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1.
目的 建立聚合酶链反应-单链构象多态性(PCR-SSCP)技术快速检测结核分枝杆菌利福平(RFP)耐药相关基因rpoB突变.方法 设计结核分枝杆菌RFP耐药相关rpoB基因PCR引物,建立PCR-SSCP技术检测临床菌株rpoB基因的突变导致的运动变位,同时采用PCR直接测序(PCR-DS)技术检测rpoB基因突变,并对上述方法检测结果进行分析和比较.结果 84株临床菌株均含有rpoB基因;PCR-SSCP和PCR-DS检测结果显示,56株RFP敏感菌株中rpoB基因分别有3株和2株检测出突变,检测特异性分别为94.6% (53/56)和96.4%(54/56);28株RFP耐药菌株中rpoB基因分别有27株和28株发生突变,检测灵敏度分别为96.4%和100%.结论 本研究建立的PCR-SSCP技术能快速、简便、特异、敏感地检测结核分枝杆菌利福平耐药基因rpoB突变,具有临床应用前景. 相似文献
2.
目的:调查深圳地区结核分枝杆菌耐利福平(RFP)株rpoB基因突变的分布情况,建立结核分枝杆菌耐药基因快速检测的方法.方法:对55株结核分枝杆菌临床分离株的rpoB基因280个碱基(包括其核心区75个碱基)应用PCR-直接测序法(PCR-DS)测定序列,其中耐利福平株51株,敏感株4株.结果:4株敏感株无突变,92.2%(47/51)耐利福平临床分离株存在rpoB基因突变.基因突变导致531位氨基酸突变率为41.2%(21/51);导致526位氨基酸突变率为29.4%(15/51);导致516位氨基酸突变率为13.7%(7/51).联合突变发生率为2.0%(1/51).未检测到发生缺失或插入碱基突变的菌株.结论:深圳地区结核分枝杆菌耐利福平株发生rpoB基因突变最常见的是531位丝氨酸、526位组氨酸和516位天冬氨酸的基因突变,三者突变率之和为84.3%(43/51).PCR-DS方法可快速测定结核分枝杆菌RFP耐药基因突变. 相似文献
3.
探讨编码过氧化氢-过氧化物酶的katG基因突变与结核分枝杆菌异烟肼(INH)耐药性的相关关系。根据结核分枝杆菌GenBank中的katG序列,自行设计特异性寡聚核苷酸引物,采用聚合酶链反应-单链构象多态性(PCR-SSCP)分析和直接测序法(DS)分析结核分枝杆菌中katG基因突变情况。以HR37Rv标准株为对照。所有23株敏感菌均未有SSCP结果异常;35株耐药菌中,有2株(5.7%)katG基因扩增阴性,且发生在高度耐药菌中。进一步分析发现,SSCP法突变检出23株(65.7%),测序法突变检出24株(68.6%),符合率为95.8%(23/24)。参照测序法对耐药菌突变序列的分析结果,PCR—SSCP敏感、特异,可快速检测结核分枝杆菌katG耐药基因突变,有利于耐药结核分枝杆菌耐药性的快速检测。 相似文献
4.
目的:探索新疆南疆部分地区维吾尔族结核病人群中分离到的结核分枝杆菌基因组中的katG、inhA、kasA、ahpC基因突变与耐异烟肼的关联,揭示新疆肺结核病高患病率、高死亡率的可能原因.方法:收集新疆南疆部分地区维吾尔族结核病患者痰液标本,对MTB进行分离培养后,应用比例法检测其对异烟肼耐药性,运用PCR技术对所分离菌株的上述基因相关片段扩增并进行测序及序列分析.结果:筛选出实验菌株99株,其中敏感株63株,耐异烟肼菌株36株,耐药率为36.4%.耐药株中katG基因突变率为63.9%,315位点突变,突变类型AGC→ACC(Ser→Thr)、AGC→AAC(Ser→Asn);inhA基因突变率为47.2%,有缺失、同义突变和错义突变;kasA基因突变率为41.7%,突变类型为缺失和错义突变;ahpC基因突变率为8.3%,属于错义突变.结论:新疆南疆结核病高患病率、高死亡率的可能原因之一是结核分枝杆菌对INH产生了耐药,结核分枝杆菌对INH耐药机制可能与耐药菌株基因组内katG、inhA、kasA和ahpC基因发生了突变有关. 相似文献
5.
