Genome-wide screening of antibiotic survival genes in Escherichia coli MG1655
Xinyu Li, Qinglei Gan, Chenguang Fan

TL;DR
This study identifies 172 genes in E. coli that help it survive antibiotics, offering new insights into antibiotic resistance mechanisms.
Contribution
A genome-wide screen identified 172 novel and known antibiotic survival genes in E. coli MG1655.
Findings
172 genes were found to increase antibiotic resistance when overexpressed.
These genes are involved in metabolism, stress responses, protein synthesis, and transporters.
Many of the identified genes had not been previously linked to antibiotic resistance.
Abstract
The widespread usage and exposure to non-lethal concentrations of antibiotics has made antibiotic resistance one of the top global health threats. Besides studying bacterial responses towards antibiotic treatment, identifying preexisting genes in bacterial genomes that could protect cells from antibiotics is another important approach to understanding the mechanisms of resistance. In this study, we tested each of the ~4,200 strains in the ASKA library, which is an overexpression library of Escherichia coli K-12 open reading frames, to identify potential antibiotic survival genes in E. coli against 12 types of commonly used antibiotics. In total, we identified 172 candidate genes, whose overexpression increased minimum inhibitory concentrations (MICs) by at least 3-fold against one or multiple antibiotics. These identified genes are mainly involved in metabolism, stress responses,…
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Taxonomy
TopicsBacterial Genetics and Biotechnology · Antibiotic Resistance in Bacteria · Pharmaceutical and Antibiotic Environmental Impacts
