Protein over-expression in Escherichia coli triggers adaptation analogous to antimicrobial resistance
Protein over-expression in Escherichia coli triggers adaptation analogous to antimicrobial resistance
Background: the E. coli pET system is the most widely used protein over-expression system worldwide. It relies on the assumption that all cells produce target protein and it is generally believed that integral membrane protein (IMP) over-expression is more toxic than their soluble counterparts.
Results: using GFP-tagged proteins, high level over-expression of either soluble or IMP targets results in > 99.9% cell loss with survival rate of only < 0.03%. Selective pressure generates three phenotypes: large green, large white and small colony variants. As a result, in overnight cultures, ~ 50% of the overall cell mass produces no protein. Genome sequencing of the phenotypes revealed genomic mutations that causes either the loss of T7 RNAP activity or its transcriptional downregulation. The over-expression process is bactericidal and is observed for both soluble and membrane proteins.
Conclusions: we demonstrate that it is the act of high-level over-expression of exogenous proteins in E. coli that sets in motion a chain of events leading to > 99.9% cell death. These results redefine our understanding of protein over-production and link it to the adaptive survival response seen in the development of antimicrobial resistance.
Adaptation, Physiological/genetics, Anti-Bacterial Agents/pharmacology, Computational Biology/methods, Drug Resistance, Bacterial/genetics, Escherichia coli/drug effects, Escherichia coli Proteins/genetics, Gene Expression Regulation, Bacterial, Membrane Proteins/genetics, Microbial Viability/drug effects, Mutation
13
James, Jack
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Yarnall, Benjamin
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Koranteng, Andy
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Gibson, Jane
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Rahman, Tahmina
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Doyle, Declan A
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James, Jack
8cf65f54-749e-44c4-aa59-3a69c472fc95
Yarnall, Benjamin
a2780324-40c1-4a8e-aa4c-e833de2bfb7b
Koranteng, Andy
5cf1216d-1892-47b2-9ce0-f775be1d8686
Gibson, Jane
62ecc833-c348-44a1-be5c-3010d15eccf1
Rahman, Tahmina
5bcfdf90-f5f1-4763-8966-3dcece000fa0
Doyle, Declan A
f85f52c8-ce43-4f15-bd06-1df106f73b26
James, Jack, Yarnall, Benjamin, Koranteng, Andy, Gibson, Jane, Rahman, Tahmina and Doyle, Declan A
(2021)
Protein over-expression in Escherichia coli triggers adaptation analogous to antimicrobial resistance.
Microbial cell factories, 20 (1), .
(doi:10.1186/s12934-020-01462-6).
Abstract
Background: the E. coli pET system is the most widely used protein over-expression system worldwide. It relies on the assumption that all cells produce target protein and it is generally believed that integral membrane protein (IMP) over-expression is more toxic than their soluble counterparts.
Results: using GFP-tagged proteins, high level over-expression of either soluble or IMP targets results in > 99.9% cell loss with survival rate of only < 0.03%. Selective pressure generates three phenotypes: large green, large white and small colony variants. As a result, in overnight cultures, ~ 50% of the overall cell mass produces no protein. Genome sequencing of the phenotypes revealed genomic mutations that causes either the loss of T7 RNAP activity or its transcriptional downregulation. The over-expression process is bactericidal and is observed for both soluble and membrane proteins.
Conclusions: we demonstrate that it is the act of high-level over-expression of exogenous proteins in E. coli that sets in motion a chain of events leading to > 99.9% cell death. These results redefine our understanding of protein over-production and link it to the adaptive survival response seen in the development of antimicrobial resistance.
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s12934-020-01462-6
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e-pub ahead of print date: 11 January 2021
Keywords:
Adaptation, Physiological/genetics, Anti-Bacterial Agents/pharmacology, Computational Biology/methods, Drug Resistance, Bacterial/genetics, Escherichia coli/drug effects, Escherichia coli Proteins/genetics, Gene Expression Regulation, Bacterial, Membrane Proteins/genetics, Microbial Viability/drug effects, Mutation
Identifiers
Local EPrints ID: 457194
URI: http://eprints.soton.ac.uk/id/eprint/457194
ISSN: 1475-2859
PURE UUID: 66870bde-2855-44cf-bc03-06addbb2db01
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Date deposited: 26 May 2022 16:36
Last modified: 16 Mar 2024 17:19
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Author:
Jack James
Author:
Benjamin Yarnall
Author:
Andy Koranteng
Author:
Jane Gibson
Author:
Tahmina Rahman
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