文中旨在建立结核分枝杆菌利福平耐药基因rpoB的荧光分子标记,为分子药物敏感性试验提供简便、可靠的基因分型检测方法。对比分析利福平耐药菌株rpoB基因531、526、516、511、513等氨基酸位点的基因突变与敏感菌株中等位基因的序列差异,结合PARMS技术 (Penta-primer amplification refractory mutation system),建立rpoB基因的荧光分子标记。利用其对104例结核分枝杆菌临床分离株进行检测,经Sanger测序验证,正确率100%。并采用比例法药敏试验对这104份样本进行了利福平耐药性鉴定,与分子标记结果相符率为94.23%。结果表明,分子标记有较强可靠性,能检出表型药敏无法测出的低浓度耐药样本 (511/533单位点突变)。建立的11组荧光分子标记能覆盖92%–96%的利福平耐药菌株rpoB基因突变类型,为快速检测结核分枝杆菌利福平耐药提供新思路。 相似文献
6.
目的:比较分析空洞型肺结*核组织样本与痰样本结核分枝杆菌培养的阳性率及检测的一致性,并基于rpoB基因及KatG基因突变检测在诊断耐多药结核分枝杆菌中的重要作用,探讨直接应用肺结核组织样本进行结核分枝杆菌耐药性检测的临床意义.方法:对肺结核实施肺部手术患者,在术前和术后分别进行痰及手术切除组织样本利用BacT ALERT 3D快速培养系统进行分枝杆菌培养,对培养阳性者进行菌种鉴定,对结核分枝杆菌分离株应用绝对浓度法进行异烟肼(H)、利福平(R)药物敏感性测定,比较分析二者的一致性;同时应用特异性引物对手术切除组织样本直接进行分枝杆菌rpoB、KatG基因扩增,并与其培养结果进行比较.结果:62例进入分析的病例中,术前痰培养阳性22例,阳性率35.5%(22/62),药敏试验耐药18例,耐异烟肼16例,耐利福平13例.二者均耐药12例,术中所取结核组织培养阳性34例,阳性率55%(34/62),耐药30例,耐H26例,耐R20例,二者均耐药17例,术中所取结核组织耐药基因检测与INH耐药性相关的KatG基因突变表现有22例,与RFP的耐药性相关的rpoB基因突变18例.二者同时有突变表现的16例.所有培养为结核敏感菌的组织检测中,无上述二基因突变表现.在相关的rpoB基因突变18例病例中有16例同时表现出KatG基因突(89%,16/18).结论:厚壁空洞肺结核患者肺部手术切除组织样本病原学检测与痰样本间具有较好的一致性,且结核菌培养的阳性率明显高于普通痰培养.同时可直接应用组织样本进行结核分枝杆菌rpoB基因、KatG基因检测,可更加及时、准确地用于指导临床术后抗结核的药物治疗. 相似文献
7.
