia''s ‘death-denying’ culture\n原文地址: https://www.nature.com/articles/d41586-026-00156-0", "content_html": "
\"media.nature.com
When a colleague dies: exploring academia''s ‘death-denying’ culture (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00156-0/", "url": "https://www.nature.com/articles/d41586-026-00156-0", "date_published": "2026-02-13T16:48:08.582Z", "date_modified": "2026-02-13T16:48:08.582Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "When a colleague dies: exploring academia''s ‘death-denying’ culture" }, "zh-Hans": { "title": "当同事离世:探究学术界的\"死亡否认\"文化" }, "ja": { "title": "同僚が亡くなった時:学界の「死を否定する」文化を探る" }, "zh-Hant": { "title": "當同事離世:探究學術界的\"死亡否認\"文化" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00156-0/d41586-026-00156-0_51917692.jpg", "_lite_content_html": "02-13  When a colleague dies: exploring academia''s ‘death-denying’ culture (www.nature.com)" }, { "title": "人工智能代理正在招聘人类“实体工作者”——包括部分科学家", "summary": "AI agents are hiring human ''meatspace workers'' — including some scientists", "content_text": "AI agents are hiring human ''meatspace workers'' — including some scientists\n原文地址: https://www.nature.com/articles/d41586-026-00454-7", "content_html": "
\"media.nature.com
AI agents are hiring human ''meatspace workers'' — including some scientists (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00454-7/", "url": "https://www.nature.com/articles/d41586-026-00454-7", "date_published": "2026-02-13T15:44:03.225Z", "date_modified": "2026-02-13T15:44:03.225Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI agents are hiring human ''meatspace workers'' — including some scientists" }, "zh-Hans": { "title": "人工智能代理正在招聘人类“实体工作者”——包括部分科学家" }, "ja": { "title": "AIエージェントが人間の「肉体の労働者」を雇用している——科学者を含む" }, "zh-Hant": { "title": "人工智能代理正在招聘人類“實體工作者”——包括部分科學家" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00454-7/d41586-026-00454-7_52050998.jpg", "_lite_content_html": "02-13  AI agents are hiring human ''meatspace workers'' — including some scientists (www.nature.com)" }, { "title": "人工智能垃圾如何引发计算机科学危机", "summary": "How AI slop is causing a crisis in computer science", "content_text": "How AI slop is causing a crisis in computer science\n原文地址: https://www.nature.com/articles/d41586-025-03967-9", "content_html": "
\"media.nature.com
How AI slop is causing a crisis in computer science (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-025-03967-9/", "url": "https://www.nature.com/articles/d41586-025-03967-9", "date_published": "2026-02-13T15:44:02.433Z", "date_modified": "2026-02-13T15:44:02.433Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How AI slop is causing a crisis in computer science" }, "zh-Hans": { "title": "人工智能垃圾如何引发计算机科学危机" }, "ja": { "title": "AIの粗雑な手法がコンピュータサイエンスに危機をもたらしている" }, "zh-Hant": { "title": "人工智能垃圾如何引發計算機科學危機" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-025-03967-9/d41586-025-03967-9_52042108.jpg", "_lite_content_html": "02-13  How AI slop is causing a crisis in computer science (www.nature.com)" }, { "title": "每日简报:银河系中心可能并非黑洞", "summary": "Daily briefing: The centre of our Galaxy might not be a black hole", "content_text": "Daily briefing: The centre of our Galaxy might not be a black hole\n原文地址: https://www.nature.com/articles/d41586-026-00459-2", "content_html": "
\"media.nature.com
Daily briefing: The centre of our Galaxy might not be a black hole (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00459-2/", "url": "https://www.nature.com/articles/d41586-026-00459-2", "date_published": "2026-02-13T15:44:01.504Z", "date_modified": "2026-02-13T15:44:01.504Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: The centre of our Galaxy might not be a black hole" }, "zh-Hans": { "title": "每日简报:银河系中心可能并非黑洞" }, "ja": { "title": "デイリーブリーフィング:銀河系の中心はブラックホールではない可能性がある" }, "zh-Hant": { "title": "每日簡報:銀河系中心可能並非黑洞" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00459-2/d41586-026-00459-2_52050598.png", "_lite_content_html": "02-11  Daily briefing: The centre of our Galaxy might not be a black hole (www.nature.com)" }, { "title": "“我差点被捕”:逃离缅甸军政府领导层赴海外攻读博士学位", "summary": "‘I was nearly arrested’: escaping Myanmar’s military leadership for a PhD abroad", "content_text": "‘I was nearly arrested’: escaping Myanmar’s military leadership for a PhD abroad\n原文地址: https://www.nature.com/articles/d41586-026-00140-8", "content_html": "
\"media.nature.com
‘I was nearly arrested’: escaping Myanmar’s military leadership for a PhD abroad (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00140-8/", "url": "https://www.nature.com/articles/d41586-026-00140-8", "date_published": "2026-02-13T14:40:19.821Z", "date_modified": "2026-02-13T14:40:19.821Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "‘I was nearly arrested’: escaping Myanmar’s military leadership for a PhD abroad" }, "zh-Hans": { "title": "“我差点被捕”:逃离缅甸军政府领导层赴海外攻读博士学位" }, "ja": { "title": "「逮捕されかけた」:ミャンマー軍指導部から逃れ、海外で博士号取得へ" }, "zh-Hant": { "title": "“我差點被捕”:逃離緬甸軍政府領導層赴海外攻讀博士學位" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00140-8/d41586-026-00140-8_51950574.jpg", "_lite_content_html": "02-13  ‘I was nearly arrested’: escaping Myanmar’s military leadership for a PhD abroad (www.nature.com)" }, { "title": "寄生蜂利用驯化病毒阉割毛虫", "summary": "Parasitic wasps use tamed virus to castrate caterpillars", "content_text": "Parasitic wasps use tamed virus to castrate caterpillars\n原文地址: https://www.nature.com/articles/d41586-026-00411-4", "content_html": "
