水稻稻瘟病抗性基因的克隆、育种利用及稻瘟菌无毒基因研究进展

稻瘟病是世界上影响水稻(Oryza sativa)粮食生产的主要病害之一, 抗病基因的发掘与利用是抗病育种的基础和核心。随着寄主水稻和病原菌稻瘟病菌(Magnaporthe oryzae)基因组测序和基因注释的完成, 水稻和稻瘟病菌的互作体系成为研究植物与真菌互作的模式系统。该文对稻瘟病抗病基因的遗传、定位、克隆及育种利用进行概述, 并通过生物信息学分析方法, 探讨了水稻全基因组中NBS-LRR类抗病基因在水稻12条染色体上的分布情况, 同时对稻瘟病菌无毒基因的鉴定及无毒蛋白与抗病蛋白的互作进行初步分析。最后对稻瘟病抗病基因研究存在的问题进行分析并展望了未来的研究方向, 以期为水稻抗稻瘟病育种发展和抗病机制的深入理解提供参考。     

水稻白叶枯病菌pxo_04104基因功能的初步分析

水稻白叶枯病菌(Xanthomonas oryzae pv.oryzae,Xoo)是一种重要的植物病原细菌,可以引起水稻白叶枯病,使水稻减产。本研究通过对Xoo K74 Tn5插入突变体库进行致病力检测、质粒拯救定位发现pxo_04104基因与Xoo致病相关,pxo_04104基因编码periplasmic beta-glucosidase(周质β-葡萄糖苷酶)。该基因的缺失突变体及其互补菌株生理生化表型检测显示缺失突变体致病力、抗渗透压能力显著下降,其互补菌株致病力可恢复到野生型水平的84.2%,抗渗透压能力也可恢复。本研究为深入研究pxo_04104基因致病分子机理提供了线索。     

稻瘟菌无毒基因研究进展

稻瘟菌是引起水稻稻瘟病的病原物。水稻与稻瘟菌间存在广泛而特异的相互作用,是研究寄主与病原物互作的重要模式系统。本文对稻瘟菌与水稻互作最重要的激发子―无毒基因的研究现状进行了概括,讨论了无毒基因的定位、克隆方法以及已克隆无毒基因的功能及进化研究,同时对今后无毒基因研究的重要方向进行了探讨,为深入理解无毒基因的功能及与水稻可能的互作关系奠定了基础。     

水稻白叶枯病菌广西分离株K74中主效TAL效应物的鉴定

水稻是世界上主要的粮食作物之一。水稻白叶枯病(Bacterial leaf blight)是危害水稻最严重的细菌性病害,可使水稻减产20%以上,严重时甚至绝产,给农业生产和经济造成巨大影响。水稻白叶枯病由水稻白叶枯病菌(Xanthomonas oryzae pv. oryzae, Xoo)的侵染造成,而TAL效应物是Xoo的重要致病因子。近年来,该病在广西也有多发的趋势。2007年从防城港疫区分离得到Xoo K74菌株,经前期研究表明该菌株中有18个tal基因。本研究中,我们对K74菌株中的TAL效应物进行了功能研究。通过基因同源整合突变及互补等研究,我们鉴定到了K74菌株一个与致病力相关的主效TAL效应物。     

水稻白叶枯病菌T3SS基因表达及其调控网络

植物病原细菌III型分泌系统(T3SS)在其毒性表达及与寄主互作中具有重要的功能。水稻白叶枯病菌(Xanthomonas oryzae pv.oryzae,Xoo)hrp基因簇编码了T3SS装置,将毒性效应子蛋白分泌到水稻细胞内,抑制和破坏寄主免疫反应,或诱导感病基因表达,以达到成功侵染的目的。hrp基因表达受到严格调控,在模拟水稻内环境的贫瘠营养培养基中被诱导表达;hrp和效应子基因均受调控蛋白HrpG和Hrp X的调控。此外,hrp基因还受到其它毒性调控网络重要因子的调控,包括双组分调控因子、转录调控因子、DNA/RNA结合蛋白、糖代谢和c-di-GMP信号因子。结合本实验室的研究结果,综述了Xoo T3SS表达调控及其致病机理的研究进展,以期为水稻细菌病害发生机理的解析及其有效防控措施提供一些新见解、思路和途径。     

