about
The emerging role of gasotransmitters in the pathogenesis of tuberculosisMass Spectrometry Offers Insight into the Role of Ser/Thr/Tyr Phosphorylation in the MycobacteriaNeed of cost-effective vaccines in developing countries: What plant biotechnology can offer?Individuality, phenotypic differentiation, dormancy and 'persistence' in culturable bacterial systems: commonalities shared by environmental, laboratory, and clinical microbiologyRecent advances towards tuberculosis control: vaccines and biomarkersTuberculosis drug discovery in the post-post-genomic eraVersatile myeloid cell subsets contribute to tuberculosis-associated inflammationInnate immunity and its regulation by mast cellsReverse translation in tuberculosis: neutrophils provide clues for understanding development of active diseaseStochastic expression of a multiple antibiotic resistance activator confers transient resistance in single cellsSuccinylome analysis reveals the involvement of lysine succinylation in metabolism in pathogenic Mycobacterium tuberculosisNon-Invasive Microbial Metabolic Activity Sensing at Single Cell Level by Perfusion of Calcein Acetoxymethyl EsterStructural basis for the inhibition ofMycobacterium tuberculosisL,D-transpeptidase by meropenem, a drug effective against extensively drug-resistant strainsStructure of LdtMt2, anL,D-transpeptidase fromMycobacterium tuberculosisStructural analysis of Mycobacterium tuberculosis ATP-binding cassette transporter subunit UgpB reveals specificity for glycerophosphocholineRv2074 is a novel F420 H2 -dependent biliverdin reductase in Mycobacterium tuberculosisA Dormant Microbial Component in the Development of PreeclampsiaTranscriptional regulation of bacterial virulence gene expression by molecular oxygen and nitric oxideAn RNA-seq method for defining endoribonuclease cleavage specificity identifies dual rRNA substrates for toxin MazF-mt3.Mycobacterial toxin MazF-mt6 inhibits translation through cleavage of 23S rRNA at the ribosomal A siteMycobacteria counteract a TLR-mediated nitrosative defense mechanism in a zebrafish infection modelSuccinate dehydrogenase is the regulator of respiration in Mycobacterium tuberculosisProteomic Analysis of Drug-Resistant Mycobacteria: Co-Evolution of Copper and INH ResistanceThe Role of Adherence and Retreatment in De Novo Emergence of MDR-TBCysK2 from Mycobacterium tuberculosis is an O-phospho-L-serine-dependent S-sulfocysteine synthaseCo-evolution of Mycobacterium tuberculosis and Homo sapiensThe biology of mycobacterium tuberculosis infection.Novel vaccination strategies against tuberculosis.Binding and processing of β-lactam antibiotics by the transpeptidase LdtMt2 from Mycobacterium tuberculosis.Accelerating tuberculosis vaccine trials with diagnostic and prognostic biomarkers.Exploring prospects of novel drugs for tuberculosis.Aptamer against mannose-capped lipoarabinomannan inhibits virulent Mycobacterium tuberculosis infection in mice and rhesus monkeys.New Insights in to the Intrinsic and Acquired Drug Resistance Mechanisms in MycobacteriaSignificant under expression of the DosR regulon in M. tuberculosis complex lineage 6 in sputum.What We Have Learned and What We Have Missed in Tuberculosis Pathophysiology for a New Vaccine Design: Searching for the "Pink Swan".The importance of the viable but non-culturable state in human bacterial pathogens.Dietary pyridoxine controls efficacy of vitamin B6-auxotrophic tuberculosis vaccine bacillus Calmette-Guérin ΔureC::hly Δpdx1 in mice.RNA Profiling Analysis of the Serum Exosomes Derived from Patients with Active and Latent Mycobacterium tuberculosis InfectionCarD integrates three functional modules to promote efficient transcription, antibiotic tolerance, and pathogenesis in mycobacteria.EspI regulates the ESX-1 secretion system in response to ATP levels in Mycobacterium tuberculosis.
