鸡多个组织中基因表达的遗传调控。

Genetic regulation of gene expression across multiple tissues in chickens.

作者信息

Guan Dailu, Bai Zhonghao, Zhu Xiaoning, Zhong Conghao, Hou Yali, Zhu Di, Li Houcheng, Lan Fangren, Diao Shuqi, Yao Yuelin, Zhao Bingru, Li Xiaochang, Pan Zhangyuan, Gao Yahui, Wang Yuzhe, Zou Dong, Wang Ruizhen, Xu Tianyi, Sun Congjiao, Yin Hongwei, Teng Jinyan, Xu Zhiting, Lin Qing, Shi Shourong, Shao Dan, Degalez Fabien, Lagarrigue Sandrine, Wang Ying, Wang Mingshan, Peng Minsheng, Rocha Dominique, Charles Mathieu, Smith Jacqueline, Watson Kellie, Buitenhuis Albert Johannes, Sahana Goutam, Lund Mogens Sandø, Warren Wesley, Frantz Laurent, Larson Greger, Lamont Susan J, Si Wei, Zhao Xin, Li Bingjie, Zhang Haihan, Luo Chenglong, Shu Dingming, Qu Hao, Luo Wei, Li Zhenhui, Nie Qinghua, Zhang Xiquan, Xiang Ruidong, Liu Shuli, Zhang Zhe, Zhang Zhang, Liu George E, Cheng Hans, Yang Ning, Hu Xiaoxiang, Zhou Huaijun, Fang Lingzhao

机构信息

Department of Animal Science, University of California-Davis, Davis, CA, USA.

Center for Quantitative Genetics and Genomics (QGG), Aarhus University, Aarhus, Denmark.

出版信息

Nat Genet. 2025 May;57(5):1298-1308. doi: 10.1038/s41588-025-02155-9. Epub 2025 Apr 8.

DOI:10.1038/s41588-025-02155-9

PMID:40200121

Abstract

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.

摘要

鸡是理解基础生物学和脊椎动物进化的重要模型，也是全球营养丰富且低脂蛋白质的主要来源。尽管鸡是首个完成基因组测序的非哺乳类羊膜动物，但对鸡基因组功能变异的系统表征仍然缺乏。在此，我们整合了来自7015个样本的大量RNA测序（RNA-seq）数据、来自127598个细胞的单细胞RNA-seq数据以及2869个全基因组序列，以呈现28种鸡组织中调控变异的初步图谱。该图谱揭示了数百万种对初级表达（蛋白质编码基因、长链非编码RNA和外显子）和转录后修饰（可变剪接和3'非翻译区可变聚腺苷酸化）的调控作用。我们强调了这些调控变异背后独特的分子机制、它们的上下文依赖行为以及它们在解释39种鸡复杂性状的全基因组关联中的作用。最后，我们对鸡和哺乳动物之间基因调控的比较分析表明，这一资源如何能够促进复杂性状的跨物种基因定位。

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鸡多个组织中基因表达的遗传调控。

Genetic regulation of gene expression across multiple tissues in chickens.

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