植物中逆境反应相关的WRKY转录因子研究进展

WRKY转录因子是植物体内一类比较大的转录因子家族,它在植物的生长发育以及抗逆境反应中起着非常重要的作用。本文综述了WRKY转录因子在植物应对冻害、干旱、盐害等非生物胁迫与病原菌、虫害等生物胁迫反应中的重要调控功能,并概括了WRKY转录因子在调控这些逆境反应中的机制。     

稻瘟菌诱导的水稻 WRKY 基因OsWRKY52 的分离和鉴定

WRKY 蛋白参与植物对生物或非生物胁迫反应和一些发育、代谢过程,在植物中组成一个转录因子大家族 . 从水稻 cDNA 文库中分离到一个新的 WRKY 基因——— OsWRKY52 cDNA ,包括一个 1 719 bp 的开放读码框,推测编码一个由 572 个氨基酸组成的蛋白质,与燕麦 (Avena sativa) AsWRKY1 具有 54 ％的氨基酸一致性 . 该基因被非亲和性稻瘟菌快速诱导 . 凝胶阻滞实验结果表明,原核表达的 OsWRKY52 能与水稻 PR1a 启动子上的 W 盒元件特异结合 . 采用酵母单杂交体系的方法证明了 OsWRKY52 具有转录激活活性 , 其丝氨酸岛、苏氨酸岛和 C 端的富酸性氨基酸区是负责转录激活的区域 . 这些结果提示 OsWRKY52 作为一个转录激活子,可能参与植物对稻瘟菌的应答反应 .     

Annotations and functional analyses of the rice WRKY gene superfamily reveal positive and negative regulators of abscisic acid signaling in aleurone cells

The WRKY proteins are a superfamily of regulators that control diverse developmental and physiological processes. This family was believed to be plant specific until the recent identification of WRKY genes in nonphotosynthetic eukaryotes. We have undertaken a comprehensive computational analysis of the rice (Oryza sativa) genomic sequences and predicted the structures of 81 OsWRKY genes, 48 of which are supported by full-length cDNA sequences. Eleven OsWRKY proteins contain two conserved WRKY domains, while the rest have only one. Phylogenetic analyses of the WRKY domain sequences provide support for the hypothesis that gene duplication of single- and two-domain WRKY genes, and loss of the WRKY domain, occurred in the evolutionary history of this gene family in rice. The phylogeny deduced from the WRKY domain peptide sequences is further supported by the position and phase of the intron in the regions encoding the WRKY domains. Analyses for chromosomal distributions reveal that 26% of the predicted OsWRKY genes are located on chromosome 1. Among the dozen genes tested, OsWRKY24, -51, -71, and -72 are induced by abscisic acid (ABA) in aleurone cells. Using a transient expression system, we have demonstrated that OsWRKY24 and -45 repress ABA induction of the HVA22 promoter-beta-glucuronidase construct, while OsWRKY72 and -77 synergistically interact with ABA to activate this reporter construct. This study provides a solid base for functional genomics studies of this important superfamily of regulatory genes in monocotyledonous plants and reveals a novel function for WRKY genes, i.e. mediating plant responses to ABA.     

The C-terminal region of OsWRKY30 is sufficient to confer enhanced resistance to pathogen and activate the expression of defense-related genes

WRKY proteins are known to play major roles in defense signaling. We identified a pathogen-inducible and SA-inducible OsWRKY30. Our cDNA clone encodes the C-terminal region (CTR) of OsWRKY30. CTR-OsWRKY30 includes the C-terminal WRKY domain and nuclear localization sequence. CTR-OsWRKY30 was sufficient to bind W-box sequences (TTGACC/T). Over-expression of the CTR-OsWRKY30 resulted in enhanced resistance to pathogens in Arabidopsis and rice. Defense-related genes were constitutively expressed in transgenic Arabidopsis and rice over-expressing CTR-OsWRKY30. Based on promoter transient assays, CTR-OsWRKY30 is sufficient to activate OsPR10a promoter as much as full length OsWRKY30. Taken together, CTR-OsWRKY30 positively regulates defense signaling, thereby resulting in enhanced resistance to pathogens.