Disentangling variational bias: the roles of development, mutation, and selection.

IF 13.6 2区 生物学 Q1 GENETICS & HEREDITY
Haoran Cai, Diogo Melo, David L Des Marais
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引用次数: 0

Abstract

The extraordinary diversity and adaptive fit of organisms to their environment depends fundamentally on the availability of variation. While most population genetic frameworks assume that random mutations produce isotropic phenotypic variation, the distribution of variation available to natural selection is more restricted, as the distribution of phenotypic variation is affected by a range of factors in developmental systems. Here, we revisit the concept of developmental bias - the observation that the generation of phenotypic variation is biased due to the structure, character, composition, or dynamics of the developmental system - and argue that a more rigorous investigation into the role of developmental bias in the genotype-to-phenotype map will produce fundamental insights into evolutionary processes, with potentially important consequences on the relation between micro- and macro-evolution. We discuss the hierarchical relationships between different types of variational biases, including mutation bias and developmental bias, and their roles in shaping the realized phenotypic space. Furthermore, we highlight the challenges in studying variational bias and propose potential approaches to identify developmental bias using modern tools.

分解变异偏差:发育、变异和选择的作用。
生物的非凡多样性和对环境的适应性从根本上取决于变异的可用性。虽然大多数群体遗传学框架都假定随机突变会产生各向同性的表型变异,但由于表型变异的分布受到发育系统中一系列因素的影响,自然选择可用的变异分布受到更多限制。在这里,我们重新审视了发育偏倚的概念--即表型变异的产生因发育系统的结构、特征、组成或动态而产生偏倚--并认为,对发育偏倚在基因型到表型图谱中的作用进行更严格的研究,将对进化过程产生根本性的启示,并可能对微观和宏观进化之间的关系产生重要影响。我们讨论了不同类型的变异偏倚(包括突变偏倚和发育偏倚)之间的等级关系,以及它们在塑造已实现的表型空间中的作用。此外,我们还强调了研究变异偏倚所面临的挑战,并提出了利用现代工具识别发育偏倚的潜在方法。
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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来源期刊
Trends in Genetics
Trends in Genetics 生物-遗传学
CiteScore
20.90
自引率
0.90%
发文量
160
审稿时长
6-12 weeks
期刊介绍: Launched in 1985, Trends in Genetics swiftly established itself as a "must-read" for geneticists, offering concise, accessible articles covering a spectrum of topics from developmental biology to evolution. This reputation endures, making TiG a cherished resource in the genetic research community. While evolving with the field, the journal now embraces new areas like genomics, epigenetics, and computational genetics, alongside its continued coverage of traditional subjects such as transcriptional regulation, population genetics, and chromosome biology. Despite expanding its scope, the core objective of TiG remains steadfast: to furnish researchers and students with high-quality, innovative reviews, commentaries, and discussions, fostering an appreciation for advances in genetic research. Each issue of TiG presents lively and up-to-date Reviews and Opinions, alongside shorter articles like Science & Society and Spotlight pieces. Invited from leading researchers, Reviews objectively chronicle recent developments, Opinions provide a forum for debate and hypothesis, and shorter articles explore the intersection of genetics with science and policy, as well as emerging ideas in the field. All articles undergo rigorous peer-review.
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