Interaction of elicitor-induced DNA-binding proteins with elicitor response elements in the promoters of parsley PR1 genes.

PR1 is a pathogenesis-related protein encoded in the parsley genome by a family of three genes (PR1-1, PR1-2 and PR1-3). Loss- and gain-of-function experiments in a transient expression system demonstrated the presence of two fungal elicitor responsive elements in each of the PR1-1 and PR1-2 promoters. These elements, W1, W2 and W3, contain the sequence (T)TGAC(C) and mutations that disrupt this sequence abolish function. Gel shift experiments demonstrated that W1, W2 and W3 are bound specifically by similar nuclear proteins. Three cDNA clones encoding sequence-specific DNA-binding proteins were isolated by South-Western screening and these proteins, designated WRKY1, 2 and 3, also bind specifically to W1, W2 and W3. WRKY1, 2 and 3 are members of the family of sequence-specific DNA-binding proteins, which we call the WRKY family. Treatment of parsley cells with the specific oligopeptide elicitor Pep25 induced a transient and extremely rapid increase in mRNA levels of WRKY1 and 3. WRKY2 mRNA levels in contrast showed a concomitant transient decrease. These rapid changes in WRKY mRNA levels in response to a defined signal molecule suggest that WRKY1, 2 and 3 play a key role in a signal transduction pathway that leads from elicitor perception to PR1 gene activation.     

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 .     

转录调控因子WRKY超级家族:起源、结构和功能

WRKY蛋白质是一个植物特有的超级转录调控因子家族,在拟南芥和水稻基因组中分别拥有至少74个和97个成员。最占老的WRKY转录调控因子拥有2个高度保守的WRKY结构域,可能起源于15～20亿年前的真核牛物。虽然所有WRKY蛋白质主要通过特异地结合靶基因启动子区域的W盒序列而调控其表达,但各家族成员基因的生物学功能存在着各自的特异性。本文详细总结了WRKY蛋白质在调控植物发育和逆境诱导反应的信号转导途径建立等方面的分子生物学功能。     

转录调控因子WRKY 超级家族: 起源、结构和功能*

WRKY 蛋白质是一个植物特有的超级转录调控因子家族, 在拟南芥和水稻基因组中分别拥有至少74 个和97 个成员。最古老的WRKY 转录调控因子拥有2 个高度保守的WRKY 结构域, 可能起源于15~ 20 亿年前的真核生物。虽然所有WRKY 蛋白质主要通过特异地结合靶基因启动子区域的W 盒序列而调控其表达, 但各家族成员基因的生物学功能存在着各自的特异性。本文详细总结了WRKY 蛋白质在调控植物发育和逆境诱导反应的信号转导途径建立等方面的分子生物学功能。     

Evidence for an Important Role of WRKY DNA Binding Proteins in the Regulation of NPR1 Gene Expression

The Arabidopsis NPR1 gene is a positive regulator of inducible plant disease resistance. Expression of NPR1 is induced by pathogen infection or treatment with defense-inducing compounds such as salicylic acid (SA). Transgenic plants overexpressing NPR1 exhibit enhanced resistance to a broad spectrum of microbial pathogens, whereas plants underexpressing the gene are more susceptible to pathogen infection. These results suggest that regulation of NPR1 gene expression is important for the activation of plant defense responses. In the present study, we report the identification of W-box sequences in the promoter region of the NPR1 gene that are recognized specifically by SA-induced WRKY DNA binding proteins from Arabidopsis. Mutations in these W-box sequences abolished their recognition by WRKY DNA binding proteins, rendered the promoter unable to activate a downstream reporter gene, and compromised the ability of NPR1 to complement npr1 mutants for SA-induced defense gene expression and disease resistance. These results provide strong evidence that certain WRKY genes act upstream of NPR1 and positively regulate its expression during the activation of plant defense responses. Consistent with this model, we found that SA-induced expression of a number of WRKY genes was independent of NPR1.     

植物WRKY转录因子家族研究进展

WRKY是植物特有的一类转录因子家族,因含有由WRKYGQK 7个氨基酸组成的保守序列而得名,在拟南芥(Arabidopsis thaliana)中共发现了74个成员.WRKY蛋白能与TTGAC序列(又称W-box)专一结合调节基因转录,其表达主要受病原菌、损伤和信号分子SA的诱导.除主要与植物的抗逆反应和衰老有关外,WRKY也参与植物其他发育和代谢的调控.在植物的抗逆反应过程中,WRKY的表达通常发生在诱导的早期,且不需要蛋白质的重新合成.     

植物WRKY 转录因子家族研究进展

WRKY是植物特有的一类转录因子家族,因含有由WRKYGQK 7个氨基酸组成的保守序列而得名,在拟南芥(Arabidopsis thaliana)中共发现了74个成员。WRKY蛋白能与TTGAC序列（又称W-box）专一结合调节基因转录,其表达主要受病原菌、损伤和信号分子SA的诱导。除主要与植物的抗逆反应和衰老有关外,WRKY也参与植物其他发育和代谢的调控。在植物的抗逆反应过程中,WRKY的表达通常发生在诱导的早期,且不需要蛋白质的重新合成。