水稻白叶枯病菌△rpfxoo基因缺失突变体DSF信号产生和毒性表达

[目的]旨在阐明3个DSF/Rpfxoo信号系统成员RpfFxoo、RpfCxoo和RpfGxoo在水稻白叶枯病菌(Xanthomonas oryzae pv.oryzae,Xoo)毒性表达中的功能.[方法]用标记置换法缺失突变rpfFxoo、rpfCxoo和rpfGxoo基因,测定突变体及其互补菌株的DSF(diffusible signal factor)信号分子产生、胞外多糖(EPS)产生及其对水稻的致病性.[结果]从野生型菌株PX099A 基因组中克隆了推测与DSF信号生成和传导有关的基因rpfFxoo、rpfCxoo和rpfGxoo,获得了相应的单基因或双基因缺失突变体.与PX099A 产生DSF相比,△rpfFxoo、△rpfY+Cxoo和△rpfr+Gxoo均不产生DSF,△rpfCxoo过量产生,△rpfGxoo产量降低;rpfFxoo、rpfCxoo和rpfGxoo可以分别互补Xoo和Xce的相应基因突变体,恢复DSF产生表型.除△rpfFxoo的EPS产生无明显变化外,其余突变体的均显著减少.所有突变体对水稻的致病性均显著下降.[结论]RpfFxoo、RpfCxoo和RpfGxoo调控了Xoo的DSF信号生成、EPS产生和致病性.     

新型水稻黄单胞菌噬菌体资源的发掘与功能鉴定

由水稻黄单胞菌(Xanthomonas oryzae pv.oryzae,简称Xoo)引起的白叶枯病是水稻种植过程中毁灭性的细菌病害,对我国经济和食品安全造成巨大威胁.施用抗生素和化学生物防治手段的防控效果并不稳定,且易污染环境,还存在食品安全问题.为了应对该病害不可预知的爆发,利用噬菌体防控水稻白叶枯病可以作为一种备选方案,以减少化学杀菌剂和抗生素的使用.本研究利用中国不同水稻产区的9株水稻黄单胞菌和模式菌株PXO99A为靶标,从32份土壤样品中分离到了15个高效的Xoo噬菌体单株,说明黄单胞菌噬菌体广泛存在于中国各地的土壤中.选取其中Xoo_sp8和Xoo_sp9,电镜观察确定其具有二十面体的头部和细长的尾部,为典型的有尾噬菌体.宿主谱检测分析发现Xoo_sp8和Xoo_sp9都可以感染除PXO99A以外的9株不同生理小种的水稻黄单胞菌,且在培养基条件下能有效抑制其生长.测定其基因组序列后,根据末端酶大亚基(large terminase subunit,terL)相似性建立其与已报道的不同细菌噬菌体间的系统发育树,发现这两株噬菌体都与已报道的Xoo噬菌体亲缘关系很远,为新型的Xoo噬菌体.本研究分离发掘了15个对Xoo高效感染的噬菌体,为利用噬菌体防控水稻白叶枯病相关杀菌剂产品开发提供了宝贵的种质资源,同时也提出了土壤环境是分离Xoo噬菌体的重要来源的观点.     

水稻白叶枯病菌Δrpfxoo基因缺失突变体DSF信号产生和毒性表达

【目的】旨在阐明3个DSF/Rpfxoo信号系统成员RpfFxoo、RpfCxoo和RpfGxoo在水稻白叶枯病菌(Xanthomonas oryzae pv.oryzae,Xoo)毒性表达中的功能。【方法】用标记置换法缺失突变rpfFxoo、rpfCxoo和rpfGxoo基因,测定突变体及其互补菌株的DSF(diffusible signal factor)信号分子产生、胞外多糖(EPS)产生及其对水稻的致病性。【结果】从野生型菌株PXO99A基因组中克隆了推测与DSF信号生成和传导有关的基因rpfFxoo、rpfCxoo和rpfGxoo,获得了相应的单基因或双基因缺失突变体。与PXO99A产生DSF相比,ΔrpfFxoo、ΔrpfF+Cxoo和ΔrpfF+Gxoo均不产生DSF,ΔrpfCxoo过量产生,ΔrpfGxoo产量降低;rpfFxoo、rpfCxoo和rpfGxoo可以分别互补Xoo和Xcc的相应基因突变体,恢复DSF产生表型。除ΔrpfFxoo的EPS产生无明显变化外,其余突变体的均显著减少。所有突变体对水稻的致病性均显著下降。【结论】RpfFxoo、RpfCxoo和RpfGxoo调控了Xoo的DSF信号生成、EPS产生和致病性。     

