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基于鹦鹉热嗜衣原体ompA基因序列分析,采用新型DNA微阵列分析法进行鹦鹉热嗜衣原体基因分型。

Genotyping of Chlamydophila psittaci using a new DNA microarray assay based on sequence analysis of ompA genes.

作者信息

Sachse Konrad, Laroucau Karine, Hotzel Helmut, Schubert Evelyn, Ehricht Ralf, Slickers Peter

机构信息

Friedrich-Loeffler-Institut (Federal Research Institute for Animal Health), Insitute of Molecular Pathogenesis, Jena, Germany.

出版信息

BMC Microbiol. 2008 Apr 17;8:63. doi: 10.1186/1471-2180-8-63.

Abstract

BACKGROUND

The currently used genotyping system for the avian zoonotic pathogen Chlamydophila (C.) psittaci has evolved from serology and is based on ompA sequence variations. It includes seven avian and two non-avian genotypes. Restriction enzyme cleavage of the amplified ompA gene and, less frequently, ompA sequencing are being used for examination, but, beside methodological limitations, an increasing number of recently tested strains could not be assigned to any established genotype.

RESULTS

Comprehensive analysis of all available ompA gene sequences has revealed a remarkable genetic diversity within the species C. psittaci, which is only partially covered by the present genotyping scheme. We suggest adjustments and extensions to the present scheme, which include the introduction of subgroups to the more heterogeneous genotypes A, E/B and D, as well as six provisional genotypes representing so far untypable strains. The findings of sequence analysis have been incorporated in the design of a new DNA microarray. The ArrayTubetrade mark microarray-based ompA genotyping assay has been shown to discriminate among established genotypes and identify so far untyped strains. Its high specificity, which allows detection of single-nucleotide polymorphisms, is due to the parallel approach consisting in the use of 35 hybridization probes derived from variable domains 2 and 4 of the ompA gene.

CONCLUSION

The traditional genotyping system does not adequately reflect the extent of intra-species heterogeneity in ompA sequences of C. psittaci. The newly developed DNA microarray-based assay represents a promising diagnostic tool for tracing epidemiological chains, exploring the dissemination of genotypes and identifying non-typical representatives of C. psittaci.

摘要

背景

目前用于禽源人畜共患病原体鹦鹉热衣原体的基因分型系统是从血清学发展而来的,基于ompA序列变异。它包括七种禽源基因型和两种非禽源基因型。扩增的ompA基因的限制性内切酶切割以及较少使用的ompA测序被用于检测,但是,除了方法学上的局限性外,越来越多最近检测的菌株无法被归入任何已确定的基因型。

结果

对所有可用的ompA基因序列进行的综合分析揭示了鹦鹉热衣原体物种内显著的遗传多样性,目前的基因分型方案仅部分涵盖了这种多样性。我们建议对当前方案进行调整和扩展,包括在更具异质性的基因型A、E/B和D中引入亚组,以及六个代表迄今无法分型菌株的临时基因型。序列分析的结果已被纳入一种新的DNA微阵列的设计中。基于ArrayTube商标微阵列的ompA基因分型检测已被证明能够区分已确定的基因型并识别迄今未分型的菌株。其高特异性允许检测单核苷酸多态性,这归因于使用来自ompA基因可变区2和4的35个杂交探针的并行方法。

结论

传统的基因分型系统不能充分反映鹦鹉热衣原体ompA序列中种内异质性的程度。新开发的基于DNA微阵列的检测方法是一种有前途的诊断工具,可用于追踪流行病学链条、探索基因型的传播以及识别鹦鹉热衣原体的非典型代表。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/63ae/2362127/b40ee3ff97b8/1471-2180-8-63-1.jpg

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