乳酸杆菌或其代谢物GABA的预防性补充可保护急性缺血性心脏损伤。, Wang J, Zhang H, Yuan H, Chen S, Yu Y, Zhang X, Gao Z, Du H, Li W, Wang Y, Xia P, Wang J*, Song M*., 2024
4E-BP1通过维持线粒体稳态对抗人间充质干细胞衰老。, He Y, Ji Q, Wu Z, Cai Y, Yin J, Zhang Y, Zhang S, Liu X, Zhang W, Liu GH*, Wang S*, Song M*, Qu J*., 2023
心脏衰老的生物标记框架:衰老生物标记联盟共识声明。, Aging Biomarker Consortium, Zhang W, Che Y, Tang X, Chen S, Song M*, Wang L*, Sun A*, Chen H*, Xu M*, Wang M*, Pu J*, Li Z*, Xiao J*, Cao C*, Zhang Y*, Lu Y*, Zhao Y*, Wang Y*, Zhang C*, Shen T*, Zhang W*, Tao L*, Qu J*, Tang Y*, Liu GH*, Pei G*, Li J*, Cao F*., 2023
衰老生物标记联盟代表了中国衰老研究的新时代。, Ren J#, Song M#, Zhang W#, Cai JP, Cao F, Cao Z, Chan P, Chen C, Chen G, Chen HZ, Chen J, Chen XC, Ci W, Ding BS, Ding Q, Gao F, Gao S, Han JJ, He QY, Huang K, Ju Z, Kong QP, Li J, Li J, Li J, Li X, Liu B, Liu F, Liu JP, Liu L, Liu Q, Liu Q, Liu X, Liu Y, Luo X, Ma S, Ma X, Mao Z, Nie J, Peng Y, Qu J, Ren R, Song W, Songyang Z, Sun L, Sun YE, Sun Y, Tian M, Tian XL, Tian Y, Wang J, Wang S, Wang S, Wang W, Wang X, Wang X, Wang YJ, Wang Y, Wong CCL, Xiang AP, Xiao Y, Xiao ZX, Xie Z, Xiong W, Xu D, Yang Z, Ye J, Yu W, Yue R, Zhang C, Zhang H, Zhang L, Zhang X, Zhang Y, Zhang YW, Zhang Z, Zhao T, Zhao Y, Zhou Z, Zhu D, Zou W, Pei G, Liu GH., 2023
肠道微生物蛋氨酸影响宿主胃肠道中的昼夜节律基因表达和活性氧水平。, Liu X, Ma Y, Yu Y, Zhang W, Shi J, Zhang X, Dai M, Wang Y, Zhang H, Zhang J, Shen J, Zhang F*, Song M*, Wang J*., 2023
从肠道宏基因组中高效挖掘抗癌肽。, Ma Y, Liu X, Zhang X, Yu Y, Li Y, Song M*, Wang J*., 2023
衰老的生物标记。, Aging Biomarker Consortium; Bao H, Cao J, Chen M, Chen M, Chen W, Chen X, Chen Y, Chen Y, Chen Y, Chen Z, Chhetri JK, Ding Y, Feng J, Guo J, Guo M, He C, Jia Y, Jiang H, Jing Y, Li D, Li J, Li J, Liang Q, Liang R, Liu F, Liu X, Liu Z, Luo OJ, Lv J, Ma J, Mao K, Nie J, Qiao X, Sun X, Tang X, Wang J, Wang Q, Wang S, Wang X, Wang Y, Wang Y, Wu R, Xia K, Xiao FH, Xu L, Xu Y, Yan H, Yang L, Yang R, Yang Y, Ying Y, Zhang L, Zhang W, Zhang W, Zhang X, Zhang Z, Zhou M, Zhou R, Zhu Q, Zhu Z, Cao F*, Cao Z*, Chan P*, Chen C*, Chen G*, Chen HZ*, Chen J*, Ci W*, Ding BS*, Ding Q*, Gao F*, Han JJ*, Huang K*, Ju Z*, Kong QP*, Li J*, Li J*, Li X*, Liu B*, Liu F*, Liu L*, Liu Q*, Liu Q*, Liu X*, Liu Y*, Luo X*, Ma S*, Ma X*, Mao Z*, Nie J*, Peng Y*, Qu J*, Ren J*, Ren R*, Song M*, Songyang Z*, Sun YE*, Sun Y*, Tian M*, Wang S*, Wang S*, Wang X*, Wang X*, Wang YJ*, Wang Y*, Wong CCL*, Xiang AP*, Xiao Y*, Xie Z*, Xu D*, Ye J*, Yue R*, Zhang C*, Zhang H*, Zhang L*, Zhang W*, Zhang Y*, Zhang YW*, Zhang Z*, 2023
mTORC2/RICTOR在人类胚胎、间充质和神经干细胞中施加不同水平的代谢控制。, Chu Q, Liu F, He Y, Jiang X, Cai Y, Wu Z, Yan K, Geng L, Zhang Y, Feng H, Zhou K, Wang S, Zhang W, Liu GH*, Ma S*, Qu J*, Song M*., 2022
APOE介导的异染色质不稳定性导致衰老。, Zhao H, Ji Q, Wu Z, Wang S, Ren J, Yan K, Wang Z, Hu J, Chu Q, Hu H, Cai Y, Wang Q, Huang D, Ji Z, Li J, Belmonte JCI, Song M*, Zhang W*, Qu J*, Liu GH*., 2022