【目的】结合现有数据,通过对两株临床超级广泛耐药的结核分枝杆菌全基因组的测序和分析,发现其型别相关的突变位点,解释发生广泛耐药的基因组突变机制。【方法】利用Solexa第二代测序技术对两株广泛耐药结核分枝杆菌(FJ05194和GuangZ0019)进行全基因组测序分析。以H37Rv为参考序列得到两株广泛耐药菌株的单核苷酸多态性(SNPs),构建系统发育树鉴定菌株型别,判断突变位点中型别相关和非型别相关的SNPs。定位SNPs所在的基因组区域,对型别相关的突变基因进行KEGG通路的富集分析,对非型别相关的突变基因和间隔区判断是否与耐药相关。【结果】两株广泛耐药菌株分别属于Lineage2和Lineage4型别,两菌株在碱基替换方面存在差异性,Lineage2型别相关的基因功能富集于ABC转运蛋白和核苷酸切除修复的通路。耐药方面,发现了已知的耐药相关基因的突变(rpoB、katG、rpsl、gyrA、gyrB、embB和ethA等),但卷曲霉素和卡那霉素相关的rrs、tlyA和eis启动子区域未发生突变,不足以解释其耐药性的产生。与最新报道的候选耐药基因比较,发现了卷曲霉素和卡那霉素相关的突变(Rv1393c、Rv0265c和narX等)和外排泵相关的pstB、Rv2333c和Rv2687c突变。【结论】结核分枝杆菌Lineage2型别相关的SNPs中含有影响结核分枝杆菌突变率和耐药性的突变。对于两株超级广泛耐药的结核菌,已知的激活药物或药靶相关的单耐药基因突变集合不能完全解释其广泛耐药性,还涉及新候选结核耐药基因、外排泵和补偿等其他潜在机制的相关基因突变。 相似文献
8.
《基因组学与应用生物学》2016,(7)
从2001年WHO/IUATLD全球抗结核药物耐药监测之内蒙古耐药监测结核菌1 114株中,选取经比例法药敏结果得到的耐多药(MDR)结核菌188株,利用Geno Type MTBDRplus方法检测该批菌株的RIF、INH耐药情况及其耐药基因突变形式。最终得到MDR菌株103(54.79%)株,单耐RIF菌株52(27.66%)株,单耐INH菌株10(5.32%)株,全敏感菌株20株,TUB条带缺失1株,kat G质控带缺失2株。RIF耐药菌株检测的是rpo B基因区,该基因突变菌株有155株;rpo B S531L突变菌株为49.68%(77/155)。INH耐药菌株检测的是kat G基因区和inh A基因启动子区,共113株,其中kat G基因突变菌株占79.65%(90/113),主要是S3-15T1突变;inh A基因突变菌株占22.12%(25/113)。因此,Geno Type MTBDRplus可用于内蒙古地区MDR结核菌的快速检测。其中rpo BS531L突变形式在RIF耐药菌株中最常见;在INH耐药菌株中,kat G基因突变较inh A基因突变常见,S315T1突变是INH耐药菌中常见的突变形式。 相似文献
9.
目的分析肺炎支原体突变敏感性分子开关检测对抗菌药物敏感性检测的价值。方法选择2015年1月至2016年2月在河北省儿童医院呼吸科住院收治的450例社区获得性肺炎患儿的肺泡灌洗液标本,进行MP培养与药敏分析,抗菌药物选择红霉素与阿奇霉素,对MP培养阳性菌株使用分子开关技术检测23SrRNA V区2063/2064基因的突变情况,并进行测序分析,最后明确分子开关检测MP耐药基因与其对抗菌药物敏感性的相关性。结果在450例患儿中,MP检测阳性80例,阳性率为17.8%。在80株MP中,72株对红霉素耐药,耐药率为90.0%;31株对阿奇霉素耐药,耐药率为38.8%,为此MP对于红霉素的耐药率明显高于阿奇霉素(χ2=9.134,P=0.000)。76株MP株的23SrRNA的2063/2064位发生了基因突变,其中有70株检测出A2063G的突变,6株有A2064G的突变。而在76株23S rRNA 2063/2064基因位点突变的MP中,有72株MP对红霉素产生高水平耐药,并对阿奇霉素发生交叉耐药,未发生突变的4株MP均对红霉素与阿奇霉素敏感。结论肺炎支原体对红霉素与阿奇霉素都有高度的耐药性,分子开关检测可识别23SrRNA V区基因2063/2064位点突变,有利于反映MP对红霉素与阿奇霉素的敏感性,具有很好的检测价值。 相似文献
10.