\"media.nature.com
Parasitic wasps use tamed virus to castrate caterpillars (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00411-4/", "url": "https://www.nature.com/articles/d41586-026-00411-4", "date_published": "2026-02-13T14:40:18.919Z", "date_modified": "2026-02-13T14:40:18.919Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Parasitic wasps use tamed virus to castrate caterpillars" }, "zh-Hans": { "title": "寄生蜂利用驯化病毒阉割毛虫" }, "ja": { "title": "寄生蜂は飼い慣らしたウイルスを用いて毛虫を去勢する" }, "zh-Hant": { "title": "寄生蜂利用馴化病毒閹割毛蟲" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00411-4/d41586-026-00411-4_52036762.jpg", "_lite_content_html": "02-13  Parasitic wasps use tamed virus to castrate caterpillars (www.nature.com)" }, { "title": "简报快讯:数十年数据表明咖啡因可延缓大脑衰老", "summary": "Briefing Chat: Caffeine slows brain ageing, suggests decades of data", "content_text": "Briefing Chat: Caffeine slows brain ageing, suggests decades of data\n原文地址: https://www.nature.com/articles/d41586-026-00476-1", "content_html": "
\"media.nature.com
Briefing Chat: Caffeine slows brain ageing, suggests decades of data (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00476-1/", "url": "https://www.nature.com/articles/d41586-026-00476-1", "date_published": "2026-02-13T14:40:17.636Z", "date_modified": "2026-02-13T14:40:17.636Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Briefing Chat: Caffeine slows brain ageing, suggests decades of data" }, "zh-Hans": { "title": "简报快讯:数十年数据表明咖啡因可延缓大脑衰老" }, "ja": { "title": "ブリーフィング・チャット:数十年にわたるデータが示す、カフェインは脳の老化を遅らせる" }, "zh-Hant": { "title": "簡報快訊:數十年數據表明咖啡因可延緩大腦衰老" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00476-1/d41586-026-00476-1_52051214.jpg", "_lite_content_html": "02-13  Briefing Chat: Caffeine slows brain ageing, suggests decades of data (www.nature.com)" }, { "title": "每日简报:欧洲\"水世界\"中的狩猎采集者数千年抵制农业转型", "summary": "Daily briefing: Hunter-gatherers in Europe’s ‘water world’ resisted the switch to farming for millennia", "content_text": "Daily briefing: Hunter-gatherers in Europe’s ‘water world’ resisted the switch to farming for millennia\n原文地址: https://www.nature.com/articles/d41586-026-00465-4", "content_html": "
\"media.nature.com
Daily briefing: Hunter-gatherers in Europe’s ‘water world’ resisted the switch to farming for millennia (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00465-4/", "url": "https://www.nature.com/articles/d41586-026-00465-4", "date_published": "2026-02-13T13:36:00.740Z", "date_modified": "2026-02-13T13:36:00.740Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Daily briefing: Hunter-gatherers in Europe’s ‘water world’ resisted the switch to farming for millennia" }, "zh-Hans": { "title": "每日简报:欧洲\"水世界\"中的狩猎采集者数千年抵制农业转型" }, "ja": { "title": "デイリーブリーフィング:ヨーロッパの「水の惑星」における狩猟採集民は、数千年にわたり農耕への移行に抵抗した" }, "zh-Hant": { "title": "每日簡報:歐洲\"水世界\"中的狩獵採集者數千年抵制農業轉型" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00465-4/d41586-026-00465-4_52051108.png", "_lite_content_html": "02-12  Daily briefing: Hunter-gatherers in Europe’s ‘water world’ resisted the switch to farming for millennia (www.nature.com)" }, { "title": "社交媒体会让青少年上瘾吗?美国法院介入科学争论", "summary": "Is social media addictive for teens? US courts wade into scientific debate", "content_text": "Is social media addictive for teens? US courts wade into scientific debate\n原文地址: https://www.nature.com/articles/d41586-026-00433-y", "content_html": "
\"media.nature.com
Is social media addictive for teens? US courts wade into scientific debate (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_13__www-nature-com--articles-d41586-026-00433-y/", "url": "https://www.nature.com/articles/d41586-026-00433-y", "date_published": "2026-02-13T12:32:05.291Z", "date_modified": "2026-02-13T12:32:05.291Z", "_original_published": "2026-02-13T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Is social media addictive for teens? US courts wade into scientific debate" }, "zh-Hans": { "title": "社交媒体会让青少年上瘾吗?美国法院介入科学争论" }, "ja": { "title": "ソーシャルメディアは10代にとって中毒性があるのか? 米裁判所が科学的論争に介入" }, "zh-Hant": { "title": "社交媒體會讓青少年上癮嗎?美國法院介入科學爭論" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00433-y/d41586-026-00433-y_52042262.jpg", "_lite_content_html": "02-13  Is social media addictive for teens? US courts wade into scientific debate (www.nature.com)" }, { "title": "美国撤销关键性气候变化\"危害认定\",该认定曾将气候变化列为公共威胁", "summary": "US repeals key ‘endangerment finding’ that climate change is a public threat", "content_text": "US repeals key ‘endangerment finding’ that climate change is a public threat\n原文地址: https://www.nature.com/articles/d41586-026-00455-6", "content_html": "
\"media.nature.com
