WRKY转录因子超家族的研究

WRKY转录因子是一类能与W盒特异结合的DNA结合蛋白,最初从植物中分离获得,该家族因子均含有一个或两个保守的WRKY结构域,该结构域约含有60个氨基酸残基,在WRKYGQK残基核心序列之后接有一个C2H2或C2HC类型的锌指基序。WRKY转录因子在高等植物中形成一个庞大的基因家族,基因数量众多。大量的实验证据说明,WRKY蛋白参与植物的抗病反应,并影响植物的衰老、抗胁迫能力以及生长和发育。     

Ten informative markers developed from WRKY sequences in coconut (Cocos nucifera)

Coconut (Cocos nucifera L.) WRKY sequences containing single nucleotide polymorphisms (SNPs) and one microsatellite repeat were used to develop 10 informative markers. These markers were evaluated in 15 genotypes representing six coconut cultivars. SNP‐containing alleles were detected by single‐strand conformation polymorphism (SSCP) analysis. The number of detected alleles ranged from two to four. Five pairs of loci were in linkage disequilibrium in the test population. These markers are currently being evaluated in more individuals/cultivars to determine their value in estimating the genetic diversity of this species.     

Isolation and characterization of two pathogen- and salicylic acid-induced genes encoding WRKY DNA-binding proteins from tobacco

A pathogen- and salicylic acid (SA)-induced DNA-binding activity has been recently identified in tobacco that is related to a previously identified class of WRKY DNA-binding proteins. To identify members of the WRKY gene family associated with this DNA-binding activity, we have attempted to isolate those WRKY genes that are induced by pathogen infection. Using a domain-specific differential display procedure, we have isolated two tobacco WRKY genes, tWRKY3 and tWRKY4, that are rapidly induced in resistant tobacco plants after infection by tobacco mosaic virus (TMV). Both tWRK3 and tWRKY4 encode proteins with a single WRKY domain that contain the conserved WRKYGQK sequence. Unlike other isolated WRKY proteins that contain the Cys₂His₂ zinc motif, tWRKY3 and tWRKY4 appear to contain the Cys₂HisCys zinc motif. Nonetheless, both tWRKY3 and tWRKY4 are capable of binding DNA molecules with the W-box (TTGAC) element recognized by other WRKY proteins. Expression of the tWRKY3 and tWRKY4 genes could be rapidly induced not only by TMV infection but also by SA or its biologically active analogues that are capable of inducing pathogenesis-related genes and enhanced resistance. Interestingly, induction of both genes by TMV infection was still observed in resistant tobacco plants expressing the bacterial salicylate hydroxylase gene (nahG), although the levels of induction appeared to be reduced. Identification of pathogen- and SA-induced genes encoding WRKY DNA-binding proteins should facilitate future studies on the regulation and functions of this novel group of DNA-binding proteins.     

Identification of genes encoding receptor-like protein kinases as possible targets of pathogen- and salicylic acid-induced WRKY DNA-binding proteins in Arabidopsis

To understand how plant host genes are regulated during the activation of plant defence responses, we are studying a group of pathogen- and salicylic acid (SA)-induced DNA-binding proteins containing the novel WRKY domain. To identify downstream target genes of these WRKY proteins, we have searched the Arabidopsis genome and identified four closely linked genes on chromosome IV that contain an unusually large number of the W-box sequences [(T)TGAC(C/T)] recognized by WRKY proteins within a few hundred base pairs upstream of their coding regions. All four genes encode proteins characteristic of receptor-like protein kinases (RLK), each consisting of an N-terminal signal sequence, an extracellular receptor domain, a single transmembrane domain and a C-terminal cytoplasmic serine/threonine protein kinase domain. All four RLK genes were induced by treatment with SA or infection by a bacterial pathogen. Studies with one of the RLK genes (RLK4) indicated that a cluster of W-box elements in its promoter region were recognized by both purified WRKY proteins and SA-induced W-box binding activities from SA-treated Arabidopsis plants. Further analysis using the RLK4 gene promoter fused to a reporter gene in transgenic Arabidopsis indicated that the consensus WRKY protein-binding sites in the RLK4 gene promoter were important for the inducible expression of the reporter gene. These results indicate that pathogen- and SA-induced W-box binding proteins regulate not only genes encoding defence proteins with direct or indirect anti-microbial activities, but also genes encoding proteins with regulatory functions.