Single cell multi-omics of fibrotic kidney reveal epigenetic regulation of antioxidation and apoptosis within proximal tubule

被引：0

作者：

Zhejun Chen

Liqing Ye

Minyan Zhu

Cong Xia

Junfen Fan

Hongbo Chen

Zhijian Li

Shan Mou

机构：

[1] The First Affiliated Hospital of Zhejiang Chinese Medical University (Zhejiang Provincial Hospital of Chinese Medicine),Department of Nephrology

[2] Shanghai Jiao Tong University,Department of Nephrology, Molecular Cell Lab for Kidney Disease, Renji Hospital, School of Medicine

[3] Broad Institute of Harvard and MIT,undefined

来源：

Cellular and Molecular Life Sciences | 2024年 / 81卷

关键词：

Multimodal; scRNA-seq; Fibrotic kidney; Antioxidation; snATAC;

D O I：

暂无

中图分类号：

学科分类号：

摘要：

引用

共 36 条

[1] Single cell multi-omics of fibrotic kidney reveal epigenetic regulation of antioxidation and apoptosis within proximal tubule
Chen, Zhejun
Ye, Liqing
Zhu, Minyan
Xia, Cong
Fan, Junfen
Chen, Hongbo
Li, Zhijian
Mou, Shan
CELLULAR AND MOLECULAR LIFE SCIENCES, 2024, 81 (01)
[2] Multi-omics maps of cotton fibre reveal epigenetic basis for staged single-cell differentiation
Wang, Maojun
Wang, Pengcheng
Tu, Lili
Zhu, Sitao
Zhang, Lin
Li, Zhonghua
Zhang, Qinghua
Yuan, Daojun
Zhang, Xianlong
NUCLEIC ACIDS RESEARCH, 2016, 44 (09) : 4067 - +
[3] Multi-omics analyses of red blood cell reveal antioxidation mechanisms associated with hemolytic toxicity of gossypol
Tang, Chaohua
Meng, Qingshi
Zhang, Kai
Zhan, Tengfei
Zhao, Qingyu
Zhang, Sheng
Zhang, Junmin
ONCOTARGET, 2017, 8 (61) : 103693 - 103709
[4] A multi-omics investigation of tacrolimus off-target effects on a proximal tubule cell-line
Aouad, Hassan
Faucher, Quentin
Sauvage, Francois-Ludovic
Pinault, Emilie
Barrot, Claire-Cecile
Arnion, Helene
Essig, Marie
Marquet, Pierre
PHARMACOLOGICAL RESEARCH, 2023, 192
[5] MULTI-OMICS ANALYSIS REVEALS DYSFUNCTIONAL EPIGENETIC REGULATION IN HEMATOPOIETIC STEM CELL AGING
Svendsen, Arthur
Russo, Sara
Zwart, Erik
Ausema, Albertina
Bystrykh, Leonid
de Haan, Gerald
EXPERIMENTAL HEMATOLOGY, 2022, 111 : S144 - S144
[6] Functional inference of gene regulation using single-cell multi-omics
Kartha, Vinay K.
Duarte, Fabiana M.
Hu, Yan
Ma, Sai
Chew, Jennifer G.
Lareau, Caleb A.
Earl, Andrew
Burkett, Zach D.
Kohlway, Andrew S.
Lebofsky, Ronald
Buenrostr, Jason D.
CELL GENOMICS, 2022, 2 (09):
[7] New Anti-Fibrotic Strategies for Keloids: Insights From Single-Cell Multi-Omics
Zhao, Songyun
Xie, Jiaheng
Zhang, Qian
Ni, Tianyi
Lin, Jinde
Gao, Weicheng
Zhao, Liping
Yi, Min
Tu, Liying
Zhang, Pengpeng
Wu, Dan
Tang, Qikai
Ma, Chenfeng
He, Yucang
Li, Liqun
Wu, Guoping
Yan, Wei
CELL PROLIFERATION, 2025,
[8] Single-Cell Multi-omics: An Engine for New Quantitative Models of Gene Regulation
Packer, Jonathan
Trapnell, Cole
TRENDS IN GENETICS, 2018, 34 (09) : 653 - 665
[9] Single cell multi-omics reveal intra-cell-line heterogeneity across human cancer cell lines
Qionghua Zhu
Xin Zhao
Yuanhang Zhang
Yanping Li
Shang Liu
Jingxuan Han
Zhiyuan Sun
Chunqing Wang
Daqi Deng
Shanshan Wang
Yisen Tang
Yaling Huang
Siyuan Jiang
Chi Tian
Xi Chen
Yue Yuan
Zeyu Li
Tao Yang
Tingting Lai
Yiqun Liu
Wenzhen Yang
Xuanxuan Zou
Mingyuan Zhang
Huanhuan Cui
Chuanyu Liu
Xin Jin
Yuhui Hu
Ao Chen
Xun Xu
Guipeng Li
Yong Hou
Longqi Liu
Shiping Liu
Liang Fang
Wei Chen
Liang Wu
Nature Communications, 14
[10] Decoding dynamic epigenetic landscapes in human oocytes using single-cell multi-omics sequencing
Yan, Rui
Gu, Chan
You, Di
Huang, Zhongying
Qian, Jingjing
Yang, Qiuyun
Cheng, Xin
Zhang, Lin
Wang, Hongmei
Wang, Ping
Guo, Fan
CELL STEM CELL, 2021, 28 (09) : 1641 - +

← 1 2 3 4 →