State Key Laboratory of Plant Genomics and National Center for Plant Gene Research (Beijing), Institute of Genetics and Developmental Biology, Chinese Academy of Sciences, Beijing 100101, China.
Plant J. 2011 Jun;66(6):996-1007. doi: 10.1111/j.1365-313X.2011.04557.x. Epub 2011 Apr 12.
In this study, we characterized the semi-dominant mutant nls1-1D (necrotic leaf sheath 1) of rice, which displays spontaneous lesions, specifically on leaf sheaths, with a developmental pattern. nls1-1D plants also exhibited constitutively activated defense responses, including extensive cell death, excess hydrogen peroxide and salicylic acid (SA) accumulation, up-regulated expressions of pathogenesis-related genes, and enhanced resistance to bacterial pathogens. Map-based cloning revealed that NLS1 encodes a typical CC-NB-LRR-type protein in rice. The nls1-1D mutation causes a S367N substitution in the non-conserved region close to the GLPL motif of the NB domain. An adjacent S366T substitution was found in another semi-dominant mutant, nls1-2D, which exhibited the same phenotypes as nls1-1D. Combined analyses of wild-type plants transformed with the mutant NLS1 gene (nls1-1D), NLS1 RNAi and over-expression transgenic lines showed that nls1-2D is allelic to nls1-1D, and both mutations may cause constitutive auto-activation of the NLS1 R protein. Further real-time PCR analysis revealed that NLS1 is expressed constitutively in an age-dependent manner. In addition, because the morphology and constitutive defense responses of nls1-1D were not suppressed by blocking SA or NPR1 transcript accumulation, we suggest that NLS1 mediates both SA and NPR1-independent defense signaling pathways in rice.
在这项研究中,我们对水稻半显性突变体 nls1-1D(坏死叶鞘 1)进行了特征描述,该突变体表现出自发性病变,特别是在叶鞘上,具有发育模式。nls1-1D 植株还表现出组成型激活的防御反应,包括广泛的细胞死亡、过量的过氧化氢和水杨酸(SA)积累、相关病程相关基因的上调表达以及对细菌病原体的增强抗性。基于图谱的克隆表明,NLS1 在水稻中编码一种典型的 CC-NB-LRR 型蛋白。nls1-1D 突变导致 NB 结构域 GLPL 基序附近非保守区域的 S367N 取代。在另一个半显性突变体 nls1-2D 中发现了一个相邻的 S366T 取代,该突变体表现出与 nls1-1D 相同的表型。野生型植物转化突变型 NLS1 基因(nls1-1D)、NLS1 RNAi 和过表达转基因系的综合分析表明,nls1-2D 是 nls1-1D 的等位基因,这两种突变可能导致 NLS1 R 蛋白的组成型自动激活。进一步的实时 PCR 分析表明,NLS1 以年龄依赖的方式组成型表达。此外,由于阻断 SA 或 NPR1 转录物积累不能抑制 nls1-1D 的形态和组成型防御反应,我们认为 NLS1 在水稻中介导 SA 和 NPR1 非依赖的防御信号通路。
