What Has a Century of Quantitative Genetics Taught Us About Nature's Genetic Tool Kit?

IF 8.7 1区生物学 Q1 GENETICS & HEREDITY Annual review of genetics Pub Date : 2020-11-23 Epub Date: 2020-09-08 DOI:10.1146/annurev-genet-021920-102037

Christopher M Jakobson, Daniel F Jarosz

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引用次数: 6

Abstract

The complexity of heredity has been appreciated for decades: Many traits are controlled not by a single genetic locus but instead by polymorphisms throughout the genome. The importance of complex traits in biology and medicine has motivated diverse approaches to understanding their detailed genetic bases. Here, we focus on recent systematic studies, many in budding yeast, which have revealed that large numbers of all kinds of molecular variation, from noncoding to synonymous variants, can make significant contributions to phenotype. Variants can affect different traits in opposing directions, and their contributions can be modified by both the environment and the epigenetic state of the cell. The integration of prospective (synthesizing and analyzing variants) and retrospective (examining standing variation) approaches promises to reveal how natural selection shapes quantitative traits. Only by comprehensively understanding nature's genetic tool kit can we predict how phenotypes arise from the complex ensembles of genetic variants in living organisms.

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一个世纪的定量遗传学让我们了解了大自然的基因工具箱吗?

遗传的复杂性已经被人们认识了几十年:许多性状不是由单个基因座控制的，而是由整个基因组的多态性控制的。复杂性状在生物学和医学中的重要性促使人们采用多种方法来了解其详细的遗传基础。在这里，我们重点介绍了最近的系统研究，其中许多是在出芽酵母中，这些研究揭示了大量的各种分子变异，从非编码变异到同义变异，都可以对表型做出重大贡献。变异可以在相反的方向上影响不同的性状，它们的作用可以被环境和细胞的表观遗传状态所改变。前瞻性(综合和分析变异)和回顾性(检查常值变异)方法的整合有望揭示自然选择如何塑造数量性状。只有全面了解大自然的遗传工具箱，我们才能预测表型是如何从生物体中复杂的遗传变异中产生的。

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

Annual review of genetics 生物-遗传学

CiteScore

18.30

自引率

0.90%

发文量

期刊介绍： The Annual Review of Genetics, published since 1967, comprehensively covers significant advancements in genetics. It encompasses various areas such as biochemical, behavioral, cell, and developmental genetics, evolutionary and population genetics, chromosome structure and transmission, gene function and expression, mutation and repair, genomics, immunogenetics, and other topics related to the genetics of viruses, bacteria, fungi, plants, animals, and humans.

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