Hu Li
11 Papers
4 Citations
Hu Li is an academic researcher. The author has contributed to research in topics: Biology & Medicine. The author has an hindex of 2, co-authored 9 publications.
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Papers
MyoD is a 3D genome structure organizer for muscle cell identity
Rui-chen Wang,Fengling Chen,Qian Chen,Xin Wan,Minglei Shi,Antony K. Chen,Zhao Ma,Guohong Li,Min Wang,Yachen Ying,Qinyao Liu,Hu Li,Xu Zhang,Jinbiao Ma,Jiayun Zhong,Meihong Chen,Michael Q. Zhang,Yong Zhang,Yang Chen,Dahai Zhu +19 more
TL;DR: In this article , the authors analyzed 3D genome structures in muscle cells from mice lacking the muscle lineage transcription factor (TF), MyoD, versus wild-type mice, and showed that MyOD functions as a "genome organizer" that specifies 3-dimensional genome architecture unique to muscle cell development.
Linc-RAM promotes muscle cell differentiation via regulating glycogen phosphorylase activity
TL;DR: In this paper , a molecular mechanism through which cytoplasmic Linc-RAM contributes to muscle cell differentiation by regulating PYGM activity was revealed. But the mechanism was not discussed.
Skeletal muscle-secreted DLPC orchestrates systemic energy homeostasis by enhancing adipose browning
Xiaodi Hu,Mingwei Sun,Qian Chen,Yixia Zhao,Na Liang,Siyuan Wang,Pengbin Yin,Yuanping Yang,Sin Man Lam,Qianying Zhang,Alimujiang Tudiyusufu,Yingying Gu,Xin Wan,Meihong Chen,Hu Li,Xiaofei Zhang,Guanghou Shui,Suneng Fu,Licheng Zhang,Peifu Tang,Catherine C L Wong,Yong Zhang,Dahai Zhu +22 more
TL;DR: It is reported that genetic deletion of Myod in male mice enhances the oxidative metabolism of muscle and, intriguingly, renders the male mice resistant to high fat diet-induced obesity.
5
Global determination of reaction rates and lipid turnover kinetics in Mus musculus.
Qishan Chen,Hu Li,He Tian,Sin Man Lam,Yilie Liao,Ziyi Zhang,Manyuan Dong,Shaoru Chen,Yuxiao Yao,Yong Zhang,Lemin Zheng,Zhuo Xian Meng,Weiping Han,Guanghou Shui,Dahai Zhu,Suneng Fu +15 more
TL;DR: In this article , C13 fluxomics was applied to monitor the metabolism of dietary glucose carbon in 12 tissues, 9 brain compartments, and over 1,000 metabolite isotopologues over a 4-day period.
5
miR-378-mediated glycolytic metabolism enriches the Pax7Hi subpopulation of satellite cells
Hu Li,Lin Kang,Rimao Wu,Changyin Li,Qianying Zhang,Ran Zhong,Lijing Jia,Dahai Zhu,Yong Zhang +8 more
TL;DR: In this paper , the miR-378-mediated metabolic switch enriches Pax7 Hi SCs, accounting for impaired muscle regeneration in miR378 transgenic mice (TG) and they showed that miR+378 is a target that links fiber metabolism to muscle stem cell heterogeneity and provide a genetic model to approve the metabolic niche role of myofibers.