Molecular and Pathological Variability Associated with Transposable Elements of Botrytis Cinerea Isolates Infecting Grape and Strawberry in Egypt

Q4 Agricultural and Biological Sciences International Journal of Phytopathology Pub Date : 2019-08-30 DOI:10.33687/phytopath.008.02.2943
E. Wagih, H. Wahab, M. Shehata, Magda M. Fahmy, M. A. Gaber
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引用次数: 2

Abstract

Grey mold caused by Botrytis cinerea, is known to cause great losses in most vegetable and fruit crops. Fifty-one isolates of B. cinerea were collected from grape (BCG) and strawberry (BCS) grown in different Egyptian locations. Variation among isolates was demonstrated using fenhexamid resistance and genetic approaches. Isolates were classified into various pathogenic groups depending on their reactions towards lettuce leaves. Genetic variability was identified in all isolates using transposable elements (TEs) analysis which revealed either the presence or absence of boty and flipper transposons. Furthermore, TEs typing of B. cinerea isolates demonstrated four TE types, on the basis of TE distribution in B. cinerea populations, namely, transposa (having both boty and flipper), flipper (possessing only flipper), boty (having only boty), and vacuma (lacking both boty and flipper elements). Transposa type was predominant (43.1%) and both transposa and vacuma isolate types showed no specialization with respect to host plant or plant location, while flipper type revealed a geographical preference in (BCG) isolates. Pathogenicity was also correlated to TE type as isolates containing transposa type revealed some degree of correlation with virulence behaviour, suggesting that transposa populations have higher pathogenic potential as compared to vacuma ones. The sensitivity of sampled isolates was tested against fenhexamid as one of the most important botryticides. Sensitivity to fenhexamid was shown in all isolates from strawberry and grape, grown in different locations, with low EC50 values between 0.012-0.084 μg/ml. This finding provided a cue for effective usage of fenhexamid for grey mold management. The present work demonstrated a correlation between the distribution of TEs and some fungal features such as isolate source and virulence, but no correlation was found between morphological characteristics, TE type, and sensitivity to fenhexamid. Cluster analysis based on phylogenetic tree showed that the Egyptian isolates branched as a separate divergent group from the others retrieved from GenBank, reflecting the presence of sequence polymorphism between the current isolates of B. cinerea and those previously identified.
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埃及葡萄和草莓葡萄灰霉病分离株转座因子的分子和病理变异
灰霉病是由灰霉病引起的,在大多数蔬菜和水果作物中造成巨大损失。从埃及不同地区种植的葡萄(BCG)和草莓(BCS)中分离到51株灰绿杆菌。利用芬甲塞酮抗性和遗传方法证明了分离株之间的差异。根据菌株对生菜叶片的反应,将其分为不同的致病类群。利用转座因子(te)分析鉴定了所有分离株的遗传变异,表明存在或不存在体转座子和鳍转座子。此外,根据番茄红灰霉病菌群体TE分布,番茄红灰霉病菌分离株的TE分型显示出4种TE类型,即转座型(既有身体和鳍)、鳍型(只有鳍)、体型(只有身体)和真空型(既有身体和鳍)。转座型为主要类型(43.1%),转座型和真空分离型对寄主植物和植物位置没有特异性,而鳍状型在卡介苗分离株中表现出地理偏好。致病性也与TE类型相关,因为含有转座型的分离株与毒力行为有一定程度的相关性,这表明与真空转座群体相比,转座群体具有更高的致病潜力。对所取样的分离株进行了对主要杀菌剂芬甲西芬的敏感性试验。不同产地的草莓和葡萄分离株均对芬昔芬敏感,EC50值在0.012 ~ 0.084 μg/ml之间。这一发现为芬甲胺在灰霉病防治中的有效应用提供了线索。本研究表明,TE的分布与真菌的一些特征(如分离源和毒力)有关,但形态特征、TE类型和对芬甲胺的敏感性之间没有相关性。基于系统发育树的聚类分析表明,埃及分离株与GenBank中检索到的其他分离株分离为一个独立的分支群,反映了当前分离株与先前鉴定的分离株之间存在序列多态性。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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来源期刊
International Journal of Phytopathology
International Journal of Phytopathology Agricultural and Biological Sciences-Agricultural and Biological Sciences (miscellaneous)
CiteScore
1.20
自引率
0.00%
发文量
11
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