中国农业科技导报2026,Vol.28Issue(1):22-33,12.DOI:10.13304/j.nykjdb.2024.1078
小麦TaBCAT-3A、TaBCAT-3B、TaBCAT-3D基因非生物胁迫应答分析
Analysis of Abiotic Stress Responses of Wheat TaBCAT-3A,TaBCAT-3B,TaBCAT-3D Genes
摘要
Abstract
Branched-chain amino acid aminotransferase(BCAT)is a key enzyme in the metabolism of branched-chain amino acids,and plays a vital role in plant growth,development and stress adaptation.The bioinformatics analysis was used to identify 3 homologous genes in wheat,TaBCAT-3A,TaBCAT-3B and TaBCAT-3D,which were orthologs of rice OsDIAT gene.These genes exhibited high similarity to OsDIAT in terms of gene structure,amino acid sequences and protein characteristics.Subcellular localization analysis revealed that TaBCAT-3A,TaBCAT-3B,TaBCAT-3D proteins primarily located in cytoplasm and chloroplasts.Promoter cis-element analysis indicated that the promoter regions of TaBCAT-3A,TaBCAT-3B and TaBCAT-3D were enriched with elements responsive to hormones and abiotic stresses.Notably,the promoter region of TaBCAT-3A contained unique defense and stress-responsive elements,further supporting its potential role in plant stress adaptation.Expression analysis demonstrated that TaBCAT-3A,TaBCAT-3B,TaBCAT-3D genes exhibited significant responses under various abiotic stresses,including low temperature,drought,high temperature and salt stress,with pronounced upregulation under low-temperature and salt stress conditions.Comparative expression analysis under drought stress in 3 drought-sensitive and 3 drought-tolerant wheat materials revealed contrasting expression patterns.In drought-tolerant materials,the expressions of TaBCAT-3A,TaBCAT-3B,TaBCAT-3D were significantly downregulated,whereas TaBCAT-3A expression in drought-sensitive materials was significantly upregulated,with no significant changes in TaBCAT-3B and TaBCAT-3D.In conclusion,TaBCAT-3A,TaBCAT-3B,TaBCAT-3D genes were responded under various abiotic stress conditions,highlighting the potential role of TaBCAT-3A in drought stress response.Above results provided new theoretical insights and practical guidance for wheat breeding improved stress resistance.关键词
小麦/BCAT基因/生物信息学分析/非生物胁迫/表达模式Key words
wheat/BCAT genes/bioinformatics analysis/abiotic stress/expression pattern分类
农业科技引用本文复制引用
贾艳凤,王伟伟,房兆峰,郭春曼,汪德州,马锦绣,王小燕,唐益苗,左静红..小麦TaBCAT-3A、TaBCAT-3B、TaBCAT-3D基因非生物胁迫应答分析[J].中国农业科技导报,2026,28(1):22-33,12.基金项目
北京市农林科学院协同创新中心资助项目(KJCX201907-2) (KJCX201907-2)
北京市农林科学院青年科研基金项目(QNJJ202316). (QNJJ202316)