US repeals key ‘endangerment finding’ that climate change is a public threat (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00455-6/", "url": "https://www.nature.com/articles/d41586-026-00455-6", "date_published": "2026-02-12T23:30:03.509Z", "date_modified": "2026-02-12T23:30:03.509Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "US repeals key ‘endangerment finding’ that climate change is a public threat" }, "zh-Hans": { "title": "美国撤销关键性气候变化\"危害认定\",该认定曾将气候变化列为公共威胁" }, "ja": { "title": "米国、気候変動が公衆の脅威であるとする主要な「危険性認定」を撤回" }, "zh-Hant": { "title": "美國撤銷關鍵性氣候變化\"危害認定\",該認定曾將氣候變化列為公共威脅" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00455-6/d41586-026-00455-6_52050992.jpg", "_lite_content_html": "02-12  US repeals key ‘endangerment finding’ that climate change is a public threat (www.nature.com)" }, { "title": "部分新冠疫苗如何引发罕见血栓症", "summary": "How some COVID vaccines triggered rare blood-clot disorder", "content_text": "How some COVID vaccines triggered rare blood-clot disorder\n原文地址: https://www.nature.com/articles/d41586-026-00457-4", "content_html": "
\"media.nature.com
How some COVID vaccines triggered rare blood-clot disorder (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00457-4/", "url": "https://www.nature.com/articles/d41586-026-00457-4", "date_published": "2026-02-12T23:30:02.541Z", "date_modified": "2026-02-12T23:30:02.541Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "How some COVID vaccines triggered rare blood-clot disorder" }, "zh-Hans": { "title": "部分新冠疫苗如何引发罕见血栓症" }, "ja": { "title": "一部のCOVIDワクチンが引き起こした稀な血栓症" }, "zh-Hant": { "title": "部分新冠疫苗如何引發罕見血栓症" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00457-4/d41586-026-00457-4_52050618.jpg", "_lite_content_html": "02-12  How some COVID vaccines triggered rare blood-clot disorder (www.nature.com)" }, { "title": "人工智能在资助申请中的辅助作用与美国国立卫生研究院更高获批概率相关", "summary": "AI help in grant proposals tied to higher funding odds at NIH", "content_text": "AI help in grant proposals tied to higher funding odds at NIH\n原文地址: https://www.nature.com/articles/d41586-026-00369-3", "content_html": "
\"media.nature.com
AI help in grant proposals tied to higher funding odds at NIH (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00369-3/", "url": "https://www.nature.com/articles/d41586-026-00369-3", "date_published": "2026-02-12T22:26:11.460Z", "date_modified": "2026-02-12T22:26:11.460Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "AI help in grant proposals tied to higher funding odds at NIH" }, "zh-Hans": { "title": "人工智能在资助申请中的辅助作用与美国国立卫生研究院更高获批概率相关" }, "ja": { "title": "NIHの助成金申請においてAI支援が採用確率向上と関連" }, "zh-Hant": { "title": "人工智能在資助申請中的輔助作用與美國國立衛生研究院更高獲批概率相關" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00369-3/d41586-026-00369-3_52024168.jpg", "_lite_content_html": "02-12  AI help in grant proposals tied to higher funding odds at NIH (www.nature.com)" }, { "title": "出版者更正:猪源至人类逝者肾脏异种移植的生理学与免疫学", "summary": "Publisher Correction: Physiology and immunology of a pig-to-human decedent kidney xenotransplant", "content_text": "Publisher Correction: Physiology and immunology of a pig-to-human decedent kidney xenotransplant\n原文地址: https://www.nature.com/articles/s41586-026-10252-w", "content_html": "
Publisher Correction: Physiology and immunology of a pig-to-human decedent kidney xenotransplant (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-s41586-026-10252-w/", "url": "https://www.nature.com/articles/s41586-026-10252-w", "date_published": "2026-02-12T18:26:26.654Z", "date_modified": "2026-02-12T18:26:26.654Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Publisher Correction: Physiology and immunology of a pig-to-human decedent kidney xenotransplant" }, "zh-Hans": { "title": "出版者更正:猪源至人类逝者肾脏异种移植的生理学与免疫学" }, "ja": { "title": "出版社による訂正:豚由来腎臓のヒトへの異種移植における生理学と免疫学" }, "zh-Hant": { "title": "出版者更正:豬源至人類逝者腎臟異種移植的生理學與免疫學" } }, "_lite_content_html": "02-12  Publisher Correction: Physiology and immunology of a pig-to-human decedent kidney xenotransplant (www.nature.com)" }, { "title": "运动能重塑大脑——增强身体的耐力", "summary": "Exercise rewires the brain — boosting the body’s endurance", "content_text": "Exercise rewires the brain — boosting the body’s endurance\n原文地址: https://www.nature.com/articles/d41586-026-00414-1", "content_html": "
\"media.nature.com
Exercise rewires the brain — boosting the body’s endurance (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00414-1/", "url": "https://www.nature.com/articles/d41586-026-00414-1", "date_published": "2026-02-12T17:38:07.868Z", "date_modified": "2026-02-12T17:38:07.868Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Exercise rewires the brain — boosting the body’s endurance" }, "zh-Hans": { "title": "运动能重塑大脑——增强身体的耐力" }, "ja": { "title": "運動は脳の回路を再構築し、身体の持久力を高める" }, "zh-Hant": { "title": "運動能重塑大腦——增強身體的耐力" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00414-1/d41586-026-00414-1_52051010.jpg", "_lite_content_html": "02-12  Exercise rewires the brain — boosting the body’s endurance (www.nature.com)" }, { "title": "司美格鲁肽的\"惊人\"崛起——减肥药的未来走向", "summary": "The ‘astounding’ rise of semaglutide — and what’s next for weight-loss drugs", "content_text": "The ‘astounding’ rise of semaglutide — and what’s next for weight-loss drugs\n原文地址: https://www.nature.com/articles/d41586-026-00228-1", "content_html": "
