TY - JOUR
T1 - Genetic regulation of gene expression across multiple tissues in chickens
AU - Guan, Dailu
AU - Bai, Zhonghao
AU - Zhu, Xiaoning
AU - Zhong, Conghao
AU - Hou, Yali
AU - Zhu, Di
AU - Li, Houcheng
AU - Lan, Fangren
AU - Diao, Shuqi
AU - Yao, Yuelin
AU - Zhao, Bingru
AU - Li, Xiaochang
AU - Pan, Zhangyuan
AU - Gao, Yahui
AU - Wang, Yuzhe
AU - Zou, Dong
AU - Wang, Ruizhen
AU - Xu, Tianyi
AU - Sun, Congjiao
AU - Yin, Hongwei
AU - Teng, Jinyan
AU - Xu, Zhiting
AU - Lin, Qing
AU - Shi, Shourong
AU - Shao, Dan
AU - Degalez, Fabien
AU - Lagarrigue, Sandrine
AU - Wang, Ying
AU - Wang, Mingshan
AU - Peng, Minsheng
AU - Rocha, Dominique
AU - Charles, Mathieu
AU - Smith, Jacqueline
AU - Watson, Kellie
AU - Buitenhuis, Albert Johannes
AU - Sahana, Goutam
AU - Lund, Mogens Sandø
AU - Warren, Wesley
AU - Frantz, Laurent
AU - Larson, Greger
AU - Lamont, Susan J.
AU - Si, Wei
AU - Zhao, Xin
AU - Li, Bingjie
AU - Zhang, Haihan
AU - Luo, Chenglong
AU - Shu, Dingming
AU - Qu, Hao
AU - Luo, Wei
AU - Li, Zhenhui
AU - Nie, Qinghua
AU - Zhang, Xiquan
AU - Xiang, Ruidong
AU - Liu, Shuli
AU - Zhang, Zhe
AU - Zhang, Zhang
AU - Liu, George E.
AU - Cheng, Hans
AU - Yang, Ning
AU - Hu, Xiaoxiang
AU - Zhou, Huaijun
AU - Fang, Lingzhao
AU - The ChickenGTEx Consortium
N1 - Publisher Copyright:
© The Author(s), under exclusive licence to Springer Nature America, Inc. 2025.
PY - 2025
Y1 - 2025
N2 - The chicken is a valuable model for understanding fundamental biology and vertebrate evolution and is a major global source of nutrient-dense and lean protein. Despite being the first non-mammalian amniote to have its genome sequenced, a systematic characterization of functional variation on the chicken genome remains lacking. Here, we integrated bulk RNA sequencing (RNA-seq) data from 7,015 samples, single-cell RNA-seq data from 127,598 cells and 2,869 whole-genome sequences to present a pilot atlas of regulatory variants across 28 chicken tissues. This atlas reveals millions of regulatory effects on primary expression (protein-coding genes, long non-coding RNA and exons) and post-transcriptional modifications (alternative splicing and 3′-untranslated region alternative polyadenylation). We highlighted distinct molecular mechanisms underlying these regulatory variants, their context-dependent behavior and their utility in interpreting genome-wide associations for 39 chicken complex traits. Finally, our comparative analyses of gene regulation between chickens and mammals demonstrate how this resource can facilitate cross-species gene mapping of complex traits.
AB - The chicken is a valuable model for understanding fundamental biology and vertebrate evolution and is a major global source of nutrient-dense and lean protein. Despite being the first non-mammalian amniote to have its genome sequenced, a systematic characterization of functional variation on the chicken genome remains lacking. Here, we integrated bulk RNA sequencing (RNA-seq) data from 7,015 samples, single-cell RNA-seq data from 127,598 cells and 2,869 whole-genome sequences to present a pilot atlas of regulatory variants across 28 chicken tissues. This atlas reveals millions of regulatory effects on primary expression (protein-coding genes, long non-coding RNA and exons) and post-transcriptional modifications (alternative splicing and 3′-untranslated region alternative polyadenylation). We highlighted distinct molecular mechanisms underlying these regulatory variants, their context-dependent behavior and their utility in interpreting genome-wide associations for 39 chicken complex traits. Finally, our comparative analyses of gene regulation between chickens and mammals demonstrate how this resource can facilitate cross-species gene mapping of complex traits.
UR - http://www.scopus.com/inward/record.url?scp=105002446340&partnerID=8YFLogxK
U2 - 10.1038/s41588-025-02155-9
DO - 10.1038/s41588-025-02155-9
M3 - Article
C2 - 40200121
AN - SCOPUS:105002446340
SN - 1061-4036
JO - Nature Genetics
JF - Nature Genetics
M1 - 1821
ER -