Mutation bias and adaptation in bacteria

James s. Horton; Tiffany b. Taylor

doi:10.1099/mic.0.001404

Mutation bias and adaptation in bacteria

James s. Horton, Tiffany b. Taylor

Research output: Contribution to journal › Review article › peer-review

10 Citations (SciVal)

Abstract

Genetic mutation, which provides the raw material for evolutionary adaptation, is largely a stochastic force. However, there is ample evidence showing that mutations can also exhibit strong biases, with some mutation types and certain genomic positions mutating more often than others. It is becoming increasingly clear that mutational bias can play a role in determining adaptive outcomes in bacteria in both the laboratory and the clinic. As such, understanding the causes and consequences of mutation bias can help microbiologists to anticipate and predict adaptive outcomes. In this review, we provide an overview of the mechanisms and features of the bacterial genome that cause mutational biases to occur. We then describe the environmental triggers that drive these mechanisms to be more potent and outline the adaptive scenarios where mutation bias can synergize with natural selection to define evolutionary outcomes. We conclude by describing how understanding mutagenic genomic features can help microbiologists predict areas sensitive to mutational bias, and finish by outlining future work that will help us achieve more accurate evolutionary forecasts.

Original language	English
Article number	001404
Number of pages	16
Journal	Microbiology
Volume	169
Issue number	11
DOIs	https://doi.org/10.1099/mic.0.001404
Publication status	Published - 9 Nov 2023

Bibliographical note

Funding information: This project was supported by a BBSRC NI grant (BB/T012994/1) awarded to T.B.T and supporting J.S.H, and a Royal Society Dorothy Hodgkin Research Fellowship (DH150169) awarded to and supporting T.B.T.

Keywords

adaptation
bacterial evolution
evolutionary forecasting
mutation bias
mutation hotspot
stress response

ASJC Scopus subject areas

Microbiology

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10.1099/mic.0.001404Licence: CC BY

https://www.microbiologyresearch.org/content/journal/micro/10.1099/mic.0.001404

Cite this

@article{36509836c4244af4886a518c64c4c9cd,

title = "Mutation bias and adaptation in bacteria",

abstract = "Genetic mutation, which provides the raw material for evolutionary adaptation, is largely a stochastic force. However, there is ample evidence showing that mutations can also exhibit strong biases, with some mutation types and certain genomic positions mutating more often than others. It is becoming increasingly clear that mutational bias can play a role in determining adaptive outcomes in bacteria in both the laboratory and the clinic. As such, understanding the causes and consequences of mutation bias can help microbiologists to anticipate and predict adaptive outcomes. In this review, we provide an overview of the mechanisms and features of the bacterial genome that cause mutational biases to occur. We then describe the environmental triggers that drive these mechanisms to be more potent and outline the adaptive scenarios where mutation bias can synergize with natural selection to define evolutionary outcomes. We conclude by describing how understanding mutagenic genomic features can help microbiologists predict areas sensitive to mutational bias, and finish by outlining future work that will help us achieve more accurate evolutionary forecasts.",

keywords = "adaptation, bacterial evolution, evolutionary forecasting, mutation bias, mutation hotspot, stress response",

author = "Horton, {James s.} and Taylor, {Tiffany b.}",

note = "Funding information: This project was supported by a BBSRC NI grant (BB/T012994/1) awarded to T.B.T and supporting J.S.H, and a Royal Society Dorothy Hodgkin Research Fellowship (DH150169) awarded to and supporting T.B.T.",

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AU - Taylor, Tiffany b.

N1 - Funding information: This project was supported by a BBSRC NI grant (BB/T012994/1) awarded to T.B.T and supporting J.S.H, and a Royal Society Dorothy Hodgkin Research Fellowship (DH150169) awarded to and supporting T.B.T.

PY - 2023/11/9

Y1 - 2023/11/9

N2 - Genetic mutation, which provides the raw material for evolutionary adaptation, is largely a stochastic force. However, there is ample evidence showing that mutations can also exhibit strong biases, with some mutation types and certain genomic positions mutating more often than others. It is becoming increasingly clear that mutational bias can play a role in determining adaptive outcomes in bacteria in both the laboratory and the clinic. As such, understanding the causes and consequences of mutation bias can help microbiologists to anticipate and predict adaptive outcomes. In this review, we provide an overview of the mechanisms and features of the bacterial genome that cause mutational biases to occur. We then describe the environmental triggers that drive these mechanisms to be more potent and outline the adaptive scenarios where mutation bias can synergize with natural selection to define evolutionary outcomes. We conclude by describing how understanding mutagenic genomic features can help microbiologists predict areas sensitive to mutational bias, and finish by outlining future work that will help us achieve more accurate evolutionary forecasts.

AB - Genetic mutation, which provides the raw material for evolutionary adaptation, is largely a stochastic force. However, there is ample evidence showing that mutations can also exhibit strong biases, with some mutation types and certain genomic positions mutating more often than others. It is becoming increasingly clear that mutational bias can play a role in determining adaptive outcomes in bacteria in both the laboratory and the clinic. As such, understanding the causes and consequences of mutation bias can help microbiologists to anticipate and predict adaptive outcomes. In this review, we provide an overview of the mechanisms and features of the bacterial genome that cause mutational biases to occur. We then describe the environmental triggers that drive these mechanisms to be more potent and outline the adaptive scenarios where mutation bias can synergize with natural selection to define evolutionary outcomes. We conclude by describing how understanding mutagenic genomic features can help microbiologists predict areas sensitive to mutational bias, and finish by outlining future work that will help us achieve more accurate evolutionary forecasts.

KW - adaptation

KW - bacterial evolution

KW - evolutionary forecasting

KW - mutation bias

KW - mutation hotspot

KW - stress response

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DO - 10.1099/mic.0.001404

M3 - Review article

SN - 1350-0872

VL - 169

JO - Microbiology

JF - Microbiology

IS - 11

M1 - 001404

ER -

Mutation bias and adaptation in bacteria

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Predicting evolution: using comparative experimental evolution to test the role of mutation, selection and genetic background on repeatable evolution

Cite this

Mutation bias and adaptation in bacteria

Abstract

Bibliographical note

Keywords

ASJC Scopus subject areas

Access to Document

Other files and links

Fingerprint

Projects

Predicting evolution: using comparative experimental evolution to test the role of mutation, selection and genetic background on repeatable evolution

Cite this