mBio (Jun 2019)
Mycobacterial SigA and SigB Cotranscribe Essential Housekeeping Genes during Exponential Growth
Abstract
ABSTRACT Mycobacterial σB belongs to the group II family of sigma factors, which are widely considered to transcribe genes required for stationary-phase survival and the response to stress. Here we explored the mechanism underlying the observed hypersensitivity of ΔsigB deletion mutants of Mycobacteriumsmegmatis, M. abscessus, and M. tuberculosis to rifampin (RIF) and uncovered an additional constitutive role of σB during exponential growth of mycobacteria that complements the function of the primary sigma factor, σA. Using chromatin immunoprecipitation sequencing (ChIP-Seq), we show that during exponential phase, σB binds to over 200 promoter regions, including those driving expression of essential housekeeping genes, like the rRNA gene. ChIP-Seq of ectopically expressed σA-FLAG demonstrated that at least 61 promoter sites are recognized by both σA and σB. These results together suggest that RNA polymerase holoenzymes containing either σA or σB transcribe housekeeping genes in exponentially growing mycobacteria. The RIF sensitivity of the ΔsigB mutant possibly reflects a decrease in the effective housekeeping holoenzyme pool, which results in susceptibility of the mutant to lower doses of RIF. Consistent with this model, overexpression of σA restores the RIF tolerance of the ΔsigB mutant to that of the wild type, concomitantly ruling out a specialized role of σB in RIF tolerance. Although the properties of mycobacterial σB parallel those of Escherichiacoli σ38 in its ability to transcribe a subset of housekeeping genes, σB presents a clear departure from the E. coli paradigm, wherein the cellular levels of σ38 are tightly controlled during exponential growth, such that the transcription of housekeeping genes is initiated exclusively by a holoenzyme containing σ70 (E.σ70). IMPORTANCE All mycobacteria encode a group II sigma factor, σB, closely related to the group I principal housekeeping sigma factor, σA. Group II sigma factors are widely believed to play specialized roles in the general stress response and stationary-phase transition in the bacteria that encode them. Contrary to this widely accepted view, we show an additional housekeeping function of σB that complements the function of σA in logarithmically growing cells. These findings implicate a novel and dynamic partnership between σA and σB in maintaining the expression of housekeeping genes in mycobacteria and can perhaps be extended to other bacterial species that possess multiple group II sigma factors.
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