\"media.nature.com
The ‘astounding’ rise of semaglutide — and what’s next for weight-loss drugs (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00228-1/", "url": "https://www.nature.com/articles/d41586-026-00228-1", "date_published": "2026-02-12T15:31:30.868Z", "date_modified": "2026-02-12T15:31:30.868Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "The ‘astounding’ rise of semaglutide — and what’s next for weight-loss drugs" }, "zh-Hans": { "title": "司美格鲁肽的\"惊人\"崛起——减肥药的未来走向" }, "ja": { "title": "セマグルチドの「驚異的な」台頭——そして減量薬の次なる展開" }, "zh-Hant": { "title": "司美格魯肽的\"驚人\"崛起——減肥藥的未來走向" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00228-1/d41586-026-00228-1_52019384.jpg", "_lite_content_html": "02-12  The ‘astounding’ rise of semaglutide — and what’s next for weight-loss drugs (www.nature.com)" }, { "title": "柔性关节:机器人变形为多种半机械人生物", "summary": "Flexible joints: robot morphs into a range of cyborg species", "content_text": "Flexible joints: robot morphs into a range of cyborg species\n原文地址: https://www.nature.com/articles/d41586-026-00410-5", "content_html": "
\"media.nature.com
Flexible joints: robot morphs into a range of cyborg species (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00410-5/", "url": "https://www.nature.com/articles/d41586-026-00410-5", "date_published": "2026-02-12T15:31:29.602Z", "date_modified": "2026-02-12T15:31:29.602Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Flexible joints: robot morphs into a range of cyborg species" }, "zh-Hans": { "title": "柔性关节:机器人变形为多种半机械人生物" }, "ja": { "title": "柔軟な関節:ロボットが様々なサイボーグ種へと変形する" }, "zh-Hant": { "title": "柔性關節:機器人變形為多種半機械人生物" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00410-5/d41586-026-00410-5_52036740.jpg", "_lite_content_html": "02-12  Flexible joints: robot morphs into a range of cyborg species (www.nature.com)" }, { "title": "从古老寺庙到炸弹坑:用照片探索老挝的层层历史", "summary": "From ancient temples to bomb craters: explore Laos’s layered history — in photos", "content_text": "From ancient temples to bomb craters: explore Laos’s layered history — in photos\n原文地址: https://www.nature.com/articles/d41586-026-00330-4", "content_html": "
\"www.nature.com
From ancient temples to bomb craters: explore Laos’s layered history — in photos (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00330-4/", "url": "https://www.nature.com/articles/d41586-026-00330-4", "date_published": "2026-02-12T12:35:50.754Z", "date_modified": "2026-02-12T12:35:50.754Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "From ancient temples to bomb craters: explore Laos’s layered history — in photos" }, "zh-Hans": { "title": "从古老寺庙到炸弹坑:用照片探索老挝的层层历史" }, "ja": { "title": "古代寺院から爆弾のクレーターまで:写真で巡るラオスの重層的な歴史" }, "zh-Hant": { "title": "從古老寺廟到炸彈坑:用照片探索老撾的層層歷史" } }, "image": "https://www.nature.com/immersive/d41586-026-00330-4/assets/MmTuQZ72U0/sm-1920x1081.jpg", "_lite_content_html": "02-12  From ancient temples to bomb craters: explore Laos’s layered history — in photos (www.nature.com)" }, { "title": "自供电振动传感器,适用于可穿戴健康监测与语音检测", "summary": "Self-powered vibration sensor for wearable health care and voice detection", "content_text": "Self-powered vibration sensor for wearable health care and voice detection\n原文地址: https://www.nature.com/articles/d41586-026-00250-3", "content_html": "
\"media.nature.com
Self-powered vibration sensor for wearable health care and voice detection (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00250-3/", "url": "https://www.nature.com/articles/d41586-026-00250-3", "date_published": "2026-02-12T11:31:46.078Z", "date_modified": "2026-02-12T11:31:46.078Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Self-powered vibration sensor for wearable health care and voice detection" }, "zh-Hans": { "title": "自供电振动传感器,适用于可穿戴健康监测与语音检测" }, "ja": { "title": "ウェアラブル医療および音声検出用自己発電式振動センサー" }, "zh-Hant": { "title": "自供電振動傳感器,適用於可穿戴健康監測與語音檢測" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00250-3/d41586-026-00250-3_52046738.jpg", "_lite_content_html": "02-12  Self-powered vibration sensor for wearable health care and voice detection (www.nature.com)" }, { "title": "科学经费亟待调整——但不应通过混乱的改革来实现", "summary": "Science funding needs fixing — but not through chaotic reforms", "content_text": "Science funding needs fixing — but not through chaotic reforms\n原文地址: https://www.nature.com/articles/d41586-026-00447-6", "content_html": "
\"media.nature.com
