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Molecular and evolutionary processes generating variation in gene expression
by
Vande Zande Pétra
, Hill, Mark S
, Wittkopp, Patricia J
in
Evolution
/ Gene expression
/ Molecular modelling
/ Mutation
/ Natural selection
/ Transcription
/ Variation
2021
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Molecular and evolutionary processes generating variation in gene expression
by
Vande Zande Pétra
, Hill, Mark S
, Wittkopp, Patricia J
in
Evolution
/ Gene expression
/ Molecular modelling
/ Mutation
/ Natural selection
/ Transcription
/ Variation
2021
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Molecular and evolutionary processes generating variation in gene expression
Journal Article
Molecular and evolutionary processes generating variation in gene expression
2021
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Overview
Heritable variation in gene expression is common within and between species. This variation arises from mutations that alter the form or function of molecular gene regulatory networks that are then filtered by natural selection. High-throughput methods for introducing mutations and characterizing their cis- and trans-regulatory effects on gene expression (particularly, transcription) are revealing how different molecular mechanisms generate regulatory variation, and studies comparing these mutational effects with variation seen in the wild are teasing apart the role of neutral and non-neutral evolutionary processes. This integration of molecular and evolutionary biology allows us to understand how the variation in gene expression we see today came to be and to predict how it is most likely to evolve in the future.In this Review, Hill et al. discuss how high-throughput methods for creating and characterizing mutations are providing insight into how regulatory variation is generated and evolves.
Publisher
Nature Publishing Group
Subject
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