Expression of FUB-1 and FUB-11 as Toxic genes responsible for virulence during pathogenesis and combination of biocontrol agents in inhibition of Fusaric acid of Fusarium oxysporum causing Fusarium wilt of Arachis hypogaea L.

Q3 Agricultural and Biological Sciences Journal of Applied Biology and Biotechnology Pub Date : 2022-01-01 DOI:10.7324/jabb.2021.100115
R. Pilli
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Abstract

Ground nut (Arachis hypogaea L.) is one of the most important crops universally cultivated in many countries and India is the second largest producer of groundnut. Fusarium oxysporum is a soil borne and devastating fungal plant pathogen that causes Fusarium wilt in A. hypogaea. In fungi, the genes involved in secondary metabolite (SM) biosynthesis are often localized in close proximity in the genome, usually adjacent to each other, and are regulated in a co-ordinated manner. The biosynthetic gene cluster of SM encodes transcription factors, protein for transport and enzymes. Fusaric acid (FA) is a highly toxic SM derived from polyketide and is produced by several species belonging to the genus Fusarium which plays a significant role in disease development. A comparative genomic and transcriptomic analysis of the FA biosynthetic gene (FUB) cluster in A. hypogaea L. indicates that the FUB cluster is comprising 12 genes (FUB-1 to FUB-12). Among them, FUB-1 and FUB-11 are expressed significantly, and quantification by real-time polymerase chain reaction shows a 1.1-fold and 1.3-fold increase, respectively. RNA Transcriptome sequencing analysis of leaf samples infected with F. oxysporum and leaf samples treated with combinations of biocontrol agents (Trichoderma viride + Pseudomonas fluorescens) depicted 111 infected specific genes, 1162 treated specific genes, 33 up and downregulatory genes, and also the toxic levels of FA were significantly reduced (0.1-fold increase in FUB-1 and 0.3-fold increase in FUB-11 expression). Gene ontology and pathway analysis results shed light onto the genetic and biochemical mechanism for the identification of FUB genes associated with FA production in F. oxysporum infecting A. hypogaea L. and potential benefits of using combination treatments to suppress Fusarium wilt disease.
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致病毒力基因FUB-1和FUB-11的表达及联用生物防治剂抑制尖孢镰刀菌枯萎酸致花生枯萎病的研究
花生(arachhis hypogaea L.)是许多国家普遍种植的重要作物之一,印度是花生的第二大生产国。尖孢镰刀菌(Fusarium oxysporum)是一种土壤传播的毁灭性植物真菌病原体,可引起金银花枯萎病。在真菌中,参与次级代谢物(SM)生物合成的基因通常定位在基因组中的邻近位置,通常彼此相邻,并以协调的方式进行调节。SM的生物合成基因簇编码转录因子、转运蛋白和酶。镰刀菌酸(Fusaric acid, FA)是一种从聚酮中提取的高毒性SM,由镰刀菌属的几种物种产生,在疾病发展中起重要作用。一项对拟南芥FA生物合成基因(FUB)簇的比较基因组学和转录组学分析表明,FUB簇由12个基因(FUB-1至FUB-12)组成。其中FUB-1和FUB-11表达显著,实时聚合酶链反应定量显示分别增加1.1倍和1.3倍。对感染尖孢霉的叶片样品和联合生物防治剂(绿色木霉+荧光假单胞菌)处理的叶片样品进行RNA转录组测序分析,发现111个感染特异性基因,1162个处理特异性基因,33个上调和下调基因,FA的毒性水平也显著降低(FUB-1表达增加0.1倍,FUB-11表达增加0.3倍)。基因本体论和途径分析结果揭示了镰刀菌侵染地下枯萎病产生FA相关的FUB基因的遗传和生化机制,以及联合防治枯萎病的潜在效益。
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来源期刊
Journal of Applied Biology and Biotechnology
Journal of Applied Biology and Biotechnology Agricultural and Biological Sciences-Food Science
CiteScore
1.80
自引率
0.00%
发文量
181
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