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细菌16S rRNA基因实时荧光定量及分型方法的建立 被引量:5

Establishment of quantifying and typing analysis of 16S rRNA gene by real-time PCR
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摘要 目的细菌培养、组织学、免疫学及普通PCR方法等在病原菌的检测方面都存在一定的不足,不能满足临床的需要,探索快速可靠的败血症和化脓性脑膜炎等细菌性感染疾病诊断的新方法是目前亟待解决的关键问题。方法分析细菌16S rRNA基因序列,在高度保守区自行设计通用引物和探针,以及革兰阳性和阴性分型探针,对12种标准菌株、23种临床培养分离株、乙型肝炎病毒、新型隐球菌及白色念珠菌、人基因组DNA等进行了荧光定量检测,分析三种探针检测结果的相关性。结果细菌16S rRNA基因荧光定量PCR具有较好的敏感性和特异性,最低能检测到10个拷贝的16S rRNA基因,即相当于2个细菌,与病毒、真菌及人基因组DNA等无交叉阳性反应;12种标准菌株、23种临床培养分离株均进行三种探针的荧光定量检测:通用探针均为阳性,18株革兰阳性菌株通过革兰阳性探针(G+Probe探针)检测为阳性,17株革兰阴性菌株通过革兰阴性探针(G-Probe探针)检测为阳性,反之均为阴性,吻合率100%。结论建立了用通用引物和分型双荧光探针的细菌荧光定量PCR定量、分型方法。其检测方便,快速、敏感性和特异性高,符合率好,同时进行定量和分型,在病原菌检测方面具有推广及应用价值。 Objective To explore a new method of rapid and reliable diagnosis of bacterial infectious diseases such as purulent meningitis and septicemia. Methods A pair of universal primers and a set of probes (including universal fluorescence probe, Gram-positive probe and Gram-negative probe) were designed based on the bacterial highly conserved region of 16S rRNA gene. By using the FQ-PCR method, 12 standard strains, 23 clinical cultural isolations and the controls such as HBV, Cryptocoeeus histolyticus, Blastomyces albieans and human DNA were detected with the three kinds of probes. The correlation among the results of the three kinds of probes detection was analyzed. Results The determination of 16S rRNA gene with FQ-PCR was a highly specific and sensitive method and not cross-reactive with human DNA, virus or fungi. The least amount of 10 copies of 16S rRNA gene which corresponded to 2 bacteria could be detected with FQ-PCR. Twelve standard strains and 23 clinical cultural isolations were detected by FQ-PCR with the three kinds of probes mentioned above. All samples presented positive results using the universal probe. The results of 16S rRNA gene detected by the Gram-positive probe were positive to the 18 G+ strains. The results of 16S rRNA gene detected by the Gramprobe were positive to the 17 G- strains. Condusions The FQ-PCR technique was established for bacteria quantifying and typing using the tmiversal primer and the double type probes. This method was convenient and rapid in detecting, quantifying and typing bacteria, with a high specificity and sensitivity.
作者 舒小莉 吴亦栋 尚世强
机构地区 浙江大学医学院附属儿童医院中心实验室
出处 《中国当代儿科杂志》 CAS CSCD 2008年第6期732-736,共5页 Chinese Journal of Contemporary Pediatrics
基金 浙江省卫生厅面上项目2006075A
关键词 通用探针 革兰阳性探针 革兰阴性探针 荧光定量 细菌 Universal primer Gram-positive probe Gram-negative probe Fluorescence quantitative polymerase chain reaction Bacteria
分类号 R378 [医药卫生—病原生物学]
  • 相关文献

参考文献14

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二级参考文献16

  • 1童美琴,尚世强,吴亦栋,赵正言.16SrRNA基因PCR加基因芯片杂交快速诊断新生儿败血症[J].中华儿科杂志,2004,42(9):663-667. 被引量:26
  • 2王荣山,吴亦栋,尚世强,杨祖卿,杜立中.实时荧光定量PCR检测细菌方法的建立及其临床应用[J].中华围产医学杂志,2005,8(4):242-245. 被引量:15
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  • 4尚世强,中华妇产科杂志,1998年,33卷,136页
  • 5Nadkarni MA, Martin FE,Jacques NA, et al. Determination of bacterial load by real-time PCR using a broad-range(universal) probe and primers set. Microbiology, 2002,148:257-266.
  • 6Lieu TA, Schwartz JS, Jaffe DM, et al. Strategies for diagnosis and treatment of children at risk for occult bacteremia: clinical effectiveness and cost-effectiveness. J Pediatr, 1991,118 : 21-29.
  • 7Downs SM, McNutt RA, Margolis PA. Management of infants at risk for occult bacteremia: a decision analysis. J Pediatr, 1991,118:11-20.
  • 8Shang S, Chen Z, Yu X. Detection of bacterial DNA by PCR and reverse hybridization in the 16S rRNA gene with particular reference to neonatal septicemia. Acta Paediatr, 2001,90:179-183.
  • 9Pas SD, Fries E, De Man RA, et al. Development of a quantitative real-time detection assay for hepatitis B virus DNA and comparison with two commercial assays. J Clin Microbiol, 2000,38:2897-2901.
  • 10Bieche I, Onody P, Laurendeau I, et al. Real-time reverse transcription-PCR assay for future management of ERBB2-based clinical applications . Clin Chem,1999,45:1148-1156.

共引文献53

同被引文献36

引证文献5

二级引证文献21

中国当代儿科杂志
2008年 第6期

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