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参考文献

[1]布坎南,吉本斯.伯杰细菌鉴定手册[M].8版.北京:科学出版社,1984.

[2]中华医学会结核病学分会临床检验专业委员会.结核病病原学分子诊断专家共识[J].中华结核和呼吸杂志,2018,41( 9 ):688-695.

[3]刘洋,王邦兴,刘志永,等.非一线抗结核药物耐药机制及耐药性诊断研究进展[J].遗传,2016,38(10):928-939.

[4]董娜,付玉荣,伊正君.结核分枝杆菌感染致脂代谢异常及其机制研究进展[J].中华结核和呼吸杂志,2016,39(7):548-550.

[5]林波,颜建国.结核分枝杆菌快速培养及药物敏感性试验的临床意义[J].中国民族民间医药,2011,20(7):96.

[6]WORLD HEALTH ORGANIZATION.Global Tuberculosis Report 2020[R/OL].2020.https://www.who.int/publications/i/item/global-tuberculosis-report-2020.

[7]NIEMANN S.Diversity and Evolution of Mycobacterium tuberculosis:Moving to Whole-Genome-Based Approaches[J].CSH PERSPECT MED,2014,4(12):a021188.

[8]FILLIOL I,FERDINAND S,NEGRONI L,et al.Molecular typing of Mycobacterium tuberculosis based on variable number of tandem DNA repeats used alone and in association with spoligotyping[J].Clinal Microbiol,2000,38(7):2520-2524.

[9]WELDU Y.Comparative evaluation of a two-reagent cold stain method with Ziehl-Nelseen method for pulmonary tuberculosis diagnosis[J].Bmc Research Notes,2013,6(1):1-5.

[10]ALNIMR A M.Dormancy models for Mycobacterium tuberculosis:A minireview[J].Brazilian Journal of Microbiology,2015,46(3):641-647.

[11]BOON C,LI R,QI R,et al.Proteins of Mycobacterium bovis BCG Induced in the Wayne Dormancy Model[J].Journal of Bacteriology,2001,183(8):2672-2676.

[12]ZHANG Y,YEW W W.Mechanisms of drug resistance in Mycobacterium tuberculosis:update 2015[J].The International Journal of Tuberculosis and Lung Disease,2015,19(11):1276-1289.

[13]BRAKE L H,KNEGT G J,STEENWINKEL J E,et al.The role of efflux pumps in tuberculosis treatment and their promise as a target in drug development:unraveling the black box[J].Annual review of pharmacology and toxicology,2018(58):271-291.

[14]SILVA P E ,VON GROLL A,MARTIN A,et al.Efflux as a mechanism for drug resistance in Mycobacterium tuberculosis[J].FEMS Immunology & Medical Microbiology,2011,63(1):1-9.

[15]HAMEED H M,ISLAM M M,CHHOTARAY C,et al.Molecular Targets Related Drug Resistance Mechanisms in MDR-,XDR-,and TDR-Mycobacterium tuberculosis Strains[J].Frontiers in cellular and infection microbiology,2018(8):114.

[16]GILLESPIE S H.Evolution of drug resistance in Mycobacterium tuberculosis:clinical and molecular perspective[J].Antimicrobial agents and chemotherapy,2002,46(2):267-274.

[17]SCHÖN T,MIOTTO P,KÖSER C U,et al.Mycobacterium tuberculosis drug-resistance testing:challenges,recent developments and perspectives[J].Clinical Microbiology and Infection,2017,23(3):154-160.

[18]SABINE E,KYU R.Mycobacterium tuberculosis metabolism and host interaction:mysteries and paradoxes[J].Curr Top Microbiol Immunol,2013(374):163-188.

[19]BROWN H A,VINOGRADOV E,GILBERT M,et al.The Mycobacterium tuberculosis complex has a pathway for the biosynthesis of 4-formamido-4,6-dideoxy-d-glucose[J].Protein Sci,2018(27):1491-1497.

[20]HENDRIK K B,KARL S,ROBERT W,et al.Metabolic Network for the Biosynthesis of Intra- and Extracellular α-Glucans Required for Virulence of Mycobacterium tuberculosis[J].PLoS Pathog,2016,12(8):e1005768.

[21]WILLIAMS K J,JENKINS V A,BARTON G R,et al.Deciphering the metabolic response of Mycobacterium tuberculosis to nitrogen stress[J].Mol Microbiol,2015,97(6):1142-1157.

[22]MALI P C,MEENA L S.Triacylglycerol:nourishing molecule in endurance of Mycobacterium tuberculosis[J].Biosci,2018,43(1):149-154.

[23]HUANG L,NAZAROVA E V,TAN S,et al.Mycobacterium tuberculosisGrowth of in vivo segregates with host macrophage metabolism and ontogeny[J].Exp Med,2018( 215):1135-1152.

[24]MIAO J T,LIU H R,QU Y S,et al.Effect of peptidoglycan amidase MSMEG_6281 on fatty acid metabolism in Mycobacterium smegmatis[J].Microb Pathog,2020(140):103939.

[25]HATFULL G F.Mycobacteriophages:windows into tuberculosis[J].PLoS Pathog,2014 ,10(3):e1003953.

[26]LAMRABET O,DRANCOURT M.Genetic engineering of Mycobacterium tuberculosis:a review[J].Tuberculosis(Edinb),2012,92(5):365-376.

[27]CATALÃO M J,PIMENTEL M.Mycobacteriophage Lysis Enzymes:Targeting the Mycobacterial Cell Envelope [J].Viruses,2018,10(8):428.

[28]JAIN P,THALER D S,MAIGA M,et al.Reporter phage and breath tests:emerging phenotypic assays for diagnosing active tuberculosis,antibiotic resistance,and treatment efficacy[J].Infect Dis,2011,204(Suppl 4):S1142-S1150.

[29]KESSEL J C,MARINELLI L J,HATFULL G F.Recombineering mycobacteria and their phages[J].Nat Rev Microbiol,2008,6(11):851-857.

[30]MCNERNEY R,TRAORÉ H.Mycobacteriophage and their application to disease control[J].Appl Microbiol,2005,99(2):223-233.

[31]JACOBS W R,TUCKMAN M,BLOOM B R.Introduction of foreign DNA into mycobacteria using a shuttle phasmid[J].Nature,1987,327(6122):532-536.

[32]MARKOVA N,MICHAILOVA L,JOURDANOVA M,et al.Exhibition of persistent and drug-tolerant L-form habit of Mycobacterium tuberculosis,during infection in rats[J].Open Life Sciences,2008,3(4):407-416.

[33]PIDDINGTON D L,KASHKOULI A,BUCHMEIER N A.Growth of Mycobacterium tuberculosis in a Defined Medium Is Very Restricted by Acid pH and Mg 2+ Levels[J].Infection & Immunity,2000,68(8):4518.

[34]ALNIMR A M.Dormancy models for Mycobacterium tuberculosis:A minireview[J].Brazilian Journal of Microbiology,2015,46(3):641-647.

[35]HU Y,COATES A R,MITCHISON D A.Sterilising action of pyrazinamide in models of dormant and rifampicin-tolerant Mycobacterium tuberculosis[J].International Journal of Tuberculosis & Lung Disease,2006,10(3):317.

[36]LIM A,ELEUTERIO M,HUTTER B,et al.Oxygen depletion-induced dormancy in Mycobacterium bovis BCG[J].Journal of Bacteriology,1999,181(7):2252-2256. rJO6iK2HfEYbanw2Jw1wVd4IBoAgtFNlqT4IaJxswBgailmlEqKDqVedXt+kllQf

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