DNA微阵列代表聚合酶链反应产物诊断测序的发展方向 .根据结核分枝杆菌rpoB基因利福平抗药性决定区域内点突变及其它重排的特征 .研制一种快速地鉴定结核分枝杆菌利福平耐药菌株的中等密度微阵列方法 .利福平抗药性通过使荧光标记扩增遗传物质与微阵列杂交测定 .检测5 3株利福平耐药结核分枝杆菌和 15株利福平敏感结核分枝杆菌 .微阵列方法的检测结果与药物敏感性试验和DNA测序结果完全一致 .临床标本PCR扩增后仅 1 5h可检出利福平耐药临床分离株 .表明寡核苷酸微阵列是高效的、专一性的方法 ,可作为检测利福平抗药性的快速方法以弥补传统培养方法的不足 相似文献
11.
结核分枝杆菌Mycobacterium tuberculsis(M.t)4种耐药基因的研究,了解耐药基因突变情况和耐药水平的关系。108例临床痰标本临床分离株均做传统梯度药敏试验和聚合酶链反应多态-单链构象多态性(PCR-SSCP)试验。结果表明耐SM(rpsL)REP(rpoB)INH(katG)EMB(embB)基因突变率分别为78.5%,68.2%,70.5%,48.6%。其中,上海高耐药株基因突变率分别为86.5%,89.3%,84.3%,35.3%。低耐药株分别为28.5%,16.5%,7.1%。EMB在低耐药区无基因突变。M.t的4种耐药基因联合检测的分析,在国内外很少报道。部分M.t的耐药由耐药基因突变所致,M.t耐药基因突变与耐药水平密切相关,且M.t基因突变绝大多数发生在高耐药区中,也有少部分在低耐区株中发生。 相似文献
12.
P E Almeida da Silva M Osório M C Reinhardt L de Souza Fonseca O A Dellagostin 《Microbes and infection / Institut Pasteur》2001,3(13):1111-1113
Tuberculosis remains a serious public health problem, worsened by an increased frequency of multidrug-resistant Mycobacterium tuberculosis. We report here a retrospective study of resistance to antituberculosis drugs of 170 strains of M. tuberculosis isolated from the state of Rio Grande do Sul, Brazil. The frequency of resistance to at least one drug was 34%, while 22% were resistant to more than one drug. Among the strains isolated from patients without a history of previous treatment for tuberculosis, patients with positive serology for HIV and patients with previous treatment for tuberculosis, the resistance to at least one drug was 14, 27 and 73%, respectively. Multidrug-resistant tuberculosis, defined as resistant to at least rifampicin (RMP) and isoniazid (INH), was found in the groups of patients without previous treatment, HIV co-infected and with previous treatment for tuberculosis at 10, 17 and 44%, respectively. With the purpose of evaluating whether the sensitivity test to INH and RMP would be a good marker to indicate resistance to other antituberculosis drugs, sensitivity tests were performed with four more drugs in 32 strains, initially classified as resistant to INH, RMP or both. Of 18 strains resistant to INH and RMP simultaneously, 89% showed resistance to four more drugs. 相似文献
13.
Arjomandzadegan M Owlia P Ranjbar R Farazi AA Sofian M Sadrnia M Ghaznavi-Rad E Surkova LK Titov LP 《Acta microbiologica et immunologica Hungarica》2011,58(1):51-63
Isoniazid (INH) is a central component of drug regimens used worldwide to treat tuberculosis. In respect to high GC content of Mycobacterium tuberculosis, nonsynonymous mutations are dominant in this group. In this study a collection of 145 M. tuberculosis isolates was used to evaluate the conferring mutations in nucleotide 1388 of katG gene (KatG463) in resistance to isoniazid. A PCR-RFLP method was applied in comparison with DNA sequencing and anti-mycobacterial susceptibility testing. From all studied patients, 98 (67.6%) were men, 47 (32.4%) were women, 3% were <15 and 9% were >65 years old; male to female ratio was 1:2.4. PCR result of katG for a 620-bp amplicon was successful for all purified M. tuberculosis isolates and there was no positive M. tuberculosis culture with PCR negative results (100% specificity). Subsequent PCR RFLP of the katG identified mutation at KatG463 in 33.3%, 57.8% and 59.2% of our clinically susceptible, multidrug resistant TB (MDR) and extensively drug resistant (XDR) isolates, respectively. Strains of H37Rv and Academic had no any mutations in this codon. M. bovis was used as a positive control for mutation in KatG463. Automated DNA sequencing of the katG amplicon from randomly selected INH-susceptible and resistant isolates verified 100% sequence accuracy of the point mutations detected by PCR-RFLP. We concluded that codon 463 was a polymorphic site that is associated to INH resistance (a missense or "quiet" mutation). RFLP results of katG amplicons were identical to those of sequence method. Our PCR-RFLP method has a potential application for rapid diagnosis of M. tuberculosis with a high specificity. 相似文献
14.
