利用拓扑异构酶ⅱ的PCR-RFLP技术对致病性皮肤病菌种的内部转录间隔物rDNA和TEF-1α基因测序及近缘种的分化

Z. Salehi, M. Shams-Ghahfarokhi, M. Razzaghi-Abyaneh
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DNA was extracted from the fungal culture for amplification of topoisomerase II gene fragments and polymerase chain reaction (PCR) products were digested by Hinf I enzyme. Internal transcribed spacer (ITS) rDNA and TEF-1α regions of the all isolates were amplified using the primers of ITS1/4 and EF-DermF/EF-DermR, respectively. Results Based on the morphological criteria, 24, 24, 24 and 23 isolates were identified as T. rubrum, T. interdigitale, T. tonsurans and E. floccosum, respectively. PCR-restriction fragment length polymorphism (RFLP) results provided identification pattern of the isolates for T. rubrum (19 isolates), T. tonsurans (28 isolates), T. interdigitale (26 isolates) and E. floccosum (22 isolates). Concatenated dataset results were similar in PCR-RFLP, except six T. interdigitale isolates belonging to T. mentagrophytes. 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引用次数: 1

摘要

目的准确鉴定皮肤真菌种类,有助于改善人和动物皮肤真菌病的治疗和控制措施。本研究旨在评估基因测序和基于dna片段多态性分析的分子工具的有效性,以准确鉴定和区分从临床皮肤真菌病例中分离的密切相关的皮肤真菌物种,以及它们对当前抗真菌药物的抗真菌敏感性。材料与方法本实验将95份皮肤样品接种于28℃的真菌琼脂中,接种时间为2周。对分离的皮癣菌的形态特征进行了评价。从真菌培养物中提取DNA,扩增拓扑异构酶II基因片段,聚合酶链反应(PCR)产物用Hinf I酶消化。用ITS1/4引物和EF-DermF/EF-DermR引物分别扩增各菌株的ITS rDNA和TEF-1α区。结果经形态学鉴定,分别有24株、24株、24株和23株分离菌株为棕踏踏菌、指间踏踏菌、tonsurans踏踏菌和絮状踏踏菌。聚合酶链反应-限制性片段长度多态性(RFLP)结果为19株红绒假体(T. rubrum)、28株tonsurans、26株间指假体(T. interdigitale)和22株絮状假体(E. flocosum)提供了菌株的鉴定模式。PCR-RFLP分析结果与其他菌株相似,只有6株间指霉属植物。结论常规形态学和PCR-RFLP方法不能准确鉴定出所有的皮菌种类,也不能准确鉴定出近缘种(如interdigitale和mentagrophytes)的分化,而ITS rDNA和TEF-1α基因序列分析在属和种水平上对所有分离株进行准确鉴定。
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Internal Transcribed Spacer rDNA and TEF-1α Gene Sequencing of Pathogenic Dermatophyte Species and Differentiation of Closely Related Species Using PCR-RFLP of The Topoisomerase II
Objective Precise identification of dermatophyte species significantly improves treatment and controls measures of dermatophytosis in human and animals. This study was designed to evaluate molecular tools effectiveness of the gene sequencing and DNA-based fragment polymorphism analysis for accurate identification and differentiation of closely- related dermatophyte species isolated from clinical cases of dermatophytosis and their antifungal susceptibility to the current antifungal agents. Materials and Methods In this experimental study, a total of 95 skin samples were inoculated into mycobiotic agar for two weeks at 28˚C. Morphological characteristics of the isolated dermatophytes were evaluated. DNA was extracted from the fungal culture for amplification of topoisomerase II gene fragments and polymerase chain reaction (PCR) products were digested by Hinf I enzyme. Internal transcribed spacer (ITS) rDNA and TEF-1α regions of the all isolates were amplified using the primers of ITS1/4 and EF-DermF/EF-DermR, respectively. Results Based on the morphological criteria, 24, 24, 24 and 23 isolates were identified as T. rubrum, T. interdigitale, T. tonsurans and E. floccosum, respectively. PCR-restriction fragment length polymorphism (RFLP) results provided identification pattern of the isolates for T. rubrum (19 isolates), T. tonsurans (28 isolates), T. interdigitale (26 isolates) and E. floccosum (22 isolates). Concatenated dataset results were similar in PCR-RFLP, except six T. interdigitale isolates belonging to T. mentagrophytes. Conclusion Our results clearly indicated that conventional morphology and PCR-RFLP were not able to precisely identify all dermatophyte species and differentiation of closely related species like T. interdigitale and T. mentagrophytes, while ITS rDNA and TEF-1α gene sequence analyses provided accurate identification of all isolates at the genus and species level.
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