Mycobacterium Tuberculosis Gene Expression During Adaptation to Stationary Phase and Low-oxygen Dormancy

Overview

Journal Tuberculosis (Edinb)

Specialties Infectious Diseases
Pulmonary Medicine

Date 2004 Jun 23

PMID 15207491

Citations 231

Authors

M I Voskuil

K C Visconti

G K Schoolnik

Affiliations

Soon will be listed here.

Abstract

The innate mechanisms used by Mycobacterium tuberculosis to persist during periods of non-proliferation are central to understanding the physiology of the bacilli during latent disease. We have used whole genome expression profiling to expose adaptive mechanisms initiated by M. tuberculosis in two common models of M. tuberculosis non-proliferation. The first of these models was a standard growth curve in which gene expression changes were followed from exponential growth through the transition to stationary phase. In the second model, we followed the adaptive process of M. tuberculosis during transition from aerobic growth to a state of anaerobic non-replicating persistence. The most striking finding from these experiments was the strong induction of the entire DosR "dormancy" regulon over approximately 20 days during the long transition to an anaerobic state. This is contrasted by the muted overall response to aerated stationary phase with only a partial dormancy regulon response. From the results presented here we conclude that the respiration-limited environment of the oxygen-depleted NRP model recreates at least one fundamental factor for which the genome of M. tuberculosis encodes a decisive adaptive program.

Citing Articles

universal stress protein contributes to persistence during growth arrest and paraquat-induced superoxide stress.

Girardo B, Yue Y, Lockridge O, Bartling A, Schopfer L, Augusto L J Bacteriol. 2025; 207(2):e0037724.

PMID: 39846732 PMC: 11841066. DOI: 10.1128/jb.00377-24.

Novel Populations of Under Hypoxia and Starvation: Some Insights on Cell Viability and Morphological Changes.

Zaragoza-Contreras R, Aguilar-Ayala D, Garcia-Morales L, Ares M, Helguera-Repetto A, Cerna-Cortes J Microorganisms. 2024; 12(11).

PMID: 39597669 PMC: 11596219. DOI: 10.3390/microorganisms12112280.

Divergent downstream biosynthetic pathways are supported by <sc>L</sc>-cysteine synthases of .

Khan M, Hunt D, Singha B, Kapoor Y, Singh N, Prasad D Elife. 2024; 12.

PMID: 39207917 PMC: 11361707. DOI: 10.7554/eLife.91970.

Betaine and I-LG may have a predictive value for ATB: A causal study in a large European population.

Xian X, Li L, Ye J, Mo W, Liang D, Huang M PLoS One. 2024; 19(7):e0306752.

PMID: 38968285 PMC: 11226055. DOI: 10.1371/journal.pone.0306752.

Regulatory role of MtrA on dormancy/resuscitation revealed by a novel target gene-mining strategy.

Fu X, Wan X, Memon A, Fan X, Sun Q, Chen H Front Microbiol. 2024; 15:1415554.

PMID: 38952446 PMC: 11215152. DOI: 10.3389/fmicb.2024.1415554.