稻瘟菌糖蛋白激发子诱导的水稻叶片膜脂过氧化及过敏性反应

将稻瘟菌细胞壁来源的专化性糖蛋白激发子接种于一套水稻抗稻瘟病近等基因系后,非亲和性互作水稻超氧阴离子(O-.2)积累在互作早期明显高于亲和性互作水稻;超氧化物歧化酶(SOD)和过氧化氢酶(CAT)活性均趋于下降,不同亲和性互作水稻间的差异不明显;脂氧合酶(LOX)活性在水稻/激发子非亲和互作早期增加明显、速度快;这些指标的变化进而导致非亲和性互作水稻的膜脂过氧化,其相对电导率及丙二醛(MDA)含量的高峰期和强度也明显早于和高于亲和性互作水稻.非亲和性互作水稻过氧化物酶(POD)活性在互作早期明显高于亲和性互作水稻,可能与其参与其它抗性有关.研究同时表明,激发子可专化性诱导完全和高度非亲和性互作水稻的过敏性坏死反应;而中度非亲和性互作和亲和性互作水稻则未发生过敏性(HR)坏死反应.这些结果表明,膜脂过氧化和HR反应的发生是激发子诱导水稻抗性的主要生理机制之一.     

引起芭蕉芋细菌性软腐病的玉米迪基氏菌(Dickeya zeae) CE1的全基因组序列及比较基因组学分析

【背景】玉米迪基氏菌(Dickeya zeae)可引起香蕉、水稻等重要作物的细菌性软腐病,并造成巨大的损失。芭蕉芋抗性较好且与病虫害相关的报道很少,本研究团队首次报道了由D. zeae CE1引起的芭蕉芋细菌性软腐病。【目的】揭示CE1菌株的全基因组序列,并与同样来源于广东香蕉和水稻的D. zeae菌株作比较基因组学分析,初步探讨D. zeae种内不同病原细菌在与寄主互作过程中可能存在的遗传分化机制。【方法】采用三代测序结合二代测序对CE1菌株进行完整基因组测序,利用比较基因组学方法分析该菌株与香蕉和水稻菌株的进化关系和基因组特征差异。【结果】细菌基因组测序表明,CE1菌株的完整基因组大小为4 714 731 bp,注释预测到4 052个编码基因。与芭蕉芋和香蕉两个寄主亲缘关系类似,基因组比较分析发现来自芭蕉芋和香蕉的病菌菌株亲缘关系较近,它们在遗传进化上明显不同于水稻菌株。基因家族分析表明,编码重要致病因子如细菌分泌系统、鞭毛蛋白、胞外多糖、规律间隔成簇短回文重复序列(clustered regularly interspaced short palindromic repeats,CRISPR)等的基因簇在不同寄主间未表现明显分化。通过进一步分析发现,有80个基因是芭蕉芋和香蕉菌株所特有的,42个基因则是水稻菌株所特有的。在芭蕉芋和香蕉菌株的特异基因中,功能预测发现有2个基因簇分别与脂肪酸合成酶和群体感应相关;然而较多的水稻菌株特异基因则与碳水化合物转运和代谢相关,另外有一个水稻菌株特异基因簇存在于CRISPR的邻接位点。【结论】比较基因组学分析确定了芭蕉芋菌株和香蕉菌株、水稻菌株间的遗传亲缘关系,并发现了数个可能与不同类型寄主互作相关的基因位点,为D. zeae病原细菌侵染与香蕉、水稻等重要作物亲缘关系较为接近的不同作物提出风险预警。     

A paralog of the MtN3/saliva family recessively confers race-specific resistance to Xanthomonas oryzae in rice

Approximately one third of the identified 34 rice major disease resistance (R) genes conferring race-specific resistance to different strains of Xanthomonas oryzae pv. oryzae (Xoo), which causes rice bacterial blight disease, are recessive genes. However, only two of the recessive resistance genes have been characterized thus far. Here we report the characterization of another recessive resistance gene, xa25, for Xoo resistance. The xa25, localized in the centromeric region of chromosome 12, mediates race-specific resistance to Xoo strain PXO339 at both seedling and adult stages by inhibiting Xoo growth. It encodes a protein of the MtN3/saliva family, which is prevalent in eukaryotes, including mammals. Transformation of the dominant Xa25 into a resistant rice line carrying the recessive xa25 abolished its resistance to PXO339. The encoding proteins of recessive xa25 and its dominant allele Xa25 have eight amino acid differences. The expression of dominant Xa25 but not recessive xa25 was rapidly induced by PXO339 but not other Xoo strain infections. The nature of xa25-encoding protein and its expression pattern in comparison with its susceptible allele in rice-Xoo interaction indicate that the mechanism of xa25-mediated resistance appears to be different from that conferred by most of the characterized R proteins.     

