日期 影响因子
日期:
2020 年 — 2026 年
2020
2021
2022
2023
2024
2025
2026
影响因子:

A single-cell transcriptomic landscape characterizes the endocrine system aging in the mouse

单细胞转录组图谱揭示小鼠内分泌系统衰老特征

期刊:Protein & Cell
影响因子:12.8
doi:10.1093/procel/pwaf074
Wei, Ran; Du, Zhehao; Wang, Jue; Bi, Jinlong; Lyu, Wencong; Wang, Haochen; He, Jianuo; Meng, Fanju; Zhang, Lijun; Zhang, Chao; Zhang, Chen; Tao, Wei
细胞生物学
衰老
单细胞
发表日期:2026
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Histone Lactylation Antagonizes Senescence and Skeletal Muscle Aging by Modulating Aging-Related Pathways.

组蛋白乳化通过调节衰老相关通路来拮抗衰老和骨骼肌老化

期刊:Advanced Science
影响因子:14.1
doi:10.1002/advs.202412747
Meng Fanju, He Jianuo, Zhang Xuebin, Lyu Wencong, Wei Ran, Wang Shiyi, Du Zhehao, Wang Haochen, Bi Jinlong, Hua Xueyang, Zhang Chao, Guan Yiting, Lyu Guoliang, Tian Xiao-Li, Zhang Lijun, Xie Wenbing, Tao Wei
骨科研究
Senescence
细胞衰老
发表日期:2025
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Enalapril mitigates senescence and aging-related phenotypes in human cells and mice via pSmad1/5/9-driven antioxidative genes.

依那普利通过 pSmad1/5/9 驱动的抗氧化基因减轻人类细胞和小鼠的衰老和衰老相关表型

期刊:Elife
影响因子:6.4
doi:10.7554/eLife.104774
Lyu Wencong, Wang Haochen, Du Zhehao, Wei Ran, He Jianuo, Meng Fanju, Bi Jinlong, Zhang Lijun, Zhang Chao, Guan Yiting, Tao Wei
细胞生物学
Human
发表日期:2025
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Heterochronic parabiosis alters the transcriptomic landscape to combat aging and aging-related diseases in aging-accelerated mice

异时共生改变转录组图谱,从而对抗加速衰老小鼠的衰老及相关疾病。

期刊:Life Medicine
影响因子:6
doi:10.1093/lifemedi/lnaf025
Wang, Haochen; Lyu, Wencong; Sun, Yuzhe; Jia, Xinyi; Bi, Jinlong; Wei, Ran; Du, Zhehao; Meng, Fanju; He, Jianuo; Wang, Shiyi; Zhang, Lijun; Nie, Chao; Tao, Wei
衰老
发表日期:2025
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