Polyploidy and the evolution of phenotypic integration: Network analysis reveals relationships among anatomy, morphology, and physiology

IF 2.7 3区生物学 Q2 PLANT SCIENCES Applications in Plant Sciences Pub Date : 2024-07-16 DOI:10.1002/aps3.11605

Robert L. Baker, Grace L. Brock, Eastyn L. Newsome, Meixia Zhao

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Abstract

Premise

Most traits are polygenic and most genes are pleiotropic, resulting in complex, integrated phenotypes. Polyploidy presents an excellent opportunity to explore the evolution of phenotypic integration as entire genomes are duplicated, allowing for new associations among traits and potentially leading to enhanced or reduced phenotypic integration. Despite the multivariate nature of phenotypic evolution, studies often rely on simplistic bivariate correlations that cannot accurately represent complex phenotypes or data reduction techniques that can obscure specific trait relationships.

Methods

We apply network modeling, a common gene co-expression analysis, to the study of phenotypic integration to identify multivariate patterns of phenotypic evolution, including anatomy and morphology (structural) and physiology (functional) traits in response to whole genome duplication in the genus Brassica.

Results

We identify four key structural traits that are overrepresented in the evolution of phenotypic integration. Seeding networks with key traits allowed us to identify structure–function relationships not apparent from bivariate analyses. In general, allopolyploids exhibited larger, more robust networks indicative of increased phenotypic integration compared to diploids.

Discussion

Phenotypic network analysis may provide important insights into the effects of selection on non-target traits, even when they lack direct correlations with the target traits. Network analysis may allow for more nuanced predictions of both natural and artificial selection.

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多倍体与表型整合的进化：网络分析揭示解剖学、形态学和生理学之间的关系

前提大多数性状是多基因性的，而大多数基因是多效的，从而导致复杂的综合表型。多倍体是探索表型整合进化的绝佳机会，因为整个基因组被复制，使性状之间产生新的关联，并可能导致表型整合的增强或减弱。尽管表型进化具有多变量的性质，但研究往往依赖于简单的二变量相关性，而这种相关性不能准确地代表复杂的表型，或者依赖于数据缩减技术，而这种技术可能会掩盖特定的性状关系。方法我们将网络建模（一种常见的基因共表达分析方法）应用于表型整合研究，以确定表型进化的多变量模式，包括芸苔属全基因组复制时的解剖学和形态学（结构）以及生理学（功能）性状。利用关键性状构建网络使我们能够识别双变量分析中不明显的结构-功能关系。一般来说，与二倍体相比，异源多倍体表现出更大、更稳健的网络，表明表型整合程度有所提高。讨论表型网络分析可为了解选择对非目标性状的影响提供重要信息，即使这些性状与目标性状缺乏直接相关性。网络分析可以对自然选择和人工选择进行更细致的预测。

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来源期刊

Applications in Plant Sciences PLANT SCIENCES-

CiteScore

7.30

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Applications in Plant Sciences (APPS) is a monthly, peer-reviewed, open access journal promoting the rapid dissemination of newly developed, innovative tools and protocols in all areas of the plant sciences, including genetics, structure, function, development, evolution, systematics, and ecology. Given the rapid progress today in technology and its application in the plant sciences, the goal of APPS is to foster communication within the plant science community to advance scientific research. APPS is a publication of the Botanical Society of America, originating in 2009 as the American Journal of Botany''s online-only section, AJB Primer Notes & Protocols in the Plant Sciences. APPS publishes the following types of articles: (1) Protocol Notes describe new methods and technological advancements; (2) Genomic Resources Articles characterize the development and demonstrate the usefulness of newly developed genomic resources, including transcriptomes; (3) Software Notes detail new software applications; (4) Application Articles illustrate the application of a new protocol, method, or software application within the context of a larger study; (5) Review Articles evaluate available techniques, methods, or protocols; (6) Primer Notes report novel genetic markers with evidence of wide applicability.

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