牦牛和3个牛品系DNA甲基化模式的全基因组比较及其与mRNA转录的潜在关联

IF 1.8 3区 生物学 Q3 DEVELOPMENTAL BIOLOGY
Jin-Wei Xin, Zhi-Xin Chai, Hui Jiang, Han-Wen Cao, Xiao-Ying Chen, Cheng-Fu Zhang, Yong Zhu, Qiang Zhang, Qiu-Mei Ji
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引用次数: 1

摘要

牦牛进化出了适应高海拔环境的特殊机制。迄今为止,关于牦牛DNA甲基化的研究报道较少。本研究比较了牦牛与3个牛品种(藏牛、三江牛和荷斯坦牛)肺、乳腺和肱二头肌组织的全基因组DNA甲基组和转录组特征。分析了差异表达基因(DEGs)与差异甲基化区(DMRs)之间的关系,并通过KEGG富集分析探讨了DMRs可能驱动的DEGs的生物学功能。最后,我们发现牦牛特异性dmr驱动的deg主要参与神经调节、呼吸、肺发育、血压调节、心血管保护、能量代谢、DNA修复和免疫功能。与牛相比,在牦牛中观察到与这些功能相关的关键基因的水平更高,这表明DNA甲基化可能调节这些基因。本研究为进一步了解牦牛的生理代谢提供了DNA甲基化水平的基础数据。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Genome-wide comparison of DNA methylation patterns between yak and three cattle strains and their potential association with mRNA transcription

Genome-wide comparison of DNA methylation patterns between yak and three cattle strains and their potential association with mRNA transcription

Yak has evolved specific adaptative mechanisms to high-altitude environment. Up to date, only a few studies reported the DNA methylation in yak. In the present study, genome-wide DNA methylome and transcriptome profiles in lung, mammary, and biceps brachii muscle tissues were compared between yak and three cattle breeds (Tibetan cattle, Sanjiang cattle, and Holstein cattle). The association between differentially expressed genes (DEGs) and differentially methylated regions (DMRs) was analyzed, and the biological functions of DEGs potentially driven by DMRs were explored by KEGG enrichment analysis. Finally, we found that yak-specific DMRs-driven DEGs were mainly involved in neuromodulation, respiration, lung development, blood pressure regulation, cardiovascular protection, energy metabolism, DNA repair, and immune functions. The higher levels of the key genes associated with these functions were observed in yak than in cattle, suggesting that DNA methylation might regulate these genes. Overall, the present study contributes basic data at the DNA methylation level to further understand the physiological metabolism in yak.

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来源期刊
CiteScore
4.80
自引率
9.10%
发文量
63
审稿时长
6-12 weeks
期刊介绍: Developmental Evolution is a branch of evolutionary biology that integrates evidence and concepts from developmental biology, phylogenetics, comparative morphology, evolutionary genetics and increasingly also genomics, systems biology as well as synthetic biology to gain an understanding of the structure and evolution of organisms. The Journal of Experimental Zoology -B: Molecular and Developmental Evolution provides a forum where these fields are invited to bring together their insights to further a synthetic understanding of evolution from the molecular through the organismic level. Contributions from all these branches of science are welcome to JEZB. We particularly encourage submissions that apply the tools of genomics, as well as systems and synthetic biology to developmental evolution. At this time the impact of these emerging fields on developmental evolution has not been explored to its fullest extent and for this reason we are eager to foster the relationship of systems and synthetic biology with devo evo.
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