Exploring large-scale gene coexpression networks in peach (Prunus persica L.): a new tool for predicting gene function.

IF 7.6 Q1 GENETICS & HEREDITY
园艺研究(英文) Pub Date : 2024-01-02 eCollection Date: 2024-02-01 DOI:10.1093/hr/uhad294
Felipe Pérez de Los Cobos, Beatriz E García-Gómez, Luis Orduña-Rubio, Ignasi Batlle, Pere Arús, José Tomás Matus, Iban Eduardo
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引用次数: 0

Abstract

Peach is a model for Prunus genetics and genomics, however, identifying and validating genes associated to peach breeding traits is a complex task. A gene coexpression network (GCN) capable of capturing stable gene-gene relationships would help researchers overcome the intrinsic limitations of peach genetics and genomics approaches and outline future research opportunities. In this study, we created four GCNs from 604 Illumina RNA-Seq libraries. We evaluated the performance of every GCN in predicting functional annotations using an algorithm based on the 'guilty-by-association' principle. The GCN with the best performance was COO300, encompassing 21 956 genes. To validate its performance predicting gene function, we performed two case studies. In case study 1, we used two genes involved in fruit flesh softening: the endopolygalacturonases PpPG21 and PpPG22. Genes coexpressing with both genes were extracted and referred to as melting flesh (MF) network. Finally, we performed an enrichment analysis of MF network and compared the results with the current knowledge regarding peach fruit softening. The MF network mostly included genes involved in cell wall expansion and remodeling, and with expressions triggered by ripening-related phytohormones, such as ethylene, auxin, and methyl jasmonate. In case study 2, we explored potential targets of the anthocyanin regulator PpMYB10.1 by comparing its gene-centered coexpression network with that of its grapevine orthologues, identifying a common regulatory network. These results validated COO300 as a powerful tool for peach and Prunus research. This network, renamed as PeachGCN v1.0, and the scripts required to perform a function prediction analysis are available at https://github.com/felipecobos/PeachGCN.

探索桃(Prunus persica L.)中的大规模基因共表达网络:预测基因功能的新工具。
水蜜桃是李属植物遗传学和基因组学的典范,然而,识别和验证与水蜜桃育种性状相关的基因是一项复杂的任务。能够捕捉稳定的基因-基因关系的基因共表达网络(GCN)将有助于研究人员克服桃遗传学和基因组学方法的内在局限性,并勾勒出未来的研究机会。在本研究中,我们从 604 个 Illumina RNA-Seq 文库中创建了四个 GCN。我们使用基于 "有罪关联 "原则的算法评估了每个 GCN 在预测功能注释方面的性能。性能最好的 GCN 是 COO300,包含 21 956 个基因。为了验证其预测基因功能的性能,我们进行了两项案例研究。在案例研究 1 中,我们使用了两个参与果肉软化的基因:内多聚半乳糖醛酸酶 PpPG21 和 PpPG22。我们提取了与这两个基因共表达的基因,并将其称为果肉融化(MF)网络。最后,我们对 MF 网络进行了富集分析,并将分析结果与目前有关桃果软化的知识进行了比较。MF 网络主要包括参与细胞壁扩张和重塑的基因,以及由成熟相关植物激素(如乙烯、辅助素和茉莉酸甲酯)引发表达的基因。在案例研究 2 中,我们通过比较花青素调控因子 PpMYB10.1 与葡萄同源物的基因中心共表达网络,发现了一个共同的调控网络,从而探索了花青素调控因子 PpMYB10.1 的潜在靶标。这些结果验证了 COO300 是桃和李研究的有力工具。该网络已更名为 PeachGCN v1.0,执行功能预测分析所需的脚本可在 https://github.com/felipecobos/PeachGCN 上获取。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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CiteScore
12.90
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0.00%
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