耐旱性
生物
脱落酸
转基因
双分子荧光互补
转基因作物
发起人
基因
植物生理学
作物
抗旱性
植物
农学
基因表达
遗传学
作者
Jianhui Ma,Yudie Wang,Xiaoxiao Tang,Dongyang Zhao,Daijing Zhang,Chunxi Li,Wei Li,Tian Li,Lina Jiang
摘要
Abstract Wheat ( Triticum aestivum L.) is an important food crop mainly grown in arid and semiarid regions worldwide, whose productivity is severely limited by drought stress. Although various E3 ubiquitin (Ub) ligases regulate drought stress, only a few SINA‐type E3 Ub ligases are known to participate in such responses. Herein, we identified and cloned 15 TaSINA s from wheat. The transcription level of TaSINA2B was highly induced by drought, osmotic and abscisic acid treatments. Two‐type promoters of TaSINA2B were found in 192 wheat accessions; furthermore wheat accessions with promoter TaSINA2B II showed a considerably higher level of drought tolerance and gene expression levels than those characterizing accessions with promoter TaSINA2B I that was mainly caused by a 64 bp insertion in its promoter. Enhanced drought tolerance of TaSINA2B ‐overexpressing (OE) transgenic wheat lines was found to be associated with root growth promotion. Further, an interaction between TaSINA2B and TaSINA1D was detected through yeast two‐hybrid and bimolecular fluorescence complementation assays. And TaSINA1D ‐OE transgenic wheat lines showed similar drought tolerance and root growth phenotype to those observed when TaSINA2B was overexpressed. Therefore, the variation of TaSINA2B promoter contributed to the drought stress regulation, while TaSINA2B, interacting with TaSINA1D, positively regulated drought tolerance by promoting root growth.
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