拟南芥R2R3-MYB类转录因子在环境胁迫中的作用

MYB转录因子是植物转录因子中最大的家族之一,以含有保守的MYB结构域为共同特征,分为三个亚族（R1／2-MYB、R2R3-MYB和R1R2R3-MYB）,其中含有两个MYB结构域的R2R3-MYB成员最多,广泛参与植物次生代谢调控、细胞形态发生、胁迫应答、分生组织形成及细胞周期控制等。近年来,R2R3-MYB在植物逆境胁迫中的作用引起了广泛关注,本文综述了拟南芥R2R3-MYB蛋白在环境胁迫响应中作用的研究进展。     

The R2R3-MYB gene family in Arabidopsis thaliana

MYB factors represent a family of proteins that include the conserved MYB DNA-binding domain. In contrast to animals, plants contain a MYB-protein subfamily that is characterised by the R2R3-type MYB domain. 'Classical' MYB factors, which are related to c-Myb, seem to be involved in the control of the cell cycle in animals, plants and other higher eukaryotes. Systematic screens for knockout mutations in MYB genes, followed by phenotypic analyses and the dissection of mutants with interesting phenotypes, have started to unravel the functions of the 125 R2R3-MYB genes in Arabidopsis thaliana. R2R3-type MYB genes control many aspects of plant secondary metabolism, as well as the identity and fate of plant cells.     

杨树MYB转录因子家族基因应答盐胁迫表达特性分析

MYB转录因子家族是植物中数量最多的转录因子家族之一,在植物次生代谢调节、信号转导和抗逆等生物过程起重要作用。根据MYB转录因子结构域组成差异可分4个亚家族：即1R-MYB（MYB-relaed）、R2R3-MYB、3R-MYB和4R-MYB。其中,R2R3-MYB亚家族数量最多,可进一步分为22个亚组;利用生物信息学分析杨树MYB转录因子蛋白序列的保守结构域、系统发生、基因组定位、氨基酸组成和理化性质等;参照拟南芥MYB转录因子功能,预测杨树MYB转录因子功能;基于84K杨转录组测序和RT-qPCR分析,从301个杨树MYB转录因子基因中筛选出69个应答盐胁迫基因（P≤0.05）。其中,上调表达基因32个,下调表达基因37个。该研究可为进一步研究杨树MYB家族基因功能提供参考依据。     

Molecular characterization of 60 isolated wheat MYB genes and analysis of their expression during abiotic stress

The proteins of the MYB superfamily play central roles in developmental processes and defence responses in plants. Sixty unique wheat MYB genes that contain full-length cDNA sequences were isolated. These 60 genes were grouped into three categories, namely one R1R2R3-MYB, 22 R2R3-MYBs, and 37 MYB-related members. The sequence composition of the R2 and R3 repeats was conserved among the 22 wheat R2R3-MYB proteins. Phylogenetic comparison of the members of this superfamily among wheat, rice, and Arabidopsis revealed that the putative functions of some wheat MYB proteins were clustered into the Arabidopsis functional clades. Tissue-specific expression profiles showed that most of the wheat MYB genes were expressed in all of the tissues examined, suggesting that wheat MYB genes take part in multiple cellular processes. The expression analysis during abiotic stress identified a group of MYB genes that respond to one or more stress treatments. The overexpression of a salt-inducible gene, TaMYB32, enhanced the tolerance to salt stress in transgenic Arabidopsis. This study is the first comprehensive study of the MYB gene family in Triticeae.