人类代谢网络中的基因连通性和酶进化。

Gene connectivity and enzyme evolution in the human metabolic network.

机构信息

Institut de Biologia Evolutiva (UPF-CSIC), Universitat Pompeu Fabra, Dr. Aiguader 88, 08003, Barcelona, Catalonia, Spain.

Dipartimento di Biomedicina Comparata e Alimentazione, Università degli Studi di Padova, Padua, Italy.

出版信息

Biol Direct. 2019 Sep 3;14(1):17. doi: 10.1186/s13062-019-0248-7.

DOI:10.1186/s13062-019-0248-7

PMID:31481097

原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC6724310/

Abstract

BACKGROUND

Determining the factors involved in the likelihood of a gene being under adaptive selection is still a challenging goal in Evolutionary Biology. Here, we perform an evolutionary analysis of the human metabolic genes to explore the associations between network structure and the presence and strength of natural selection in the genes whose products are involved in metabolism. Purifying and positive selection are estimated at interspecific (among mammals) and intraspecific (among human populations) levels, and the connections between enzymatic reactions are differentiated between incoming (in-degree) and outgoing (out-degree) links.

RESULTS

We confirm that purifying selection has been stronger in highly connected genes. Long-term positive selection has targeted poorly connected enzymes, whereas short-term positive selection has targeted different enzymes depending on whether the selective sweep has reached fixation in the population: genes under a complete selective sweep are poorly connected, whereas those under an incomplete selective sweep have high out-degree connectivity. The last steps of pathways are more conserved due to stronger purifying selection, with long-term positive selection targeting preferentially enzymes that catalyze the first steps. However, short-term positive selection has targeted enzymes that catalyze the last steps in the metabolic network. Strong signals of positive selection have been found for metabolic processes involved in lipid transport and membrane fluidity and permeability.

CONCLUSIONS

Our analysis highlights the importance of analyzing the same biological system at different evolutionary timescales to understand the evolution of metabolic genes and of distinguishing between incoming and outgoing links in a metabolic network. Short-term positive selection has targeted enzymes with a different connectivity profile depending on the completeness of the selective sweep, while long-term positive selection has targeted genes with fewer connections that code for enzymes that catalyze the first steps in the network.

REVIEWERS

This article was reviewed by Diamantis Sellis and Brandon Invergo.

摘要

背景

确定基因处于适应选择的可能性涉及的因素仍然是进化生物学中的一个具有挑战性的目标。在这里，我们对人类代谢基因进行了进化分析，以探索网络结构与参与代谢的基因中自然选择的存在和强度之间的关联。在种间（哺乳动物之间）和种内（人类群体之间）水平上估计了纯化选择和正选择，并且区分了酶反应之间的连接为传入（入度）和传出（出度）链接。

结果

我们证实，在高度连接的基因中，纯化选择更为强烈。长期正选择的目标是连接较差的酶，而短期正选择则根据选择扫掠过是否已在群体中达到固定而针对不同的酶：处于完全选择扫掠过的基因连接较差，而处于不完全选择扫掠过的基因具有较高的出度连接。由于更强的纯化选择，途径的最后步骤更为保守，长期正选择优先针对催化第一步骤的酶。但是，短期正选择针对代谢网络中最后步骤的酶。在涉及脂质转运和膜流动性和通透性的代谢过程中发现了强烈的正选择信号。

结论

我们的分析强调了在不同的进化时间尺度上分析同一生物系统以了解代谢基因的进化以及区分代谢网络中的传入和传出链接的重要性。短期正选择针对的是具有不同连接性特征的酶，具体取决于选择扫掠过的完整性，而长期正选择针对的是连接较少的基因，这些基因编码催化网络中第一步的酶。

评论者

这篇文章由 Diamantis Sellis 和 Brandon Invergo 进行了审查。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/1058/6724310/16abba79068b/13062_2019_248_Fig1_HTML.jpg

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人类代谢网络中的基因连通性和酶进化。

Gene connectivity and enzyme evolution in the human metabolic network.

机构信息

出版信息

BACKGROUND

RESULTS

CONCLUSIONS

REVIEWERS

背景

结果

结论

评论者

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