Yong Zhao Guilian Li Chongyun Sun Chao Li Xiaochen Wang Haican Liu Pingping Zhang Xiuqin Zhao Xinrui Wang Yi Jiang Ruifu Yang Kanglin Wan Lei Zhou 《PloS one》2015,10(11)
Drug-resistant Mycobacterium tuberculosis can be rapidly diagnosed through nucleic acid amplification techniques by analyzing the variations in the associated gene sequences. In the present study, a locked nucleic acid (LNA) probe-based real-time PCR assay was developed to identify the mutations in the rpoB gene associated with rifampin (RFP) resistance in M. tuberculosis. Six LNA probes with the discrimination capability of one-base mismatch were designed to monitor the 23 most frequent rpoB mutations. The target mutations were identified using the probes in a “probe dropout” manner (quantification cycle = 0); thus, the proposed technique exhibited superiority in mutation detection. The LNA probe-based real-time PCR assay was developed in a two-tube format with three LNA probes and one internal amplification control probe in each tube. The assay showed excellent specificity to M. tuberculosis with or without RFP resistance by evaluating 12 strains of common non-tuberculosis mycobacteria. The limit of detection of M. tuberculosis was 10 genomic equivalents (GE)/reaction by further introducing a nested PCR method. In a blind validation of 154 clinical mycobacterium isolates, 142/142 (100%) were correctly detected through the assay. Of these isolates, 88/88 (100%) were determined as RFP susceptible and 52/54 (96.3%) were characterized as RFP resistant. Two unrecognized RFP-resistant strains were sequenced and were found to contain mutations outside the range of the 23 mutation targets. In conclusion, this study established a sensitive, accurate, and low-cost LNA probe-based assay suitable for a four-multiplexing real-time PCR instrument. The proposed method can be used to diagnose RFP-resistant tuberculosis in clinical laboratories. 相似文献
15.
High-Throughput Genome Editing and Phenotyping Facilitated by High Resolution Melting Curve Analysis
With the goal to generate and characterize the phenotypes of null alleles in all genes within an organism and the recent advances in custom nucleases, genome editing limitations have moved from mutation generation to mutation detection. We previously demonstrated that High Resolution Melting (HRM) analysis is a rapid and efficient means of genotyping known zebrafish mutants. Here we establish optimized conditions for HRM based detection of novel mutant alleles. Using these conditions, we demonstrate that HRM is highly efficient at mutation detection across multiple genome editing platforms (ZFNs, TALENs, and CRISPRs); we observed nuclease generated HRM positive targeting in 1 of 6 (16%) open pool derived ZFNs, 14 of 23 (60%) TALENs, and 58 of 77 (75%) CRISPR nucleases. Successful targeting, based on HRM of G0 embryos correlates well with successful germline transmission (46 of 47 nucleases); yet, surprisingly mutations in the somatic tail DNA weakly correlate with mutations in the germline F1 progeny DNA. This suggests that analysis of G0 tail DNA is a good indicator of the efficiency of the nuclease, but not necessarily a good indicator of germline alleles that will be present in the F1s. However, we demonstrate that small amplicon HRM curve profiles of F1 progeny DNA can be used to differentiate between specific mutant alleles, facilitating rare allele identification and isolation; and that HRM is a powerful technique for screening possible off-target mutations that may be generated by the nucleases. Our data suggest that micro-homology based alternative NHEJ repair is primarily utilized in the generation of CRISPR mutant alleles and allows us to predict likelihood of generating a null allele. Lastly, we demonstrate that HRM can be used to quickly distinguish genotype-phenotype correlations within F1 embryos derived from G0 intercrosses. Together these data indicate that custom nucleases, in conjunction with the ease and speed of HRM, will facilitate future high-throughput mutation generation and analysis needed to establish mutants in all genes of an organism. 相似文献
16.
