Characterization and mapping of a novel light-dependent lesion mimic mutant lmm6 in rice(Oryza sativa L.)

A novel rice lesion mimic mutant (LMM) was isolated from an ethane methyl sulfonate (EMS)-induced 02428 mutant bank. The mutant, tentatively designated as lmm6, develops necrotic lesions in the whole growth period along with changes in several important agronomic traits. We found that the initiation of the lesions was induced by light and cel death occurred in lmm6 accompanied with accumulation of reactive oxygen species (ROS). The lower chlorophyl content, soluble protein content and superoxide dismutase (SOD) activity, the higher malondialdehyde (MDA) content were detected in lmm6 than in the wild type (WT). Moreover, the observation by transmission electronic microscope (TEM) demonstrated that some organel es were damaged and the stroma lamel a of chloroplast was irregular and loose in mesophyl cel of lmm6. In addition, lmm6 was more resistant than WT to rice blast fungus Magnaporthe grisea infection, which was consistent with increased expression of four genes involved in the defense-related reaction. Genetic analysis showed that mutant trait of lmm6 is inherited as a monogenic recessive nuclear gene located on the long arm of chromosome 6. Using simple sequence repeat (SSR) markers, the target gene was ifnal y delimited to an interval of 80.8 kb between markers MM2359 and MM2370, containing 7 annotated genes. Taken together, our results provide the information to identify a new gene involved in rice lesion mimic, which wil be helpful in clarifying the mechanism of cel death and disease resistance in rice.

水稻类病斑突变体lmm4的鉴定及其基因定位

在EMS诱变的日本晴突变体库中,筛选到一个类病斑突变体。该突变体类病斑出现于分蘖始期,而后慢慢扩散至叶鞘、茎秆,最后至整个植株,属于扩散型类病斑突变体。相比野生型,突变体的lmm4的株高明显降低,有效穗数减少,穗长缩短,结实率、每穗实粒数、千粒重均显著降低。遮光处理实验表明,突变体lmm4类病斑的产生受自然光诱导。突变体lmm4的光合色素含量和净光合速率明显低于野生型。电子显微镜观察发现突变体类病斑部位叶肉细胞中的叶绿体结构发育异常。台盼蓝染色实验表明突变体类病斑部有大量的死亡细胞。二氨基联苯胺染色实验表明类病斑部位有过氧化氢沉积。稻瘟病抗性鉴定结果表明,与野生型相比,突变体lmm4对C7和G1等稻瘟病菌生理小种的抗性明显增强。实时PCR分析证明在突变体lmm4中防卫反应相关基因POC1、PAL、PBZ1、PR1的表达量显著提高。遗传分析表明突变体表型符合单隐性核基因控制的遗传规律。lmm4定位在第5染色体着丝粒附近Ind-4和Ind-6之间大约235kb的区域内。

水稻失控性细胞坏死突变体rcd1的鉴定与基因定位

本研究通过筛选水稻籼型恢复系明恢86的组培变异后代,获得一个失控性细胞坏死突变体rcd1(runaway cell death 1)。结果显示:从苗期后期起,rcd1叶片出现橙黄色类病斑;分蘖期后,类病斑性状加剧;抽穗期后,类病斑串联成片,茎、叶、穗干枯,并衰亡。q RT-PCR分析表明,Os PR1b、Os NAC4、Os PAL1、Os CHT1、Os CHT3、Os POC1等病程相关基因在rcd1类病斑叶片组织中表达量明显高于其在野生型叶片组织中的表达水平。田间调查发现,rcd1突变体表现出对胡麻斑病抗性增强。遗传分析显示,rcd1突变性状由单一隐性核基因控制。利用93-11与rcd1配制的F2群体进行基因定位,将rcd1定位在水稻第12染色体着丝粒附近In Del标记ID7909和ID8337之间约428 kb的区间。测序及共分离分析发现,rcd1与SL基因等位。在rcd1突变体中,SL基因编码区发生G1205T的单碱基突变,导致第370位氨基酸Arg→Leu的变异。本研究结果可为更深入解析rcd1调控水稻类病斑形成及抗病应答机制奠定了基础。

水稻类病变突变体T34的鉴定和候选基因分析

利用EMS处理浙粳22种子,从突变体库中筛选获得了1个水稻类病变突变体T34。T34突变体从3叶期开始在叶片及叶鞘出现橘红色斑块,并随着生长发育可布满整个植株;类病斑的形成不受温度的影响。组织化学染色分析显示T34表现为细胞自主性死亡的坏死病斑。T34突变体对2个白叶枯病菌小种的抗性显著增强。遗传分析表明,T34类病变性状由1对隐性基因控制。以T34突变体与籼稻9311杂交的F2分离群体作为定位群体,将突变基因定位在12号染色体短臂上着丝点附近分子标记STS-12-50和STS-12-34之间的360 kb区域内。测序分析发现,该基因与SL基因等位,在编码区第673位碱基G突变成T,导致其蛋白225-天冬氨酸突变成225-酪氨酸,与已报道的sl/spl1突变体SL基因突变位点均不同。生物信息学方法分析发现T34突变体SL蛋白三级结构与野生型的存在较大差异,推测这一单碱基突变导致了类病变性状的发生。