Division of Plant Quarantine, ICAR-National Bureau of Plant Genetic Resources, New Delhi, 110 012, India.
Arch Microbiol. 2021 Jul;203(5):2575-2589. doi: 10.1007/s00203-021-02259-w. Epub 2021 Mar 8.
The DNA barcodes were developed from ITS region for the identification of fungal plant pathogens namely, Alternaria alternata and A. tenuissima both causing leaf spots, Ascochyta rabiei causing Ascochyta blight, Fusarium oxysporum f. sp. ciceris causing wilt, Macrophomina phaseolina causing dry root rot, Rhizoctonia solani causing web blight and wet root rot, Sclerotium (Athelia) rolfsii causing collar rot, Sclerotinia sclerotiorum causing stem rot and Cercospora canescens and Pseudocercospora cruenta both causing leaf spots in pulse crops. Barcode compliance for A. alternata (DBTPQ001-18), A. tenuissima (DBTPQ002-18), A. rabiei (DBTPQ003-18), F. oxysporum f. sp. ciceris (DBTPQ004-18), M. phaseolina (DBTPQ005-18), R. solani (DBTPQ006-18), S. rolfsii (DBTPQ007-18), S. sclerotiorum (DBTPQ008-18), C. canescens (DBTPQ009-18) and P. cruenta (DBTPQ029-20) have been generated based on the Barcode of Life Data System (BOLD) system. In addition to ITS, other genomic regions were also explored and on the basis of sequence variation they were ranked as TEF-α > SSU > LSU > β-tubulin. These genes could be considered for secondary barcode and phylogenetic relatedness. ITS-based markers for the detection of A. alternata (BAA2aF and BAA2aR) and R. solani (BRS17cF and BRS17cR) were developed which provided 400 bp and 220 bp amplicons, respectively. While, for F. oxysporum f. sp. ciceris, COX1-based marker (FOCox1F and FOCox3R) was developed which amplified 150 bp. The markers proved highly specific and sensitive with detection limit of 0.0001 ng of template DNA using qPCR and simultaneously detected these three pathogens. The DNA barcodes and diagnostics developed are suitable for quick and reliable detection of these pathogens during quarantine processing and field diagnostics.
已开发出用于鉴定真菌植物病原体的 DNA 条码,这些病原体包括引起叶斑病的链格孢Alternaria alternata 和纤细链格孢A. tenuissima、引起叶疫病的茄链格孢Ascochyta rabiei、引起枯萎病的尖孢镰刀菌Fusarium oxysporum f. sp. ciceris、引起干根腐病的旋孢腔菌Macrophomina phaseolina、引起网纹病和湿根腐病的立枯丝核菌Rhizoctonia solani、引起颈腐病的罗耳伏革菌Sclerotium (Athelia) rolfsii、引起茎腐病的核盘菌Sclerotinia sclerotiorum 以及引起豆科作物叶斑病的菜豆壳球孢菌Cercospora canescens 和拟轮枝孢 Pseudocercospora cruenta。基于生命条形码数据系统(BOLD)系统,已生成链格孢Alternaria alternata(DBTPQ001-18)、纤细链格孢A. tenuissima(DBTPQ002-18)、茄链格孢Ascochyta rabiei(DBTPQ003-18)、尖孢镰刀菌Fusarium oxysporum f. sp. ciceris(DBTPQ004-18)、旋孢腔菌Macrophomina phaseolina(DBTPQ005-18)、立枯丝核菌Rhizoctonia solani(DBTPQ006-18)、罗耳伏革菌Sclerotium (Athelia) rolfsii(DBTPQ007-18)、核盘菌Sclerotinia sclerotiorum(DBTPQ008-18)、菜豆壳球孢菌Cercospora canescens(DBTPQ009-18)和拟轮枝孢 Pseudocercospora cruenta(DBTPQ029-20)的条码符合率。除了 ITS,还探索了其他基因组区域,并根据序列变异将其排序为 TEF-α>SSU> LSU>β-微管蛋白。这些基因可被视为辅助条码和系统发育相关性。开发了用于检测链格孢Alternaria alternata(BAA2aF 和 BAA2aR)和立枯丝核菌 Rhizoctonia solani(BRS17cF 和 BRS17cR)的基于 ITS 的标记物,它们分别提供 400 bp 和 220 bp 的扩增子。而对于尖孢镰刀菌Fusarium oxysporum f. sp. ciceris,则开发了基于 COX1 的标记物(FOCox1F 和 FOCox3R),可扩增 150 bp。这些标记物具有高度的特异性和敏感性,使用 qPCR 的检测限为模板 DNA 的 0.0001 ng,可同时检测这三种病原体。开发的 DNA 条码和诊断方法适用于检疫处理和田间诊断期间快速可靠地检测这些病原体。
