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Reactive Chlorine Species Reversibly Inhibit DnaB Protein Splicing in Mycobacteria

Christopher W. Lennon, Daniel Wahl, J Goetz, Joel Weinberger

2021Microbiology Spectrum15 citationsDOIOpen Access PDF

Abstract

Inteins are both widespread and abundant in microbes, including within several bacterial and fungal pathogens. Inteins are domains translated within host proteins and removed at the protein level by splicing. Traditionally considered molecular parasites, some inteins have emerged in recent years as adaptive posttranslational regulatory elements. Several studies have demonstrated CPS, in which the rate and accuracy of protein splicing, and thus host protein functions, are responsive to environmental conditions relevant to the intein-containing organism. In this work, we demonstrate that two naturally occurring RCS, including the active compound in household bleach, reversibly inhibit protein splicing of Mycobacterium leprae and Mycobacterium smegmatis DnaB inteins. In addition to describing a new physiologically relevant condition that can temporarily inhibit protein splicing, this study suggests a novel stress response in Mycobacterium, a bacterial genus of tremendous importance to humans.

Topics & Concepts

InteindnaB helicaseRNA splicingProtein splicingBiologyMycobacterium smegmatisGeneticsGeneBiochemistryCell biologyHelicaseRNAMycobacterium tuberculosisPathologyTuberculosisMedicineAntibiotic Resistance in BacteriaBacterial Genetics and BiotechnologyMycobacterium research and diagnosis