通过模块化物种的体细胞遗传变异进行进化。

Evolution via somatic genetic variation in modular species.

机构信息

Marine Evolutionary Ecology, GEOMAR Helmholtz Centre for Ocean Research Kiel, Kiel, Germany; Faculty of Mathematics and Natural Sciences, Christian-Albrechts University of Kiel, Christian‑Albrechts‑Platz 4, 24118 Kiel, Germany.

Department of Biology, The Pennsylvania State University, University Park, PA, USA.

出版信息

Trends Ecol Evol. 2021 Dec;36(12):1083-1092. doi: 10.1016/j.tree.2021.08.011. Epub 2021 Sep 16.

DOI:10.1016/j.tree.2021.08.011

PMID:34538501

Abstract

Somatic genetic variation (SoGV) may play a consequential yet underappreciated role in long-lived, modular species among plants, animals, and fungi. Recent genomic data identified two levels of genetic heterogeneity, between cell lines and between modules, that are subject to multilevel selection. Because SoGV can transfer into gametes when germlines are sequestered late in ontogeny (plants, algae, and fungi and some basal animals), sexual and asexual processes provide interdependent routes of mutational input and impact the accumulation of genetic load and molecular evolution rates of the integrated asexual/sexual life cycle. Avenues for future research include possible fitness effects of SoGV, the identification and implications of multilevel selection, and modeling of asexual selective sweeps using approaches from tumor evolution.

摘要

体细胞遗传变异（SoGV）可能在植物、动物和真菌等长寿命、模块化物种中发挥重要但尚未被充分认识的作用。最近的基因组数据确定了遗传异质性的两个层次，即细胞系之间和模块之间，它们受到多层次选择的影响。因为 SoGV 可以在个体发生后期（植物、藻类、真菌和一些基础动物）将生殖细胞隔离时转移到配子中，有性和无性过程提供了相互依存的突变输入途径，并影响遗传负荷的积累和整合无性/有性生命周期的分子进化率。未来的研究方向包括 SoGV 的可能适应度效应、多层次选择的识别和影响，以及使用肿瘤进化方法对无性选择清除的建模。

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通过模块化物种的体细胞遗传变异进行进化。

Evolution via somatic genetic variation in modular species.

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