Science funding needs fixing — but not through chaotic reforms (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_12__www-nature-com--articles-d41586-026-00447-6/", "url": "https://www.nature.com/articles/d41586-026-00447-6", "date_published": "2026-02-12T09:23:46.825Z", "date_modified": "2026-02-12T09:23:46.825Z", "_original_published": "2026-02-12T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Science funding needs fixing — but not through chaotic reforms" }, "zh-Hans": { "title": "科学经费亟待调整——但不应通过混乱的改革来实现" }, "ja": { "title": "科学資金の改革は必要だが、無秩序な改革ではいけない" }, "zh-Hant": { "title": "科學經費亟待調整——但不應通過混亂的改革來實現" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00447-6/d41586-026-00447-6_52046784.jpg", "_lite_content_html": "02-12  Science funding needs fixing — but not through chaotic reforms (www.nature.com)" }, { "title": "中国将惩处未对科研不端行为进行处罚的高校", "summary": "China to punish universities that fail to sanction research misconduct", "content_text": "China to punish universities that fail to sanction research misconduct\n原文地址: https://www.nature.com/articles/d41586-026-00321-5", "content_html": "
\"media.nature.com
China to punish universities that fail to sanction research misconduct (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00321-5/", "url": "https://www.nature.com/articles/d41586-026-00321-5", "date_published": "2026-02-11T23:33:48.726Z", "date_modified": "2026-02-11T23:33:48.726Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "China to punish universities that fail to sanction research misconduct" }, "zh-Hans": { "title": "中国将惩处未对科研不端行为进行处罚的高校" }, "ja": { "title": "研究不正を処罰しない大学を中国が処罰へ" }, "zh-Hant": { "title": "中國將懲處未對科研不端行為進行處罰的高校" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00321-5/d41586-026-00321-5_51998424.jpg", "_lite_content_html": "02-11  China to punish universities that fail to sanction research misconduct (www.nature.com)" }, { "title": "特朗普团队的新规可能使解雇政府科学家更容易", "summary": "Trump team’s new rule could make firing government scientists easier", "content_text": "Trump team’s new rule could make firing government scientists easier\n原文地址: https://www.nature.com/articles/d41586-026-00443-w", "content_html": "
\"media.nature.com
Trump team’s new rule could make firing government scientists easier (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00443-w/", "url": "https://www.nature.com/articles/d41586-026-00443-w", "date_published": "2026-02-11T22:29:52.444Z", "date_modified": "2026-02-11T22:29:52.444Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Trump team’s new rule could make firing government scientists easier" }, "zh-Hans": { "title": "特朗普团队的新规可能使解雇政府科学家更容易" }, "ja": { "title": "トランプ政権の新ルールで政府科学者の解雇が容易に" }, "zh-Hant": { "title": "特朗普團隊的新規可能使解僱政府科學家更容易" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00443-w/d41586-026-00443-w_52046900.jpg", "_lite_content_html": "02-11  Trump team’s new rule could make firing government scientists easier (www.nature.com)" }, { "title": "我作为制药行业竞争情报顾问的\"侦探\"工作", "summary": "My ‘detective’ job as a competitive-intelligence consultant for pharma", "content_text": "My ‘detective’ job as a competitive-intelligence consultant for pharma\n原文地址: https://www.nature.com/articles/d41586-026-00252-1", "content_html": "
\"media.nature.com
My ‘detective’ job as a competitive-intelligence consultant for pharma (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00252-1/", "url": "https://www.nature.com/articles/d41586-026-00252-1", "date_published": "2026-02-11T19:33:45.739Z", "date_modified": "2026-02-11T19:33:45.739Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "My ‘detective’ job as a competitive-intelligence consultant for pharma" }, "zh-Hans": { "title": "我作为制药行业竞争情报顾问的\"侦探\"工作" }, "ja": { "title": "製薬業界向け競合情報コンサルタントとしての私の「探偵」仕事" }, "zh-Hant": { "title": "我作為製藥行業競爭情報顧問的\"偵探\"工作" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00252-1/d41586-026-00252-1_52008706.jpg", "_lite_content_html": "02-11  My ‘detective’ job as a competitive-intelligence consultant for pharma (www.nature.com)" }, { "title": "作者更正:真核生物海姆达尔古菌祖先的推断与重建", "summary": "Author Correction: Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes", "content_text": "Author Correction: Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes\n原文地址: https://www.nature.com/articles/s41586-026-10115-4", "content_html": "
Author Correction: Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-s41586-026-10115-4/", "url": "https://www.nature.com/articles/s41586-026-10115-4", "date_published": "2026-02-11T18:30:22.783Z", "date_modified": "2026-02-11T18:30:22.783Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Author Correction: Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes" }, "zh-Hans": { "title": "作者更正:真核生物海姆达尔古菌祖先的推断与重建" }, "ja": { "title": "著者訂正:真核生物のヘイムダル古細菌祖先に関する推論と再構築" }, "zh-Hant": { "title": "作者更正:真核生物海姆達爾古菌祖先的推斷與重建" } }, "_lite_content_html": "02-11  Author Correction: Inference and reconstruction of the heimdallarchaeial ancestry of eukaryotes (www.nature.com)" }, { "title": "我确保研究带来实际改变的四种方式", "summary": "Four ways I ensured my research brought about real-world change", "content_text": "Four ways I ensured my research brought about real-world change\n原文地址: https://www.nature.com/articles/d41586-025-03490-x", "content_html": "
\"media.nature.com