P2860
Q26744038-85C3EA69-9D8A-455D-AACA-D2F695229CAFQ26767547-2EC5894E-7F79-4DE2-8512-DF76385BAD36Q26769942-04ECBD39-2C3F-4718-B51E-C2FB1FA6126DQ26775404-D5EFE422-DC66-4976-8FCA-202F22FDD472Q26859739-91CDE5FC-3BA4-4E02-8EE1-A4C037A6240EQ26864729-C143C500-DA7A-48C8-886C-BF068000533AQ26997007-B0C5285B-46A5-4C3F-8362-929B6DC4B516Q27000453-3BEC50F5-C3A5-4B7B-A1CF-4F26C22528F2Q27027976-7730784A-6377-4071-9DF0-5FB0FA4B0DD0Q27301322-21AD5D5D-CFF9-48E7-8A75-1F216E41509FQ27311660-1E287B3C-0304-4B59-B7C5-6E4D1DDBBD1DQ27348602-70E8F549-114F-483F-84A4-B255CBFCF7ABQ27676935-18CB9C6B-2E59-4DA1-9B0E-996EC3C7652EQ27676938-19B5539E-B6CC-479B-96FA-EA66EC46EA34Q27687788-0EA95FAD-A3F7-42EF-A9F1-01A0E081811CQ27715540-B4952380-D761-4727-A57D-FF66B501346BQ28069689-7CAA55C0-A374-4CFF-A883-3B44C7C80FEFQ28083166-AE09ED7A-2B93-4151-AEA2-6F0C60D8814DQ28486509-EE8DA2B8-8CB1-40E0-A740-EF66F30D7717Q28486597-DAF3B8CA-D5A2-4576-8FBF-8624D4F29C3CQ28540070-93DE8EBF-CD47-44AB-B4E9-E4251C736B2FQ28545101-5C2BA59C-6064-4DD9-AE7D-CBCEFC32FEFAQ28547746-97727BED-86A2-4013-90BD-934D6644BBA4Q28550707-CB8B3DDC-34C1-48D9-BFA1-2A9A85CE3840Q28563544-064BFF96-38F6-439C-904D-A828B88B84BBQ28649483-367A06B1-2133-4CEE-A8BB-040E4C4239AFQ30357155-F323977A-52CE-4324-B0F4-1248A45E3B4FQ30363188-1AA8430E-3094-4B32-8FA9-5A4630723222Q30397294-206581F3-C763-4F24-96B9-FE3410E36D0DQ30403003-F9AA86F6-A128-45BC-B73B-F4C3E87166E8Q30421213-8A584ACB-4A38-4EFC-A417-E2A5EC187D7EQ33586979-4316A911-8F6B-4795-BE0A-DF4D7F984CB0Q33600161-6043DA0A-85B0-4D19-8B5A-BE6F009C181DQ33647642-5FBAE7C6-C144-4392-BD27-3B7828BD9245Q33679240-4D49E4C4-F57F-4393-BF25-2C3F0CD8A90DQ33696026-25B9535C-939C-4477-9351-A43E39A07524Q33724934-C4612BB6-5934-4509-ABB3-EF9B578A2B39Q33785759-4FDE09A2-C078-4092-B099-D296DA5B9D5EQ34022037-D2755772-AF64-423B-B477-E2C12204F465Q34115756-9FE07D16-B0F7-478C-BDEB-99409D190F07
P2860
description
2012 nî lūn-bûn
@nan
2012 թուականի Մայիսին հրատարակուած գիտական յօդուած
@hyw
2012 թվականի մայիսին հրատարակված գիտական հոդված
@hy
2012年の論文
@ja
2012年論文
@yue
2012年論文
@zh-hant
2012年論文
@zh-hk
2012年論文
@zh-mo
2012年論文
@zh-tw
2012年论文
@wuu
name
Mycobacterium tuberculosis: success through dormancy
@ast
Mycobacterium tuberculosis: success through dormancy
@en
Mycobacterium tuberculosis: success through dormancy
@nl
type
label
Mycobacterium tuberculosis: success through dormancy
@ast
Mycobacterium tuberculosis: success through dormancy
@en
Mycobacterium tuberculosis: success through dormancy
@nl
prefLabel
Mycobacterium tuberculosis: success through dormancy
@ast
Mycobacterium tuberculosis: success through dormancy
@en
Mycobacterium tuberculosis: success through dormancy
@nl
P2860
P3181
P1476
Mycobacterium tuberculosis: success through dormancy
@en
P2860
P304
P3181
P356
10.1111/J.1574-6976.2012.00331.X
P407
P577
2012-05-01T00:00:00Z