Construction of Phylogenetic Tree of Coat Protein Gene Encoded by Begomoviruses to Detect Yellow Mosaic Viruses Infecting Soybean in Satna

Current Biotechnology Pub Date : 2020-11-13 DOI:10.2174/2211550109666201113111042

J. Pandey, R. Garg, Dr Ashwini A. Waoo

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Abstract

Soybean is an essential legume crop that has grown mainly in Madhya Pradesh. It supplies over 25% of the vegetable oil requirement of the country and a substantial quantum of protein-rich by-product for animal feed requirements. Viral diseases caused by Begomoviruses, it is transmitted by whiteflies (Bemisia tabaci), responsible for yield reduction and economic losses in soybean production in Madhya Pradesh. The research aimed to detect Begomovirus such as Mungbean Yellow Mosaic India Virus (MYMIV) in soybean around District Satna, Madhya Pradesh, India, and construct a phylogenetic tree to study the evolutionary relationship. The disease percentage caused by Begomovirus present in soybean plants was analyzed using yellowing symptomatic samples in soybean in production areas. DNA isolation was performed from the collected symptomatic samples showing yellowing by using the CTAB method. The detection of Begomovirus MYMIV was carried out, encoded by coat protein (CP) genes by using specific primer-based polymerase chain reaction (PCR). Evolutionary relationship studies have been carried out further by constructing a phylogenetic tree with the help of bioinformatics tools. Results indicated that the incidence of disease ranged from 68.4-94.8%. An amplified PCR product with ~510 bp region of coat protein was amplified from infected samples of soybean. The nucleotide sequences of viral cp shared maximum nucleotide identity (94-99%) with previously identified Mungbean yellow mosaic India virus strains. The analyzed samples were formed with separate clusters with Begomoviruses, MYMIV. Infecting legumes indicated that virus related to the yellow mosaic disease has a close association with MYMIV. : All such studies will help support disease observation and control the whitefly Begomovirus in soybean which is an economically important crop by the implementation of management programs.

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大豆黄花叶病毒编码外壳蛋白基因系统发育树的构建

大豆是一种重要的豆科作物，主要生长在中央邦。它提供了该国超过25%的植物油需求，并为动物饲料需求提供了大量富含蛋白质的副产品。由begomovirus引起的病毒性疾病，它由白蝇(烟粉虱)传播，造成中央邦大豆生产的减产和经济损失。本研究目的是在印度中央邦Satna地区的大豆中检测到绿豆黄花叶印度病毒(MYMIV)等Begomovirus，并构建系统进化树来研究其进化关系。采用黄化症状样品，对大豆植株中存在的begomavirus致病率进行了分析。用CTAB法对收集的有症状的发黄样本进行DNA分离。采用特异性引物聚合酶链式反应(PCR)技术检测由外壳蛋白(CP)基因编码的Begomovirus MYMIV。借助生物信息学工具构建系统发育树，进一步开展了进化关系研究。结果:本病发病率为68.4 ~ 94.8%。从侵染的大豆样品中扩增出约510 bp的外壳蛋白区。病毒cp的核苷酸序列与先前鉴定的绿豆黄花叶印度病毒株具有最大的核苷酸同源性(94-99%)。分析的样本与Begomoviruses, MYMIV形成了单独的聚集。对豆科植物的侵染表明，黄花叶病相关病毒与MYMIV密切相关。本研究将为我国重要经济作物大豆白蝇病的观察和防治提供科学依据。

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Current Biotechnology

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