Ming Yang
Peking University
24 Papers
32 Citations
Ming Yang is an academic researcher from Peking University. The author has contributed to research in topics: Biology & Epigenetics. The author has an hindex of 6, co-authored 20 publications. Previous affiliations of Ming Yang include Chinese Ministry of Education.
Chat about Author
Papers
Transcriptome Landscape of Human Folliculogenesis Reveals Oocyte and Granulosa Cell Interactions.
Yaoyao Zhang,Yaoyao Zhang,Zhiqiang Yan,Qingyuan Qin,Qingyuan Qin,Vicki Nisenblat,Hsun-Ming Chang,Yang Yu,Yang Yu,Tianren Wang,Tianren Wang,Cuiling Lu,Cuiling Lu,Ming Yang,Ming Yang,Shuo Yang,Ying Yao,Xiaohui Zhu,Xiaohui Zhu,Xi Xia,Xi Xia,Yujiao Dang,Yujiao Dang,Yixin Ren,Yixin Ren,Peng Yuan,Peng Yuan,Rong Li,Rong Li,Ping Liu,Ping Liu,Hongyan Guo,Jin-song Han,Haojie He,Kun Zhang,Yiting Wang,Yu Wu,Meng Li,Jie Qiao,Jie Yan,Jie Yan,Liying Yan,Liying Yan +42 more
TL;DR: This work revealed unique features in transcriptional machinery, transcription factor networks, and reciprocal interactions in human oocytes and GCs that displayed developmental-stage-specific expression patterns and identified specific gene signatures of two cell types in particular developmental stage that may reflect developmental competency and ovarian reserve.
394
Single-cell transcriptomics identifies divergent developmental lineage trajectories during human pituitary development.
Shu Zhang,Yueli Cui,Yueli Cui,Xinyi Ma,Xinyi Ma,Jun Yong,Jun Yong,Liying Yan,Liying Yan,Ming Yang,Jie Ren,Jie Ren,Fuchou Tang,Fuchou Tang,Lu Wen,Lu Wen,Jie Qiao +16 more
TL;DR: Insight is provided into the transcriptional landscape of human pituitary development, defining distinct cell substates and subtypes and illustrating transcription factor dynamics during cell fate commitment.
Single-cell multiomics sequencing reveals the functional regulatory landscape of early embryos
Yang Wang,Yang Wang,Peng Yuan,Peng Yuan,Zhiqiang Yan,Zhiqiang Yan,Ming Yang,Ying Huo,Ying Huo,Yanli Nie,Yanli Nie,Xiaohui Zhu,Xiaohui Zhu,Jie Qiao,Liying Yan +14 more
TL;DR: In this paper, a single-cell multi-omics sequencing technology (scNOMeRe-seq) was developed that enables profiling of genome-wide chromatin accessibility, DNA methylation and RNA expression in the same individual cell.
Heterogeneity of glial progenitor cells during the neurogenesis-to-gliogenesis switch in the developing human cerebral cortex.
Yuanyuan Fu,Ming Yang,Hongmin Yu,Yicheng Wang,Xinglong Wu,Jun Yong,Y. J. Mao,Y. J. Mao,Yueli Cui,Yueli Cui,Xiaoying Fan,Lu Wen,Lu Wen,Jie Qiao,Fuchou Tang +14 more
TL;DR: Zhang et al. as mentioned in this paper found that EGFR+ cells are mainly distributed in the germinal zone and frequently colocalize with the stemness marker SOX2 during this period, which corresponds to the beginning stages of human gliogenesis.
76
DevOmics: an integrated multi-omics database of human and mouse early embryo.
Zhiqiang Yan,Jianting An,Yong Peng,Siming Kong,Qiang Liu,Ming Yang,Qilong He,Shi Song,Yidong Chen,Wei Chen,Rong Li,Jie Qiao,Liying Yan +12 more
TL;DR: DevOmics (http://devomics.cn/), which contains normalized gene expression, DNA methylation, histone modifications, chromatin accessibility and 3D chromatin architecture profiles of human and mouse early embryos spanning six developmental stages (zygote, 2cell, 4cell, 8cell, morula and blastocyst (ICM, TE)).
16