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The study of iron‐ and copper‐binding proteome of Fusarium oxysporum and its effector candidates

效应器 蛋白质组 尖孢镰刀菌 计算生物学 化学 生物 微生物学 植物 生物信息学 细胞生物学 有机化学
作者
Ankita Singh Kushwah,Himisha Dixit,Vipin Upadhyay,Shailender Kumar Verma,Ramasare Prasad
出处
期刊:Proteins [Wiley]
卷期号:92 (9): 1097-1112
标识
DOI:10.1002/prot.26696
摘要

Abstract Fusarium oxysporum f.sp. lycopersici is a phytopathogen which causes vascular wilt disease in tomato plants. The survival tactics of both pathogens and hosts depend on intricate interactions between host plants and pathogenic microbes. Iron‐binding proteins (IBPs) and copper‐binding proteins (CBPs) play a crucial role in these interactions by participating in enzyme reactions, virulence, metabolism, and transport processes. We employed high‐throughput computational tools at the sequence and structural levels to investigate the IBPs and CBPs of F. oxysporum . A total of 124 IBPs and 37 CBPs were identified in the proteome of Fusarium . The ranking of amino acids based on their affinity for binding with iron is Glu > His> Asp > Asn > Cys, and for copper is His > Asp > Cys respectively. The functional annotation, determination of subcellular localization, and Gene Ontology analysis of these putative IBPs and CBPs have unveiled their potential involvement in a diverse array of cellular and biological processes. Three iron‐binding glycosyl hydrolase family proteins, along with four CBPs with carbohydrate‐binding domains, have been identified as potential effector candidates. These proteins are distinct from the host Solanum lycopersicum proteome. Moreover, they are known to be located extracellularly and function as enzymes that degrade the host cell wall during pathogen–host interactions. The insights gained from this report on the role of metal ions in plant–pathogen interactions can help develop a better understanding of their fundamental biology and control vascular wilt disease in tomato plants.
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