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Springer Science and Business Media LLC Scientific Reports 13(1)
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    초록·키워드

    BES1, as the most important transcription factor responsible for brassinolide (BR) signaling, has been confirmed to play a significant role in regulating plant growth and the improvement of stress resistance. The transcriptional regulatory mechanism of BES1 has been well elucidated in several plants, such as Arabidopsis thaliana (A. thaliana), Triticum aestivum L. (T. aestivum), and Oryza sativa L. (O. sativa). Nevertheless, the genome-wide analysis of the BES1 family in Vitis vinifera L. (V. vinifera). has not been comprehensively carried out. Thus, we have conducted a detailed analysis and identification of the BES1 transcription factors family in V. vinifera; a total of eight VvBES1 genes was predicted, and the phylogenetic relationships, gene structures, and Cis-acting element in their promoters were also analyzed. BES1 genes have been divided into three groups (I, II and III) based on phylogenetic relationship analysis, and most of VvBES1 genes were in group III. Also, we found that VvBES1 genes was located at seven of the total nineteen chromosomes, whereas VvBES1-2 (Vitvi04g01234) and VvBES1-5 (Vitvi18g00924) had a collinearity relationship, and their three copies are well preserved. In addition, the intron-exon model of VvBES1 genes were mostly conserved, and there existed several Cis-acting elements related to stress resistance responsive and phytohormones responsive in BES1s genes promoter. Moreover, the BES1 expressions were different in different V. vinifera organs, and BES1 expressions were different in different V. vinifera varieties under saline-alkali stress and heat stress, the expression of VvBES1 also changed with the prolongation of saline-alkali stress treatment time. The above findings could not only lay a primary foundation for the further validation of VvBES1 function, but could also provide a reference for molecular breeding in V. vinifera.

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