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王禹, 高山, 赵越, 陈伟煌, 邵俊杰, 王妮妮, 李鸣, 周光现, 王磊, 沈文婧, 徐惊涛, 邓卫东, 王文, 陈玉林, 姜雨. 2019: 在杂种动物骡子和犏牛中探究等位基因差异表达和差异剪接. 动物学研究, 40(4): 293-305. DOI: 10.24272/j.issn.2095-8137.2019.042
引用本文: 王禹, 高山, 赵越, 陈伟煌, 邵俊杰, 王妮妮, 李鸣, 周光现, 王磊, 沈文婧, 徐惊涛, 邓卫东, 王文, 陈玉林, 姜雨. 2019: 在杂种动物骡子和犏牛中探究等位基因差异表达和差异剪接. 动物学研究, 40(4): 293-305. DOI: 10.24272/j.issn.2095-8137.2019.042
shu
Yu Wang, Shan Gao, Yue Zhao, Chen Wei-Huang, Jun-Jie Shao, Wang Ni-Ni, Ming Li, Guang-Xian Zhou, Lei Wang, Wen-Jing Shen, Jing-Tao Xu, Wei-Dong Deng, Wen Wang, Yu-Lin Chen, Yu Jiang. 2019. Allele-specific expression and alternative splicing in horse×donkey and cattle×yak hybrids. Zoological Research, 40(4): 293-305. DOI: 10.24272/j.issn.2095-8137.2019.042
Citation: Yu Wang, Shan Gao, Yue Zhao, Chen Wei-Huang, Jun-Jie Shao, Wang Ni-Ni, Ming Li, Guang-Xian Zhou, Lei Wang, Wen-Jing Shen, Jing-Tao Xu, Wei-Dong Deng, Wen Wang, Yu-Lin Chen, Yu Jiang. 2019. Allele-specific expression and alternative splicing in horse×donkey and cattle×yak hybrids. Zoological Research, 40(4): 293-305. DOI: 10.24272/j.issn.2095-8137.2019.042
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在杂种动物骡子和犏牛中探究等位基因差异表达和差异剪接

Allele-specific expression and alternative splicing in horse×donkey and cattle×yak hybrids

    摘要
  • 摘要: 基因表达水平和基因选择性剪接的分歧是物种进化的重要驱动力,但其分子机制如今仍不清楚。近缘物种的种间杂交个体为分析等位基因差异表达(ASE)和等位基因差异可变剪接(ASS)提供了合适的模型。通过对近缘物种杂种个体(马×驴(骡子)和牛×牦牛(犏牛))的ASE基因和ASS基因的分析可以揭示近缘物种之间的顺式调控元件的差异,并可以消除环境等反式因子的干扰。在此项研究中,我们提供了包括来自马×驴(骡子)的皮肤、肌肉和脑3种组织的19个转录组数据以及来自牛×牦牛(犏牛)的耳和肝脏组织的10个转录组数据来分析互交杂种个体ASE和ASS基因的详细特征。结果显示,在骡子中4.8%–8.7%的基因以及犏牛中的10.8%–16.7%基因分别表现出等位基因差异表达和等位基因差异可变剪接。值得注意的是,lncRNA和假基因相比蛋白质编码基因更可能表现为等位基因差异表达现象。此外,在骡子中被发现的ASE基因和ASS基因参与肌肉力量的调节,而在犏牛中的则参与高海拔适应的相关通路。总之,我们的研究表明,在近缘物种的杂种动物中探索表示出ASE和ASS的基因对于物种进化研究是可行的。

     

    Abstract: Divergence of gene expression and alternative splicing is a crucial driving force in the evolution of species; to date, however the molecular mechanism remains unclear. Hybrids of closely related species provide a suitable model to analyze allele-specific expression (ASE) and allele-specific alternative splicing (ASS). Analysis of ASE and ASS can uncover the differences in cis-regulatory elements between closely related species, while eliminating interference of trans-regulatory elements. Here, we provide a detailed characterization of ASE and ASS from 19 and 10 transcriptome datasets across five tissues from reciprocal-cross hybrids of horse×donkey (mule/hinny) and cattle×yak (dzo), respectively. Results showed that 4.8%–8.7% and 10.8%–16.7% of genes exhibited ASE and ASS, respectively. Notably, lncRNAs and pseudogenes were more likely to show ASE than protein-coding genes. In addition, genes showing ASE and ASS in mule/hinny were found to be involved in the regulation of muscle strength, whereas those of dzo were involved in high-altitude adaptation. In conclusion, our study demonstrated that exploration of genes showing ASE and ASS in hybrids of closely related species is feasible for species evolution research.

     

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