Genome-Wide identification of Zn(2)-Cys(6)class fungal-specific transcription factors(ZnFTFs)and functional analysis of UvZnFTF1 in Ustilaginoidea virens
作者单位:Institute of Plant ProtectionJiangsu Academy of Agricultural Sciences School of Life SciencesJiangsu University Key Laboratory of Biology and Genetic Improvement of Oil CropsMinistry of Agriculture and Rural Affairs/Oil Crops Research InstituteChinese Academy of Agricultural Sciences School of the Environment and Safety EngineeringJiangsu University
会议名称:《中国植物病理学会2021年学术年会》
会议日期:2021年
学科分类:09[农学] 0904[农学-植物保护] 090401[农学-植物病理学]
关 键 词:Zn(2)Cys(6)-type fungal-specific transcription factor Ustilaginoidea virens rice pathogen gene silencing RNA-seq metabolism pathways effector expression pathogenhost interaction
摘 要:Transcription factors(TFs) orchestrate the regulation of cellular gene expression and thereby determine cell *** fungi,TFs play essential roles in cellular functions,but systematic analyses of these TFs are *** this study,we analyzed the distribution of TFs(ontaining both domains,which we named ZnFTFs,in ascomycete and basidiomycete *** found that ZnFTFs were widely distributed in these fungal species,but there was more expansion of the ZnFTF class in Ascomycota than in *** identified 40 ZnFTFs in Ustilaginoidea virens,a pathogen causing rice false smut disease,and demonstrated the involvement of UvZnFTFl in vegetative growth,conidiation,pigment biosynthesis,and ***-seq analysis suggested that UvZnFTFl might regulate different nutrient metabolism pathways,the production of secondary metabolites and the expression of PHI(pathogen-host interaction) genes and secreted protein-encoding *** of the distribution of different fungal TFs in *** further demonstrated that UvZnFTFs made up a large TF family and might play essential biological roles in ***.