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本文引用的文献

1
Rapid detection of rifampicin- and isoniazid-resistant Mycobacterium tuberculosis by high-resolution melting analysis.应用高分辨率熔解曲线分析快速检测利福平及异烟肼耐药结核分枝杆菌。
J Clin Microbiol. 2010 Apr;48(4):1047-54. doi: 10.1128/JCM.02036-09. Epub 2010 Feb 17.
2
Detection of isoniazid and rifampicin resistance by sequencing of katG, inhA, and rpoB genes in Korea.韩国通过对katG、inhA和rpoB基因进行测序检测异烟肼和利福平耐药性。
Korean J Lab Med. 2009 Oct;29(5):455-60. doi: 10.3343/kjlm.2009.29.5.455.
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Recent advances in the diagnosis and treatment of multidrug-resistant tuberculosis.近年来耐多药结核病的诊断和治疗进展。
Respir Med. 2009 Dec;103(12):1777-90. doi: 10.1016/j.rmed.2009.07.010. Epub 2009 Aug 5.
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Performance assessment of the GenoType MTBDRplus test and DNA sequencing in detection of multidrug-resistant Mycobacterium tuberculosis.GenoType MTBDRplus检测与DNA测序在检测耐多药结核分枝杆菌中的性能评估
J Clin Microbiol. 2009 Aug;47(8):2520-4. doi: 10.1128/JCM.02499-08. Epub 2009 Jun 3.
5
Rapid identification of multidrug-resistant Mycobacterium tuberculosis isolates by rpoB gene scanning using high-resolution melting curve PCR analysis.利用高分辨率熔解曲线PCR分析通过rpoB基因扫描快速鉴定耐多药结核分枝杆菌分离株
J Antimicrob Chemother. 2009 Jun;63(6):1121-7. doi: 10.1093/jac/dkp124. Epub 2009 Apr 15.
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Fluorometric assay for testing rifampin susceptibility of Mycobacterium tuberculosis complex.用于检测结核分枝杆菌复合群对利福平敏感性的荧光测定法。
J Clin Microbiol. 2008 Apr;46(4):1369-73. doi: 10.1128/JCM.02343-07. Epub 2008 Feb 27.
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Proficiency analysis of drug susceptibility testing by national-level tuberculosis reference laboratories from 1995 to 2003.1995年至2003年国家级结核病参比实验室药物敏感性试验的熟练度分析
J Clin Microbiol. 2007 Nov;45(11):3626-30. doi: 10.1128/JCM.00784-07. Epub 2007 Sep 12.
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Molecular characteristics of rifampicin- and isoniazid-resistant Mycobacterium tuberculosis isolates from the Russian Federation.来自俄罗斯联邦的耐利福平及异烟肼结核分枝杆菌分离株的分子特征
J Antimicrob Chemother. 2007 Jun;59(6):1057-64. doi: 10.1093/jac/dkm086. Epub 2007 Apr 18.
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Simultaneous mutation scanning and genotyping by high-resolution DNA melting analysis.通过高分辨率DNA熔解分析进行同步突变扫描和基因分型
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Detection of multidrug resistance in Mycobacterium tuberculosis.结核分枝杆菌多重耐药性的检测
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高分辨率熔解曲线分析快速检测结核分枝杆菌临床分离株利福平及异烟肼耐药性。

High-resolution melting curve analysis for rapid detection of rifampin and isoniazid resistance in Mycobacterium tuberculosis clinical isolates.

机构信息

Department of Laboratory Medicine, School of Medicine, Pusan National University, Busan, South Korea.

出版信息

J Clin Microbiol. 2010 Nov;48(11):3893-8. doi: 10.1128/JCM.00396-10. Epub 2010 Sep 15.

DOI:10.1128/JCM.00396-10
PMID:20844231
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3020879/
Abstract

We evaluated high-resolution melting (HRM) curve analysis as a tool for detecting rifampin (RIF) and isoniazid (INH) resistance in Mycobacterium tuberculosis in an accurate, affordable, and rapid manner. Two hundred seventeen M. tuberculosis clinical isolates of known resistance phenotype were used. Twenty-nine known rpoB mutant DNAs, including rare mutations, were also included. Four pairs of primers were designed: rpoB-F/R (for codons 516 to 539 of rpoB), rpoB-516F/R (for codons 508 to 536 of rpoB), katG-F/R (for the codon 315 region of katG), and inhA-F/R (for the nucleotide substitution of C to T at position -15 of inhA). An HRM curve was generated for each isolate after real-time PCR differentiated the mutant from the wild-type strains. DNA sequencing of the target regions was performed to confirm the results of the HRM curve analysis. All but one of the 73 RIF-resistant (RIF-R) strains and all 124 RIF-susceptible (RIF-S) isolates were correctly identified by HRM curve analysis of rpoB. Twenty-seven of 29 known rpoB mutants were detected. In HRM curve analysis of katG and inhA, 90 INH-R strains that harbored katG or inhA mutations, or both, and all INH-S strains were correctly identified. Ten phenotypically INH-R strains not harboring katG or inhA mutations were not detected. The HRM curve analysis will be a useful method for detection of RIF and INH resistance in M. tuberculosis in a rapid, accurate, simple, and cost-effective manner.

摘要

我们评估了高分辨率熔解(HRM)曲线分析作为一种快速、准确、经济的方法,用于检测结核分枝杆菌中的利福平(RIF)和异烟肼(INH)耐药性。使用了 217 株已知耐药表型的结核分枝杆菌临床分离株。还包括 29 个已知的 rpoB 突变 DNA,包括罕见突变。设计了 4 对引物:rpoB-F/R(用于 rpoB 的密码子 516 至 539)、rpoB-516F/R(用于 rpoB 的密码子 508 至 536)、katG-F/R(用于 katG 的密码子 315 区)和 inhA-F/R(用于 inhA 位置 -15 处的 C 到 T 的核苷酸取代)。每个分离株的实时 PCR 区分突变株和野生株后,都会生成一个 HRM 曲线。对目标区域进行 DNA 测序以确认 HRM 曲线分析的结果。通过 rpoB 的 HRM 曲线分析,正确识别了除 1 株外的所有 73 株利福平耐药(RIF-R)株和所有 124 株利福平敏感(RIF-S)株。检测到 29 个已知 rpoB 突变中的 27 个。在 katG 和 inhA 的 HRM 曲线分析中,正确识别了 90 株含有 katG 或 inhA 突变或两者均有的 INH-R 株和所有 INH-S 株。未检测到 10 株表型 INH-R 株,这些菌株不含有 katG 或 inhA 突变。HRM 曲线分析将是一种快速、准确、简单且具有成本效益的方法,用于检测结核分枝杆菌中的 RIF 和 INH 耐药性。