干预衰老的潜在方法。, Shen J, Liu GH*, Song M*., 2022
肠系膜淋巴系统构成肠-肝轴的第二条途径,并运输调节代谢的肠道微生物代谢物。, Yu Y, Liu B, Liu X, Zhang X, Zhang W, Tian H, Shui G, Wang W, Song M*, Wang J*., 2022
短读和长读宏基因组学扩展了肠道微生物组中的个体化结构变异。, Chen L, Zhao N, Cao J, Liu X, Xu J, Ma Y, Yu Y, Zhang X, Zhang W, Guan X, Yu X, Liu Z, Fan Y, Wang Y, Liang F, Wang D, Zhao L, Song M*, Wang J*., 2022
低剂量氯喹治疗延长老年大鼠的寿命。, Li W, Zou Z, Cai Y, Yang K, Wang S, Liu Z, Geng L, Chu Q, Ji Z, Chan P, Liu GH*, Song M*, Qu J*, Zhang W*., 2022
衰老的景观。, Cai Y, Song W, Li J, Jing Y, Liang C, Zhang L, Zhang X, Zhang W, Liu B, An Y, Li J, Tang B, Pei S, Wu X, Liu Y, Zhuang CL, Ying Y, Dou X, Chen Y, Xiao FH, Li D, Yang R, Zhao Y, Wang Y, Wang L, Li Y, Ma S*, Wang S*, Song X*, Ren J*, Zhang L*, Wang J*, Zhang W*, Xie Z*, Qu J*, Wang J*, Xiao Y*, Tian Y*, Wang G*, Hu P*, Ye J*, Sun Y*, Mao Z*, Kong QP*, Liu Q*, Zou W*, Tian XL*, Xiao ZX*, Liu Y*, Liu JP*, Song M*, Han JJ*, Liu GH*., 2022
灵长类动物心肺衰老的单细胞转录组图谱。, Ma S, Sun S, Li J, Fan Y, Qu J, Sun L, Wang S, Zhang Y, Yang S, Liu Z, Wu Z, Zhang S, Wang Q, Zheng A, Duo S, Yu Y, Belmonte JCI, Chan P, Zhou Q, Song M*, Zhang W*, Liu GH*., 2021
SIRT3巩固异染色质并对抗衰老。, Diao Z, Ji Q, Wu Z, Zhang W, Cai Y, Wang Z, Hu J, Liu Z, Wang Q, Bi S, Huang D, Ji Z, Liu GH*, Wang S*, Song M*, Qu J*., 2021
FOXO3工程化的人间充质祖细胞有效促进心肌梗死后的心脏修复。, Lei J, Wang S, Kang W, Chu Q, Liu Z, Sun L, Ji Y, Esteban CR, Yao Y, Belmonte JCI, Chan P, Liu GH*, Zhang W*, Song M*, Qu J*., 2021
热量限制重编程Rattus Norvegicus衰老的单细胞转录景观。, Ma S, Sun S, Geng L, Song M, Wang W, Ye Y, Ji Q, Zou Z, Wang S, He X, Li W, Esteban CR, Long X, Guo G, Chan P, Zhou Q, Belmonte JCI, Zhang W, Qu J, Liu GH., 2020
SIRT7作为异染色质稳定剂对抗人类干细胞衰老。, Bi S, Liu Z, Wu Z, Wang Z, Liu X, Wang S, Ren J, Yao Y, Zhang W*, Song M*, Liu GH*, Qu J*., 2020
通过基因疗法使用复兴因子治疗骨关节炎。, Zhang J, Liu GH*, Qu J*, Song M*., 2020
线粒体调节心脏衰老。, Wang Y, Li Y, He C, Gou B, Song M., 2019
化学筛选发现槲皮素在早衰中的抗衰老作用。, Geng L, Liu Z, Zhang W, Li W, Wu Z, Wang W, Ren R, Su Y, Wang P, Sun L, Ju Z, Chan P, Song M*, Qu J*, Liu GH*., 2019
心血管衰老和疾病中的表观遗传修饰。, Zhang W, Song M, Qu J, Liu GH., 2018
CRISPR/Cas9介导的基因敲除揭示了NF-κB/RelA在维持人类血管细胞稳态中的保护作用。, Wang P, Liu Z, Zhang X, Li J, Sun L, Ju Z, Li J, Chan P, Liu GH*, Zhang W*, Song M*, Qu J*., 2018
破坏小鼠心脏中的线粒体动力学加速线粒体衰老。, Song M, Franco A, Fleischer JA, Zhang L, Dorn GW 2nd., 2017
Parkin介导的线粒体自噬指导小鼠围产期心脏代谢成熟。, Gong G, Song M, Csordas G, Kelly DP, Matkovich SJ, Dorn GW 2nd., 2015
线粒体混乱:心脏静态线粒体中动力因素的非典型功能。, Song M, Dorn GW 2nd., 2015
线粒体分裂和融合因子在小鼠心脏和培养的成纤维细胞中相互协调线粒体自噬清除。, Song M, Mihara K, Chen Y, Scorrano L, Dorn GW 2nd., 2015
Parkin介导的线粒体自噬和线粒体分裂在成年小鼠心脏中的相互依赖性。, Song M, Gong G, Burelle Y, Gustafsson ÅB, Kitsis RN, Matkovich SJ, Dorn GW 2nd., 2015
线粒体活性氧信号的超抑制损害了原发性线粒体自噬性心肌病中的补偿性自噬。, Song M, Chen Y, Gong G, Murphy E, Rabinovitch PS, Dorn GW 2nd., 2014