A CCCH-type zinc finger nucleic acid-binding protein quantitatively confers resistance against rice bacterial blight disease

Bacterial blight is a devastating disease of rice (Oryza sativa) caused by Xanthomonas oryzae pv oryzae (Xoo). Zinc finger proteins harboring the motif with three conserved cysteine residues and one histidine residue (CCCH) belong to a large family. Although at least 67 CCCH-type zinc finger protein genes have been identified in the rice genome, their functions are poorly understood. Here, we report that one of the rice CCCH-type zinc finger proteins, C3H12, containing five typical CX(8)-CX(5)-CX(3)-H zinc finger motifs, is involved in the rice-Xoo interaction. Activation of C3H12 partially enhanced resistance to Xoo, accompanied by the accumulation of jasmonic acid (JA) and induced expression of JA signaling genes in rice. In contrast, knockout or suppression of C3H12 resulted in partially increased susceptibility to Xoo, accompanied by decreased levels of JA and expression of JA signaling genes in rice. C3H12 colocalized with a minor disease resistance quantitative trait locus to Xoo, and the enhanced resistance of randomly chosen plants in the quantitative trait locus mapping population correlated with an increased expression level of C3H12. The C3H12 protein localized in the nucleus and possessed nucleic acid-binding activity in vitro. These results suggest that C3H12, as a nucleic acid-binding protein, positively and quantitatively regulates rice resistance to Xoo and that its function is likely associated with the JA-dependent pathway.     

Dynamic and Coordinated Expression Changes of Rice Small RNAs in Response to Xanthomonas oryzae pv.oryzae

Endogenous small RNAs are newly identified players in plant immune responses, yet their roles in rice(Oryza sativa) responding to pathogens are still less understood, especially for pathogens that can cause severe yield losses. We examined the small RNA expression profiles of rice leaves at 2, 6, 12, and 24 hours post infection of Xanthomonas oryzae pv. oryzae(Xoo) virulent strain PXO99, the causal agent of rice bacterial blight disease. Dynamic expression changes of some mi RNAs and trans-acting si RNAs were identified, together with a few novel mi RNA targets, including an RLK gene targeted by osa-mi R159 a.1. Coordinated expression changes were observed among some small RNAs in response to Xoo infection, with small RNAs exhibiting the same expression pattern tended to regulate genes in the same or related signaling pathways, including auxin and GA signaling pathways, nutrition and defense-related pathways. These findings reveal the dynamic and complex roles of small RNAs in rice-Xoo interactions, and identify new targets for regulating plant responses to Xoo.     

Constitutive heterologous expression of avrXa27 in rice containing the R gene Xa27 confers enhanced resistance to compatible Xanthomonas oryzae strains

The vascular pathogen Xanthomonas oryzae pv. oryzae ( Xoo ) and nonvascular pathogen Xanthomonas oryzae pv. oryzicola ( Xoc ) cause bacterial blight (BB) and bacterial leaf streak (BLS) diseases of rice, respectively. We have previously identified the avirulence gene avrXa27 from Xoo PXO99^A, which specifically induces the expression of the rice resistance gene Xa27 , ultimately leading to resistance against BB disease in rice. In this study, we have generated a transgenic rice line (L24) that expresses avrXa27 constitutively under the control of the PR1 promoter, and have examined its role in the host–pathogen interaction. L24 is not more susceptible to BB, indicating that avrXa27 does not contribute to virulence. AvrXa27 retains avirulence activity in L24 and, after crossing with a line containing Xa27 , progeny display phenotypic changes including inhibition of tillering, delay in flowering, stiff leaves, early leaf senescence and activation of pathogenesis-related ( PR ) genes. On challenge with a variety of compatible strains of Xoo and Xoc strain L8, lines with both avrXa27 and Xa27 also show enhanced resistance to bacterial infection. The induction of Xa27 and subsequent inhibition of Xoc growth in Xa27 plants are observed on inoculation with Xoc L8 harbouring avrXa27 . Our results indicate that the heterologous expression of avrXa27 in rice containing Xa27 triggers R gene-specific resistance and, at the same time, confers enhanced resistance to compatible strains of Xoo and Xoc . The expression of AvrXa27 and related proteins in plants has the potential to generate broad resistance in plants.     

