萌喵读文献-代谢

Name: 萌喵读文献-代谢
SKU: PD_8002_412399AU

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萌喵读文献-代谢

By: Meng

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今日代谢学最高分文献 - 2025-11-04

Nov 4 2025

科研喵使用AI读文献，祝你效率百倍，访问labcat.com.cn下载。本期关注发表在《Trends in Cell Biology》(IF: 13.0)上的重要综述"Understanding and targeting erythroid cell metabolism"。这篇由St. Jude儿童研究医院Ni M团队撰写的文章揭示了红细胞生成过程中的代谢调控机制，为治疗红细胞疾病提供了新思路。研究发现，丙酮酸激酶激活剂可显著改善镰状细胞病和地中海贫血患者预后，展示了代谢靶向治疗的巨大潜力。文章深入解析了红细胞代谢重编程的生物能和生物合成过程，为未来开发针对遗传性和获得性红细胞疾病的新型疗法指明了方向。
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2 mins

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今日代谢学最高分文献 - 2025-11-03

Nov 3 2025

科研喵使用AI读文献，祝你效率百倍，访问labcat.com.cn下载。本期关注发表在影响因子5.4的《Physiologia plantarum》上的研究"Chlorpyrifos and Imidacloprid Phytotoxicity Triggers Oxidative Stress and Hinders Lettuce Growth, Cellular, and Metabolic Functions"。该研究揭示了常用杀虫剂毒死蜱和吡虫啉对生菜的显著毒性，高浓度下可降低发芽率高达80%，并引发严重氧化应激。研究显示，这些杀虫剂破坏了植物细胞结构，减少了ATP含量，并改变了代谢功能。这一发现强调了农药精准使用的重要性，为开发更环保的缓释和靶向特异性农药提供了科学依据，对保障食品安全和生态平衡具有重要意义。
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3 mins

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今日代谢学最高分文献 - 2025-11-02

Nov 2 2025

科研喵使用ai读文献，祝你效率百倍，访问labcat.com.cn下载。本期关注发表在影响因子7.3的《Critical reviews in food science and nutrition》上的研究"Sustainable probiotic production via AI: medium optimization and metabolic mechanisms in Bifidobacterium animalis ssp. lactis BB-12 using agricultural waste"。这项突破性研究利用人工智能技术优化了知名益生菌BB-12的培养介质，成功以农业废弃物替代传统昂贵培养基。研究团队应用机器学习、深度学习等AI方法，不仅显著提高了益生菌产量，还增强了有益代谢物如乳酸、乙酸和丙酸的合成。通过代谢组学分析，揭示了核苷酸回收、戊糖磷酸代谢等关键通路变化。这一创新为可持续益生菌生产提供了经济高效的解决方案，同时推动循环生物经济发展，为食品和医药行业带来巨大潜力。
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4 mins

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萌喵读文献-代谢

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今日代谢学最高分文献 - 2025-11-04

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今日代谢学最高分文献 - 2025-11-03

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今日代谢学最高分文献 - 2025-11-02

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