Litcius/Paper detail

Antibiotic tolerance is associated with a broad and complex transcriptional response in E. coli

Heather S. Deter, Tahmina Hossain, Nicholas C. Butzin

2021Scientific Reports56 citationsDOIOpen Access PDF

Abstract

Antibiotic treatment kills a large portion of a population, while a small, tolerant subpopulation survives. Tolerant bacteria disrupt antibiotic efficacy and increase the likelihood that a population gains antibiotic resistance, a growing health concern. We examined how E. coli transcriptional networks changed in response to lethal ampicillin concentrations. We are the first to apply transcriptional regulatory network (TRN) analysis to antibiotic tolerance by leveraging existing knowledge and our transcriptional data. TRN analysis shows that gene expression changes specific to ampicillin treatment are likely caused by specific sigma and transcription factors typically regulated by proteolysis. These results demonstrate that to survive lethal concentration of ampicillin specific regulatory proteins change activity and cause a coordinated transcriptional response that leverages multiple gene systems.

Topics & Concepts

AmpicillinBiologyGeneMultidrug toleranceAntibioticsTranscriptional regulationTranscription (linguistics)Amp resistancePopulationGene expressionRegulation of gene expressionAntibiotic resistanceGeneticsEscherichia coliBacteriaMicrobiologyComputational biologyMedicineEnvironmental healthBiofilmLinguisticsPhilosophyBacterial Genetics and BiotechnologyEvolution and Genetic DynamicsRNA and protein synthesis mechanisms