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基因芯片技术检测环境中常见致病菌的初步研究
引用本文:靳连群,李君文,王升启,晁福寰,王新为. 基因芯片技术检测环境中常见致病菌的初步研究[J]. 中华微生物学和免疫学杂志, 2003, 23(1): 74-78
作者姓名:靳连群  李君文  王升启  晁福寰  王新为
作者单位:1. 军事医学科学院卫生学环境医学研究所
2. 军事医学科学院放射医学研究所
基金项目:国家自然科学基金资助项目 ( 30 0 70 6 43),86 3资助项目 (SZ0 30 5 )
摘    要:目的:为了快速,准确地检测环境中存在的致病菌,建立一种采用基因芯片技术对环境中常见致病检测和鉴定的实验方法。方法:采用合成后点样的方法把自行设计合成的一系列寡核苷酸探针固定在经过醛基化修饰的显微镜载玻片上,制成用于致病菌检测的基因芯片。结果:在相同的条件下,扩增了涉及12个菌属的151株细菌的165rDNA基因片段并与基因芯片杂交,经Scan-Array3000芯片阅读仪扫描得到特异性的交杂图,归纳这些杂交图,得到一套属(种)特异的典型杂交图谱。待检的样品菌与基因芯片进行杂交,得到的杂交结果与典型图谱比对即可判断出样品的种类。用这样的方法对从实际样品中分离的细菌进行检测,准确率表达了96.2%(25/26)。结论:该项技术的建立为今后更大规模的检测研究奠定了基础,可以推广应用于感染性疾病诊断,环境监测,食品卫生监督,商品检验检疫等领域。

关 键 词:基因芯片技术 检测环境 致病菌 核苷酸微阵列 分离菌株 杂交检测
修稿时间:2001-12-03

Detection and identification of pathogenic bacteria by hybridization to an oligonucleotide microarray
JIN Lian-qun,LI Jun-wen,WANG Sheng-qi,CHAO Fu-huan,WANG Xin-wei. Tianjin Institute of Hygiene Environmental Medicine,Tianjin ,China Corresponding author: LI Jun-wen,E-mail: junwen-li@sina.com. Detection and identification of pathogenic bacteria by hybridization to an oligonucleotide microarray[J]. Chinese Journal of Microbiology and Immunology, 2003, 23(1): 74-78
Authors:JIN Lian-qun  LI Jun-wen  WANG Sheng-qi  CHAO Fu-huan  WANG Xin-wei. Tianjin Institute of Hygiene Environmental Medicine  Tianjin   China Corresponding author: LI Jun-wen  E-mail: junwen-li@sina.com
Affiliation:JIN Lian-qun,LI Jun-wen*,WANG Sheng-qi,CHAO Fu-huan,WANG Xin-wei. *Tianjin Institute of Hygiene Environmental Medicine,Tianjin 300050,China Corresponding author: LI Jun-wen,E-mail: junwen-li@sina.com
Abstract:Objective To detect the pathogenic bacteria in environment quickly and accurately. Methods A rapid (<3 h) procedure based on the gene chip technology was set up. It composed of three steps: firstly, amplifying a portion of the 16S rDNA to get the target gene; secondly, developing an oligonucleiotide microarray to hybridize with the target genes and to detect the fluorescent signals with ScanArray 3000 scanner. Results One hundred and fifty one strains of bacteria in pure culture belonged to 12 genera that could be successfully discriminated. A series of specific hybridization maps corresponding to each kind of bacterium were obtained. When this procedure was applied to 26 unselected cultures, 25 (96.2%) were correctly identified. Conclusion The accuracy, range, and discriminatory power of the oligonucleotide microarray can be further extended by adding oligonucleotides to the arrays without significantly increasing complexity or cost. [
Keywords:Gene chip  Oligonucleotide microarray  Pathogenic bacteria
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