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利用常规和实时 PCR 检测方法快速准确地检测宿主组织和土壤中的尖孢镰刀菌(Fusarium oxysporum f. sp. carthami)。

Quick and accurate detection of Fusarium oxysporum f. sp. carthami in host tissue and soil using conventional and real-time PCR assay.

机构信息

Department of Botany, University of Delhi, Delhi, 110007, India.

出版信息

World J Microbiol Biotechnol. 2018 Nov 16;34(12):175. doi: 10.1007/s11274-018-2556-y.

DOI:10.1007/s11274-018-2556-y
PMID:30446834
Abstract

Safflower wilt, caused by Fusarium oxysporum f. sp. carthami (Foc) is a major limiting factor for safflower (Carthamus tinctorius) production worldwide. In India alone, about 40-80% disease incidence has been reported. A rapid, efficient, specific, and sensitive diagnostic technique for Foc is therefore crucial to manage Fusarium wilt of safflower. Twenty-five isolates of F. oxysporum formae speciales infecting other crops, 17 isolates of Fusarium spp. and seven isolates of other fungal pathogens of safflower along with 75 Foc isolates were used for identification of band specific to Foc using inter-simple sequence repeat (ISSR) analysis. Out of 70 ISSR primers, the one that specifically amplified a 490 bp fragment from all the Foc isolates was selected. Sequence of the amplified fragment was utilized to design sequence characterized amplified region (SCAR) primers (FocScF/FocScR). The primer pair unambiguously and exclusively amplified a DNA fragment of approximately 213 bp in all the 75 Foc isolates. The primer set was able to detect as low as 10 pg of Foc genomic DNA using conventional PCR, while the SCAR primers when coupled with real-time qPCR demonstrated detection limits of 1 pg for Foc genomic DNA and 1000 conidia/g for soil. The assay enabled reliable diagnosis of Foc DNA in contaminated safflower fields and expedited Foc detection at 72 h post inoculation in asymptomatic seedlings. This method facilitates quick and precise detection of Foc in plant and soil samples and can be exploited for timely surveillance and sustainable management of the disease.

摘要

红花枯萎病是由尖孢镰刀菌红花专化型(Foc)引起的,是全球红花(Carthamus tinctorius)生产的主要限制因素。仅在印度,就有报道称该病发病率约为 40-80%。因此,快速、高效、特异、敏感的 Foc 诊断技术对于管理红花枯萎病至关重要。本研究使用了 25 个侵染其他作物的尖孢镰刀菌专化型分离物、17 个镰刀菌分离物和 7 个红花其他真菌病原体分离物,以及 75 个 Foc 分离物,通过简单重复序列间扩增多态性(ISSR)分析来鉴定 Foc 的带特异性。在 70 个 ISSR 引物中,选择了一个能特异性扩增所有 Foc 分离物 490 bp 片段的引物。扩增片段的序列被用于设计序列特征扩增区域(SCAR)引物(FocScF/FocScR)。该引物对在所有 75 个 Foc 分离物中均能明确且唯一地扩增出约 213 bp 的 DNA 片段。该引物对在常规 PCR 中可检测到低至 10 pg 的 Foc 基因组 DNA,而当与实时 qPCR 结合使用时,SCAR 引物可检测到低至 1 pg 的 Foc 基因组 DNA 和 1000 个分生孢子/g 的土壤。该检测方法可用于污染红花田块中 Foc DNA 的可靠诊断,并可在接种后 72 小时无症状幼苗中加速 Foc 的检测。该方法有利于快速准确地检测植物和土壤样品中的 Foc,并可用于及时监测和可持续管理该疾病。

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