Literature DB >> 22388809

Genome-wide expression profiling of the response to linezolid in Mycobacterium tuberculosis.

Junchao Liang1, Xudong Tang, Na Guo, Kaiyu Zhang, Aizhen Guo, Xiuping Wu, Xuelin Wang, Zhenhong Guan, Lihui Liu, Fengge Shen, Mingxun Xing, Liqiang Liu, Lei Li, Lu Yu.   

Abstract

Tuberculosis (TB) is still one of the most common causes of death in the world. The emergence of multidrug-resistant and extensively drug-resistant (XDR-TB) Mycobacterium tuberculosis (M. tuberculosis) strains has increased the importance of searching for alternative targets to develop new antimycobacterial drugs. Linezolid, the first of oxazolidinones, is active in vitro against M. tuberculosis, but the response mechanisms of M. tuberculosis to linezolid are still poorly understood. To reveal the possible mechanism of action of linezolid against M. tuberculosis, commercial oligonucleotide microarrays were used to analyze the genome-wide transcriptional changes triggered by treatment with subinhibitory concentrations of linezolid. Quantitative real-time RT-PCR was performed for selected genes to verify the microarray results. A total of 729 genes were found to be differentially regulated by linezolid. Among these, 318 genes were upregulated, and 411 genes were downregulated. A number of important genes were significantly regulated that are involved in various pathways, such as protein synthesis, sulfite metabolism, and genes involved in the cell envelope and virulence. This genome-wide transcriptomics approach produced the first insights into the response of M. tuberculosis to a linezolid challenge.

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Year:  2012        PMID: 22388809     DOI: 10.1007/s00284-012-0104-9

Source DB:  PubMed          Journal:  Curr Microbiol        ISSN: 0343-8651            Impact factor:   2.188


  49 in total

Review 1.  Protein folding and degradation in bacteria: to degrade or not to degrade? That is the question.

Authors:  D A Dougan; A Mogk; B Bukau
Journal:  Cell Mol Life Sci       Date:  2002-10       Impact factor: 9.261

2.  In vitro efficacy of Linezolid on clinical strains of Mycobacterium tuberculosis and other mycobacteria.

Authors:  Paola Molicotti; Silvia Ortu; Alessandra Bua; Sara Cannas; Leonardo A Sechi; Stefania Zanetti
Journal:  New Microbiol       Date:  2006-10       Impact factor: 2.479

Review 3.  Molecular basis of bacterial outer membrane permeability.

Authors:  H Nikaido; M Vaara
Journal:  Microbiol Rev       Date:  1985-03

4.  Rapid, low-technology MIC determination with clinical Mycobacterium tuberculosis isolates by using the microplate Alamar Blue assay.

Authors:  S G Franzblau; R S Witzig; J C McLaughlin; P Torres; G Madico; A Hernandez; M T Degnan; M B Cook; V K Quenzer; R M Ferguson; R H Gilman
Journal:  J Clin Microbiol       Date:  1998-02       Impact factor: 5.948

5.  Transcriptional profiles of the response to ketoconazole and amphotericin B in Trichophyton rubrum.

Authors:  Lu Yu; Wenliang Zhang; Lingling Wang; Jian Yang; Tao Liu; Junping Peng; Wenchuan Leng; Lihong Chen; Ruoyu Li; Qi Jin
Journal:  Antimicrob Agents Chemother       Date:  2006-10-23       Impact factor: 5.191

Review 6.  Antimycobacterial activities of oxazolidinones: a review.

Authors:  R Sood; T Bhadauriya; M Rao; R Gautam; S Malhotra; T K Barman; D J Upadhyay; A Rattan
Journal:  Infect Disord Drug Targets       Date:  2006-12

7.  MmpL8 is required for sulfolipid-1 biosynthesis and Mycobacterium tuberculosis virulence.

Authors:  Scott E Converse; Joseph D Mougous; Michael D Leavell; Julie A Leary; Carolyn R Bertozzi; Jeffery S Cox
Journal:  Proc Natl Acad Sci U S A       Date:  2003-04-30       Impact factor: 11.205

8.  Virulence attenuation of two Mas-like polyketide synthase mutants of Mycobacterium tuberculosis.

Authors:  Cécile Rousseau; Tatiana D Sirakova; Vinod S Dubey; Yann Bordat; Pappachan E Kolattukudy; Brigitte Gicquel; Mary Jackson
Journal:  Microbiology       Date:  2003-07       Impact factor: 2.777

9.  Two polyketide-synthase-associated acyltransferases are required for sulfolipid biosynthesis in Mycobacterium tuberculosis.

Authors:  Kiranmai Bhatt; Sudagar S Gurcha; Apoorva Bhatt; Gurdyal S Besra; William R Jacobs
Journal:  Microbiology (Reading)       Date:  2007-02       Impact factor: 2.777

10.  A novel in vitro multiple-stress dormancy model for Mycobacterium tuberculosis generates a lipid-loaded, drug-tolerant, dormant pathogen.

Authors:  Chirajyoti Deb; Chang-Muk Lee; Vinod S Dubey; Jaiyanth Daniel; Bassam Abomoelak; Tatiana D Sirakova; Santosh Pawar; Linda Rogers; Pappachan E Kolattukudy
Journal:  PLoS One       Date:  2009-06-29       Impact factor: 3.240
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  3 in total

Review 1.  Genome-Wide Transcriptional Responses of Mycobacterium to Antibiotics.

Authors:  Julien Briffotaux; Shengyuan Liu; Brigitte Gicquel
Journal:  Front Microbiol       Date:  2019-02-20       Impact factor: 5.640

2.  Genome-Wide Study of Drug Resistant Mycobacterium tuberculosis and Its Intra-Host Evolution during Treatment.

Authors:  Denis Lagutkin; Anna Panova; Anatoly Vinokurov; Alexandra Gracheva; Anastasia Samoilova; Irina Vasilyeva
Journal:  Microorganisms       Date:  2022-07-17

Review 3.  Technologies for High-Throughput Identification of Antibiotic Mechanism of Action.

Authors:  Bernardo Ribeiro da Cunha; Paulo Zoio; Luís P Fonseca; Cecília R C Calado
Journal:  Antibiotics (Basel)       Date:  2021-05-12
  3 in total

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