Four ways I ensured my research brought about real-world change (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-025-03490-x/", "url": "https://www.nature.com/articles/d41586-025-03490-x", "date_published": "2026-02-11T16:38:24.311Z", "date_modified": "2026-02-11T16:38:24.311Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Four ways I ensured my research brought about real-world change" }, "zh-Hans": { "title": "我确保研究带来实际改变的四种方式" }, "ja": { "title": "私の研究が現実世界の変化をもたらすために確実にした4つの方法" }, "zh-Hant": { "title": "我確保研究帶來實際改變的四種方式" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-025-03490-x/d41586-025-03490-x_51970078.jpg", "_lite_content_html": "02-11  Four ways I ensured my research brought about real-world change (www.nature.com)" }, { "title": "清除滞留的胆固醇可缓解淋巴水肿", "summary": "Clearing trapped cholesterol could relieve lymphoedema", "content_text": "Clearing trapped cholesterol could relieve lymphoedema\n原文地址: https://www.nature.com/articles/d41586-026-00176-w", "content_html": "
\"media.nature.com
Clearing trapped cholesterol could relieve lymphoedema (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00176-w/", "url": "https://www.nature.com/articles/d41586-026-00176-w", "date_published": "2026-02-11T16:38:23.502Z", "date_modified": "2026-02-11T16:38:23.502Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Clearing trapped cholesterol could relieve lymphoedema" }, "zh-Hans": { "title": "清除滞留的胆固醇可缓解淋巴水肿" }, "ja": { "title": "滞留したコレステロールを除去することでリンパ浮腫が緩和される可能性がある" }, "zh-Hant": { "title": "清除滯留的膽固醇可緩解淋巴水腫" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00176-w/d41586-026-00176-w_52042182.jpg", "_lite_content_html": "02-11  Clearing trapped cholesterol could relieve lymphoedema (www.nature.com)" }, { "title": "电中性电子很奇特——除非它们是偶的", "summary": "Charge-neutral electrons are odd — except when they’re even", "content_text": "Charge-neutral electrons are odd — except when they’re even\n原文地址: https://www.nature.com/articles/d41586-026-00173-z", "content_html": "
\"media.nature.com
Charge-neutral electrons are odd — except when they’re even (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00173-z/", "url": "https://www.nature.com/articles/d41586-026-00173-z", "date_published": "2026-02-11T16:38:22.727Z", "date_modified": "2026-02-11T16:38:22.727Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Charge-neutral electrons are odd — except when they’re even" }, "zh-Hans": { "title": "电中性电子很奇特——除非它们是偶的" }, "ja": { "title": "電荷が中性の電子は奇妙だ——ただし偶数の時は別だ" }, "zh-Hant": { "title": "電中性電子很奇特——除非它們是偶的" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00173-z/d41586-026-00173-z_52028664.jpg", "_lite_content_html": "02-11  Charge-neutral electrons are odd — except when they’re even (www.nature.com)" }, { "title": "松鼠可能是猴痘病毒的储存宿主", "summary": "Squirrels could be a reservoir for the virus that causes mpox", "content_text": "Squirrels could be a reservoir for the virus that causes mpox\n原文地址: https://www.nature.com/articles/d41586-026-00175-x", "content_html": "
\"media.nature.com
Squirrels could be a reservoir for the virus that causes mpox (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00175-x/", "url": "https://www.nature.com/articles/d41586-026-00175-x", "date_published": "2026-02-11T16:38:21.972Z", "date_modified": "2026-02-11T16:38:21.972Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Squirrels could be a reservoir for the virus that causes mpox" }, "zh-Hans": { "title": "松鼠可能是猴痘病毒的储存宿主" }, "ja": { "title": "リスはMpoxを引き起こすウイルスの保菌動物となり得る" }, "zh-Hant": { "title": "松鼠可能是猴痘病毒的儲存宿主" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00175-x/d41586-026-00175-x_52014814.jpg", "_lite_content_html": "02-11  Squirrels could be a reservoir for the virus that causes mpox (www.nature.com)" }, { "title": "支持民众及其生计,而非化石燃料产业", "summary": "Support people and their livelihoods rather than fossil-fuel industries", "content_text": "Support people and their livelihoods rather than fossil-fuel industries\n原文地址: https://www.nature.com/articles/d41586-026-00382-6", "content_html": "
\"media.nature.com
Support people and their livelihoods rather than fossil-fuel industries (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00382-6/", "url": "https://www.nature.com/articles/d41586-026-00382-6", "date_published": "2026-02-11T16:38:21.247Z", "date_modified": "2026-02-11T16:38:21.248Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Support people and their livelihoods rather than fossil-fuel industries" }, "zh-Hans": { "title": "支持民众及其生计,而非化石燃料产业" }, "ja": { "title": "化石燃料産業ではなく、人々とその生計を支える" }, "zh-Hant": { "title": "支持民眾及其生計,而非化石燃料產業" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00382-6/d41586-026-00382-6_52037816.jpg", "_lite_content_html": "02-11  Support people and their livelihoods rather than fossil-fuel industries (www.nature.com)" }, { "title": "通过翻转基因开关,可保护免疫细胞免于“耗竭”", "summary": "Immune cells could be protected from ‘exhaustion’ by flipping genetic switches", "content_text": "Immune cells could be protected from ‘exhaustion’ by flipping genetic switches\n原文地址: https://www.nature.com/articles/d41586-026-00391-5", "content_html": "
\"media.nature.com
