药用植物根际木霉拮抗作用及分子鉴定

Q4 Agricultural and Biological Sciences
E. Marques, V. P. Abreu, Danilo Rocha De Oliveira, Moisés Rodrigues Silva, Flávio Henrique Caetano Santos, Keren Hapuque Mendes de Castro, M. G. Cunha
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引用次数: 1

摘要

木霉是世界上研究和应用最多的生物防治真菌。它的筛选是一项必要的常规工作,以便针对现有的不同农业病理系统选择更有效和特异性的菌株。本文报道了从巴西药用植物根际和有机土壤中分离的5株木霉对5种不同植物病原真菌的体外拮抗作用(Mycelial Growth Inhibition - MGI),以及基于actin (act)、calmaldulin (cal)、rDNA基因(ITS)和翻译伸长因子1-α (tef1-α)的分子鉴定。菜绿巨霉(Macrophomina phaseolina)的MGI在63.33 ~ 67.03%之间;黄萎病镰刀菌67.20% ~ 85.92%;糖化吞噬细胞介于84.00 ~ 92.90%之间;对菌核菌(Sclerotinia sclerotiorum)的拮抗率为100%,对菌核菌(Sclerotinia rolfsii)的拮抗率为62.03 ~ 79.07%。根据分子系统发育的结果,对5种拮抗真菌进行遗传标记分析,结果表明这5种拮抗真菌均属于非洲木霉属。综上所述,所评估的非洲芽孢杆菌分离株在体外对所讨论的植物病原真菌具有良好的控制水平,并将通过体内试验和促进植物生长来进行研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Antagonism and molecular identification of Trichoderma isolated from rhizosphere of medicinal plants
Trichoderma is the most studied and used fungal agent in biological disease control worldwide. Its prospection is a necessary routine, in order to select more effective and specific strains for the different existing agro pathosystems. This work reports the in vitro antagonism (Mycelial Growth Inhibition - MGI) of five Trichoderma isolates, obtained from rhizospheric and organic soil of medicinal plants cultivated in Brazil, to five different phytopathogenic fungi and their molecular identification based on actin (act), calmaldulin (cal), rDNA gene (ITS) and translation elongation factor 1-α (tef1-α). Regarding the fungus Macrophomina phaseolina, the MGI varied between 63.33 and 67.03%; for Fusarium verticillioides between 67.20 and 85.92%; Phaeocytostroma sacchari between 84.00 and 92.90%; in the case of Sclerotinia sclerotiorum, the inhibition was total (100%), and for Sclerotium rolfsii, the antagonism was between 62.03 and 79.07%. According to the molecular phylogeny performed, concatenated analysis of the genetic markers revealed that the five antagonist fungi belong to the Trichoderma afroharzianum species. It is concluded that the T. afroharzianum isolates evaluated showed good levels of in vitro control of the plant pathogenic fungi in question and will be studied via in vivo tests and in plant growth promotion.
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来源期刊
Journal of Biological Control
Journal of Biological Control Agricultural and Biological Sciences-Insect Science
CiteScore
0.50
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