Key Laboratory of Tropical Forest Ecology, Xishuangbanna Tropical Botanical Garden, Chinese Academy of Sciences, Kunming, Yunnan 650223, China.
Plant Sci. 2012 Apr;185-186:288-97. doi: 10.1016/j.plantsci.2011.12.003. Epub 2011 Dec 9.
The WRKY transcription factors are involved in plant resistance against both biotrophic and necrotrophic pathogens. Arabidopsis WRKY46 is specifically induced by salicylic acid (SA) and biotrophic pathogen Pseudomonas syringae infection. To determine its possible roles in plant defense and elucidate potential functional redundancy with structurally related WRKY70 and WRKY53, we examined loss-of-function T-DNA insertion single, double and triple mutants, as well as gain-of-function transgenic WRKY46 over-expressing plants in response to P. syringae. WRKY46 over-expressing plants were more resistant to P. syringae. In contrast, pathogen-infected wrky46wrky70, wrky46wrky53 double mutants and wrky46wrky70wrky53 triple mutants showed increased susceptibility to this pathogen, with increased bacterial growth and more severe disease symptoms. The contrasting responses of gain-of-function plants and loss-of-function mutants were correlated with increased or reduced expression of defense-related PR1 gene. Expression studies of WRKY46, WRKY70, and WRKY53 in various defense-signaling mutants suggested that they are partially involved in SA-signaling pathway. In addition, our findings demonstrated negative cross-regulation among these three genes. These results indicate that WRKY46, WRKY70, and WRKY53 positively regulate basal resistance to P. syringae; and that they play overlapping and synergetic roles in plant basal defense.
WRKY 转录因子参与植物对生物亲和和坏死亲和病原体的抗性。拟南芥 WRKY46 被水杨酸(SA)和生物亲和性病原体丁香假单胞菌感染特异性诱导。为了确定其在植物防御中的可能作用,并阐明与结构相关的 WRKY70 和 WRKY53 之间可能存在的功能冗余性,我们研究了功能丧失 T-DNA 插入的单、双和三突变体,以及过表达 WRKY46 的转基因植物对丁香假单胞菌的反应。WRKY46 过表达植物对丁香假单胞菌更具抗性。相比之下,感染病原体的 wrky46wrky70、wrky46wrky53 双突变体和 wrky46wrky70wrky53 三突变体对该病原体的敏感性增加,细菌生长增加,疾病症状更严重。功能获得植物和功能丧失突变体的相反反应与防御相关 PR1 基因的表达增加或减少有关。在各种防御信号突变体中对 WRKY46、WRKY70 和 WRKY53 的表达研究表明,它们部分参与了 SA 信号通路。此外,我们的研究结果表明这三个基因之间存在负交叉调控。这些结果表明,WRKY46、WRKY70 和 WRKY53 正向调节对丁香假单胞菌的基础抗性;它们在植物基础防御中发挥重叠和协同作用。