Immune cells could be protected from ‘exhaustion’ by flipping genetic switches (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00391-5/", "url": "https://www.nature.com/articles/d41586-026-00391-5", "date_published": "2026-02-11T16:38:20.348Z", "date_modified": "2026-02-11T16:38:20.348Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Immune cells could be protected from ‘exhaustion’ by flipping genetic switches" }, "zh-Hans": { "title": "通过翻转基因开关,可保护免疫细胞免于“耗竭”" }, "ja": { "title": "免疫細胞は遺伝子スイッチを切り替えることで「消耗」から守られる可能性がある" }, "zh-Hant": { "title": "通過翻轉基因開關,可保護免疫細胞免於“耗竭”" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00391-5/d41586-026-00391-5_52037168.png", "_lite_content_html": "02-11  Immune cells could be protected from ‘exhaustion’ by flipping genetic switches (www.nature.com)" }, { "title": "自首次观测到引力波已过去十年", "summary": "Ten years since the first reported observation of gravitational waves", "content_text": "Ten years since the first reported observation of gravitational waves\n原文地址: https://www.nature.com/articles/d41586-026-00172-0", "content_html": "
\"media.nature.com
Ten years since the first reported observation of gravitational waves (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00172-0/", "url": "https://www.nature.com/articles/d41586-026-00172-0", "date_published": "2026-02-11T16:38:19.552Z", "date_modified": "2026-02-11T16:38:19.552Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Ten years since the first reported observation of gravitational waves" }, "zh-Hans": { "title": "自首次观测到引力波已过去十年" }, "ja": { "title": "重力波の最初の観測報告から10年" }, "zh-Hant": { "title": "自首次觀測到引力波已過去十年" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00172-0/d41586-026-00172-0_52028670.jpg", "_lite_content_html": "02-11  Ten years since the first reported observation of gravitational waves (www.nature.com)" }, { "title": "物理不稳定性与生物钟对细胞内容物的强健分区", "summary": "Robust partitioning of cell contents by physical instabilities and biological clocks", "content_text": "Robust partitioning of cell contents by physical instabilities and biological clocks\n原文地址: https://www.nature.com/articles/d41586-026-00021-0", "content_html": "
\"media.nature.com
Robust partitioning of cell contents by physical instabilities and biological clocks (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00021-0/", "url": "https://www.nature.com/articles/d41586-026-00021-0", "date_published": "2026-02-11T16:38:18.633Z", "date_modified": "2026-02-11T16:38:18.633Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Robust partitioning of cell contents by physical instabilities and biological clocks" }, "zh-Hans": { "title": "物理不稳定性与生物钟对细胞内容物的强健分区" }, "ja": { "title": "物理的不安定性と生物時計による細胞内容物の頑健な分割" }, "zh-Hant": { "title": "物理不穩定性與生物鐘對細胞內容物的強健分區" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00021-0/d41586-026-00021-0_52036732.png", "_lite_content_html": "02-11  Robust partitioning of cell contents by physical instabilities and biological clocks (www.nature.com)" }, { "title": "清洁能源革命能否拯救我们免于气候灾难?", "summary": "Can the clean-energy revolution save us from climate catastrophe?", "content_text": "Can the clean-energy revolution save us from climate catastrophe?\n原文地址: https://www.nature.com/articles/d41586-026-00332-2", "content_html": "
\"www.nature.com
Can the clean-energy revolution save us from climate catastrophe? (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00332-2/", "url": "https://www.nature.com/articles/d41586-026-00332-2", "date_published": "2026-02-11T16:38:17.877Z", "date_modified": "2026-02-11T16:38:17.877Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Can the clean-energy revolution save us from climate catastrophe?" }, "zh-Hans": { "title": "清洁能源革命能否拯救我们免于气候灾难?" }, "ja": { "title": "クリーンエネルギー革命は気候変動の危機から私たちを救えるのか?" }, "zh-Hant": { "title": "清潔能源革命能否拯救我們免於氣候災難?" } }, "image": "https://www.nature.com/immersive/d41586-026-00332-2/assets/jfKlxNjiZ9/carbon-emissions-collage-sm-1066x600.jpg", "_lite_content_html": "02-11  Can the clean-energy revolution save us from climate catastrophe? (www.nature.com)" }, { "title": "采集狩猎者在欧洲\"水世界\"中避难数千年", "summary": "Hunter-gatherers took refuge in European ''water world'' for millennia", "content_text": "Hunter-gatherers took refuge in European ''water world'' for millennia\n原文地址: https://www.nature.com/articles/d41586-026-00440-z", "content_html": "
\"media.nature.com
Hunter-gatherers took refuge in European ''water world'' for millennia (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00440-z/", "url": "https://www.nature.com/articles/d41586-026-00440-z", "date_published": "2026-02-11T16:38:17.034Z", "date_modified": "2026-02-11T16:38:17.034Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Hunter-gatherers took refuge in European ''water world'' for millennia" }, "zh-Hans": { "title": "采集狩猎者在欧洲\"水世界\"中避难数千年" }, "ja": { "title": "狩猟採集民は数千年にわたりヨーロッパの「水の世界」に避難した" }, "zh-Hant": { "title": "採集狩獵者在歐洲\"水世界\"中避難數千年" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00440-z/d41586-026-00440-z_52042068.jpg", "_lite_content_html": "02-11  Hunter-gatherers took refuge in European ''water world'' for millennia (www.nature.com)" }, { "title": "托儿所里的婴儿相互塑造彼此的微生物群落", "summary": "Babies at nursery shape each other’s microbiomes", "content_text": "Babies at nursery shape each other’s microbiomes\n原文地址: https://www.nature.com/articles/d41586-026-00396-0", "content_html": "