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Cheng X Zhang J Yang L Xu X Liu J Yu W Su M Hao X 《Journal of microbiological methods》2007,70(2):301-305
Prompt detection of drug resistance in Mycobacterium tuberculosis is essential for effective control of tuberculosis (TB). We developed a Multi-PCR-SSCP method that detects more than 80% commonly observed isoniazid (INH) and rifampin (RIF) resistance M. tuberculosis in a single assay. The usefulness of the newly developed method was evaluated with 116 clinical isolates of M. tuberculosis. Distinct SSCP patterns were observed for different mutations and the correlation between Multi-PCR-SSCP results and DNA sequencing data was strong. Using the culture-based phenotypic drug susceptibility testing as a reference, the sensitivity of the newly developed Multi-PCR-SSCP assay was determined to be 80% and 81.8% for INH and RIF, respectively. The specificity of the assay was 100% and 92%, for INH and RIF, respectively. Multi-PCR-SSCP provides a rapid and potentially more cost-effective method of detecting multidrug-resistant TB. 相似文献
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Negi SS Anand R Pasha ST Gupta S Basir SF Khare S Lal S 《Indian journal of experimental biology》2006,44(7):547-553
Nucleotide changes in catalase peroxidase (Kat G) gene and gene encoding the beta subunit of RNA polymerase (rpo B), responsible for isoniazid and rifampicin drug resistance were determined in the clinical isolates of Mycobacterium tuberculosis by PCR-RFLP, Line probe assay and DNA sequencing. PCR-RFLP test was performed by HapII cleavage of an amplified fragment of Kat G gene to detect the transversion 315AGC-->ACC(Ser-->Thr) which is associated with INH drug resistance. The Line probe assay kit was evaluated to detect the mutation in 81bp RMP resistance determining region of rpo B gene associated with RMP drug resistance. These results were validated by DNA sequencing and drug susceptibility test. Kat G S 315 T mutation was found in 74.19% strains of M. tuberculosis from Delhi. This mutation was not found in any of the susceptible strains tested. The line probe assay kit and DNA sequencing identified 18 isolates as RMP resistant with specific mutation, while one of the RMP resistant strain was identified as RMP susceptible, with a concordance of 94.73% with the phenotypic drug susceptibility result. Majority (8 of 19, 42.1%) of resistant isolates involved base changes at codon 531 of rpo B gene. Both PCR-RFLP and Line probe assay test can be used in many of the clinical microbiology laboratories for early detection of isoniazid and rifampicin drug resistance in clinical isolates of M. tuberculosis. 相似文献
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455 strains of Mycobacterium tuberculosis were isolated from patients with history of treatment in Taiwan Provincial Tuberculosis Control Bureau and tested for resistance against various antituberculosis agents including streptomycin (SM), paraaminosalicylic acid (PAS), isoniazid (INH), cycloserine (CS), prothionamide (1321TH), kanamycin (KM), ethambutol (EMB), and rifampicin (RFP). In vitro resistance to SM and INH was more frequently found than others and the resistance to a single drug was more common than multiple resistance. 相似文献
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Ying Wang Haiyan Zhang Shuying Yue Kun Zhang Hui Wang Rui Dong Xiaomeng Yang Yi Liu Yanhui Ma 《PloS one》2016,11(3)