An atlas of DNA methylomes in porcine adipose and muscle tissues

被引:0
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作者
Mingzhou Li
Honglong Wu
Zonggang Luo
Yudong Xia
Jiuqiang Guan
Tao Wang
Yiren Gu
Lei Chen
Kai Zhang
Jideng Ma
Yingkai Liu
Zhijun Zhong
Jing Nie
Shuling Zhou
Zhiping Mu
Xiaoyan Wang
Jingjing Qu
Long Jing
Huiyu Wang
Shujia Huang
Na Yi
Zhe Wang
Dongxing Xi
Juan Wang
Guangliang Yin
Li Wang
Ning Li
Zhi Jiang
Qiulei Lang
Huasheng Xiao
Anan Jiang
Li Zhu
Yanzhi Jiang
Guoqing Tang
Miaomiao Mai
Surong Shuai
Ning Li
Kui Li
Jinyong Wang
Xiuqing Zhang
Yingrui Li
Haosi Chen
Xiaolian Gao
Graham S. Plastow
Stephen Beck
Huanming Yang
Jian Wang
Jun Wang
Xuewei Li
Ruiqiang Li
机构
[1] Institute of Animal Genetics and Breeding,Department of Animal Science
[2] College of Animal Science and Technology,Department of Biology and Biochemistry
[3] Sichuan Agricultural University,Department of Agricultural
[4] BGI-Shenzhen,undefined
[5] Southwest University at Rongchang,undefined
[6] Sichuan Animal Science Academy,undefined
[7] Chongqing Academy of Animal Science,undefined
[8] LC-Bio,undefined
[9] National Engineering Center for Biochip at Shanghai,undefined
[10] State Key Laboratory for Agrobiotechnology,undefined
[11] China Agricultural University,undefined
[12] Institute of Animal Science,undefined
[13] Chinese Academy of Agricultural Sciences,undefined
[14] University of Houston,undefined
[15] Food and Nutritional Science,undefined
[16] University of Alberta,undefined
[17] Medical Genomics,undefined
[18] UCL Cancer Institute,undefined
[19] University College London,undefined
[20] Present address: Sichuan Academy of Grassland Science,undefined
[21] Chengdu,undefined
[22] Sichuan 610000,undefined
[23] China;,undefined
[24] Present address: Peking-Tsinghua Center for Life Sciences,undefined
[25] Biodynamic Optical Imaging Center and School of Life Sciences,undefined
[26] Peking University,undefined
[27] Beijing 100871,undefined
[28] China.,undefined
来源
Nature Communications | / 3卷
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摘要
It is evident that epigenetic factors, especially DNA methylation, have essential roles in obesity development. Here, using pig as a model, we investigate the systematic association between DNA methylation and obesity. We sample eight variant adipose and two distinct skeletal muscle tissues from three pig breeds living within comparable environments but displaying distinct fat level. We generate 1,381 Gb of sequence data from 180 methylated DNA immunoprecipitation libraries, and provide a genome-wide DNA methylation map as well as a gene expression map for adipose and muscle studies. The analysis shows global similarity and difference among breeds, sexes and anatomic locations, and identifies the differentially methylated regions. The differentially methylated regions in promoters are highly associated with obesity development via expression repression of both known obesity-related genes and novel genes. This comprehensive map provides a solid basis for exploring epigenetic mechanisms of adipose deposition and muscle growth.
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