\"media.nature.com
Babies at nursery shape each other’s microbiomes (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00396-0/", "url": "https://www.nature.com/articles/d41586-026-00396-0", "date_published": "2026-02-11T16:38:16.230Z", "date_modified": "2026-02-11T16:38:16.230Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Babies at nursery shape each other’s microbiomes" }, "zh-Hans": { "title": "托儿所里的婴儿相互塑造彼此的微生物群落" }, "ja": { "title": "保育園の赤ちゃんは互いのマイクロバイオームを形成し合う" }, "zh-Hant": { "title": "託兒所裡的嬰兒相互塑造彼此的微生物群落" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00396-0/d41586-026-00396-0_52036804.png", "_lite_content_html": "02-11  Babies at nursery shape each other’s microbiomes (www.nature.com)" }, { "title": "铝的未开发催化能力已被激发", "summary": "Untapped catalytic ability of aluminium has been unlocked", "content_text": "Untapped catalytic ability of aluminium has been unlocked\n原文地址: https://www.nature.com/articles/d41586-026-00174-y", "content_html": "
\"media.nature.com
Untapped catalytic ability of aluminium has been unlocked (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-d41586-026-00174-y/", "url": "https://www.nature.com/articles/d41586-026-00174-y", "date_published": "2026-02-11T16:38:15.479Z", "date_modified": "2026-02-11T16:38:15.479Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Untapped catalytic ability of aluminium has been unlocked" }, "zh-Hans": { "title": "铝的未开发催化能力已被激发" }, "ja": { "title": "アルミニウムの未開拓な触媒能力が解き放たれた" }, "zh-Hant": { "title": "鋁的未開發催化能力已被激發" } }, "image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00174-y/d41586-026-00174-y_52028676.jpg", "_lite_content_html": "02-11  Untapped catalytic ability of aluminium has been unlocked (www.nature.com)" }, { "title": "集成光子学的大规模量子通信网络", "summary": "Large-scale quantum communication networks with integrated photonics", "content_text": "Large-scale quantum communication networks with integrated photonics\n原文地址: https://www.nature.com/articles/s41586-026-10152-z", "content_html": "
\"media.springernature.com
Large-scale quantum communication networks with integrated photonics (www.nature.com)
", "id": "https://i.buzzing.cc/nature/posts/2026/7/en_rss_2026_02_11__www-nature-com--articles-s41586-026-10152-z/", "url": "https://www.nature.com/articles/s41586-026-10152-z", "date_published": "2026-02-11T16:38:14.677Z", "date_modified": "2026-02-11T16:38:14.677Z", "_original_published": "2026-02-11T00:00:00.000Z", "_original_language": "en", "_translations": { "en": { "title": "Large-scale quantum communication networks with integrated photonics" }, "zh-Hans": { "title": "集成光子学的大规模量子通信网络" }, "ja": { "title": "集積フォトニクスを用いた大規模量子通信ネットワーク" }, "zh-Hant": { "title": "集成光子學的大規模量子通信網絡" } }, "image": "https://media.springernature.com/m685/springer-static/image/art%3A10.1038%2Fs41586-026-10152-z/MediaObjects/41586_2026_10152_Fig1_HTML.png", "_lite_content_html": "02-11  Large-scale quantum communication networks with integrated photonics (www.nature.com)" } ], "_title_suffix": " - 用中文浏览 Nature (自然杂志) 最新报道", "_image": "https://media.nature.com/lw1200/magazine-assets/d41586-026-00249-w/d41586-026-00249-w_52143914.jpg", "_site_tags": [ "tech", "source-nature" ], "_archive": [ "2026/10", "2026/9", "2026/8", "2026/7", "2026/6", "2026/5", "2026/4", "2026/3", "2026/2", "2026/1", "2025/52", "2025/51", "2025/50", "2025/49", "2025/48", "2025/47", "2025/46", "2025/45", "2025/44", "2025/43", "2025/42", "2025/41", "2025/40", "2025/39", "2025/38", "2025/37", "2025/36", "2025/35", "2025/34", "2025/33", "2025/32", "2025/31", "2025/30", "2025/29", "2025/28", "2025/27", "2025/26", "2025/25", "2025/24", "2025/23", "2025/22", "2025/21", "2025/20", "2025/19", "2025/18", "2025/17", "2025/16", "2025/15", "2025/14", "2025/13", "2025/12", "2025/11", "2025/10", "2025/9", "2025/8", "2025/7", "2025/6", "2025/5", "2025/4", "2025/3", "2025/2", "2025/1", "2024/52", "2024/51", "2024/50", "2024/49", "2024/48", "2024/47", "2024/46", "2024/45", "2024/44", "2024/43", "2024/42", "2024/41", "2024/40", "2024/39", "2024/38", "2024/37", "2024/36", "2024/35", "2024/34", "2024/33", "2024/32", "2024/31", "2024/30", "2024/29", "2024/28", "2024/27", "2024/26", "2024/25", "2024/24", "2024/23", "2024/22", "2024/21", "2024/20", "2024/19", "2024/18", "2024/17", "2024/16", "2024/15", "2024/14", "2024/13", "2024/12", "2024/11", "2024/10", "2024/9", "2024/8", "2024/7", "2024/6", "2024/5", "2024/4", "2024/3", "2024/2", "2024/1", "2023/52", "2023/51", "2023/50", "2023/49", "2023/48", "2023/47", "2023/46", "2023/45", "2023/44", "2023/43", "2023/42", "2023/41", "2023/40", "2023/39", "2023/38", "2023/37", "2023/36", "2023/35", "2023/34", "2023/33", "2023/32", "2023/31", "2023/30", "2023/29", "2023/28", "2023/27", "2023/26", "2023/25", "2023/24", "2023/23", "2023/22", "2023/21", "2023/20", "2023/19", "2023/18", "2023/17", "2023/16" ] }