New genes drive the evolution of gene interaction networks in the human and mouse genomes.

IF 12.3 1区 生物学 Q1 Agricultural and Biological Sciences
Wenyu Zhang, Patrick Landback, Andrea R Gschwend, Bairong Shen, Manyuan Long
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引用次数: 80

Abstract

Background: The origin of new genes with novel functions creates genetic and phenotypic diversity in organisms. To acquire functional roles, new genes must integrate into ancestral gene-gene interaction (GGI) networks. The mechanisms by which new genes are integrated into ancestral networks, and their evolutionary significance, are yet to be characterized. Herein, we present a study investigating the rates and patterns of new gene-driven evolution of GGI networks in the human and mouse genomes.

Results: We examine the network topological and functional evolution of new genes that originated at various stages in the human and mouse lineages by constructing and analyzing three different GGI datasets. We find a large number of new genes integrated into GGI networks throughout vertebrate evolution. These genes experienced a gradual integration process into GGI networks, starting on the network periphery and gradually becoming highly connected hubs, and acquiring pleiotropic and essential functions. We identify a few human lineage-specific hub genes that have evolved brain development-related functions. Finally, we explore the possible underlying mechanisms driving the GGI network evolution and the observed patterns of new gene integration process.

Conclusions: Our results unveil a remarkable network topological integration process of new genes: over 5000 new genes were integrated into the ancestral GGI networks of human and mouse; new genes gradually acquire increasing number of gene partners; some human-specific genes evolved into hub structure with critical phenotypic effects. Our data cast new conceptual insights into the evolution of genetic networks.

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新基因驱动人类和小鼠基因组中基因相互作用网络的进化。
背景:具有新功能的新基因的起源在生物体中创造了遗传和表型的多样性。为了获得功能作用,新基因必须整合到祖先基因-基因相互作用(GGI)网络中。新基因融入祖先网络的机制,以及它们的进化意义,还有待研究。在此,我们提出了一项研究,调查了人类和小鼠基因组中GGI网络的新基因驱动进化的速率和模式。结果:通过构建和分析三种不同的GGI数据集,我们研究了人类和小鼠谱系中起源于不同阶段的新基因的网络拓扑结构和功能进化。我们在脊椎动物的进化过程中发现了大量的新基因整合到GGI网络中。这些基因经历了一个逐渐融入GGI网络的过程,从网络外围开始,逐渐成为高度连接的枢纽,并获得多效性和基本功能。我们确定了一些人类谱系特异性中枢基因,这些基因已经进化出与大脑发育相关的功能。最后,我们探讨了驱动GGI网络进化的潜在机制以及新基因整合过程的观察模式。结论:我们的研究结果揭示了新基因的网络拓扑整合过程:超过5000个新基因被整合到人类和小鼠的祖先GGI网络中;新基因逐渐获得越来越多的基因伴侣;一些人类特有的基因进化成具有关键表型效应的枢纽结构。我们的数据为基因网络的进化提供了新的概念见解。
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来源期刊
Genome Biology
Genome Biology BIOTECHNOLOGY & APPLIED MICROBIOLOGY-GENETICS & HEREDITY
CiteScore
25.50
自引率
3.30%
发文量
0
审稿时长
14 weeks
期刊介绍: Genome Biology is a leading research journal that focuses on the study of biology and biomedicine from a genomic and post-genomic standpoint. The journal consistently publishes outstanding research across various areas within these fields. With an impressive impact factor of 12.3 (2022), Genome Biology has earned its place as the 3rd highest-ranked research journal in the Genetics and Heredity category, according to Thomson Reuters. Additionally, it is ranked 2nd among research journals in the Biotechnology and Applied Microbiology category. It is important to note that Genome Biology is the top-ranking open access journal in this category. In summary, Genome Biology sets a high standard for scientific publications in the field, showcasing cutting-edge research and earning recognition among its peers.
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