Functional analysis of <Emphasis Type="Italic">pilQ</Emphasis> gene in <Emphasis Type="Italic">Xanthomanas oryzae</Emphasis> pv. <Emphasis Type="Italic">oryzae</Emphasis>, bacterial blight pathogen of rice

Bacterial blight (BB) of rice, caused by Xanthomonas oryzae pv. oryzae (Xoo), is the most devastating bacterial disease in rice. A virulence-attenuated mutant strain HNU89K9 of X. oryzae pv. oryzae (KACC10331), with a transposon insertion in the pilQ gene was used for this study. The pilQ was involved in the gene cluster pilMNOPQ of the Xoo genome. Growth rate of the pilQ mutant was similar to that of wild-type. At level of amino acids, PilQ of Xoo showed that a high sequence identities more than 94% and 70% to Xanthomonas species and to Xyllela fastidiosa, respectively but a low sequence homology less than 30% to other bacterial species. The twitching motility forming a marginal fringe on PSA media was observed on colony of the wild-type strain KACC10331, but not in mutant HNU89K9. Wild-type Xoo cells formed a biofilm on the surface of the PVC plastic test tube, while the mutant strain HNU89K9 did not form a biofilm. The results suggest that the pilQ gene of X. oryzae pv. oryzae plays a critical role in pathogenicity, twitching motility, and biofilm formation.     

我国水稻微核心种质资源对白叶枯病抗性的鉴定和评价

由Xanthomonas oryzae pv.oryzae(Xoo)引起的白叶枯病是水稻生产中普遍发生、危害严重的一种细菌病害。本研究采用我国和菲律宾的6个Xoo代表菌株,人工接种评价了来源于我国26个省份的174份水稻微核心种质资源对白叶枯病的抗性。结果表明,来源于不同稻作区的种质资源以及籼粳亚种对白叶枯病的抗性存在明显分化,6个粳稻品种和7个籼稻品种对2个或2个以上的菌株具有抗性,其中7-304、山酒谷、麻谷子、包二幅以及古154抗谱较广。本文的研究结果将为水稻抗白叶枯病育种提供有用的信息。     

OsSERK1 regulates rice development but not immunity to Xanthomonas oryzae pv. oryzae or Magnaporthe oryzae

Somatic embryogenesis receptor kinase (SERK) proteins play pivotal roles in regulation of plant development and immunity. The rice genome contains two SERK genes, OsSerk1 and OsSerk2. We previously demonstrated that OsSerk2 is required for rice Xa21-mediated resistance to Xanthomonas oryzae pv. oryzae (Xoo) and for normal development. Here we report the molecular characterization of OsSerk1. Overexpression of OsSerk1 results in a semi-dwarf phenotype whereas silencing of OsSerk1 results in a reduced angle of the lamina joint. OsSerk1 is not required for rice resistance to Xoo or Magnaporthe oryzae. Overexpression of OsSerk1 in OsSerk2-silenced lines complements phenotypes associated with brassinosteroid (BR) signaling defects, but not the disease resistance phenotype mediated by Xa21. In yeast, OsSERK1 interacts with itself forming homodimers, and also interacts with the kinase domains of OsSERK2 and BRI1, respectively. OsSERK1 is a functional protein kinase capable of auto-phosphorylation in vitro. We conclude that, whereas OsSERK2 regulates both rice development and immunity, OsSERK1 functions in rice development but not immunity to Xoo and M. oryzae.     

水稻类钙调磷酸酶亚基B蛋白质在叶片生长和白叶枯病抗性反应中的表达

钙信号介导植物对多种外部刺激的反应并参与调控广泛的生理学过程。钙离子结合蛋白质, 如类钙调磷酸酶亚基B蛋白质(calcineurin B-like protein, CBL), 对感受和传递钙信号具有重要作用。根据基因组测序及注释分析, 水稻(Oryza sativa)基因组中有10个CBL家族成员。采用基于抗体的蛋白质组学策略, 利用免疫印迹方法研究了水稻CBL蛋白质在叶片生长不同时期的表达, 揭示了其在正常发育过程中的表达模式。然后对Xa21介导的水稻白叶枯病抗性反应不同时间点的蛋白质表达进行检测, 发现OsCBL-1、OsCBL-3、OsCBL-5、OsCBL-9和OsCBL-10这5个蛋白质的表达发生了变化; 进一步比较它们在抗病、感病和对照处理中的表达情况, 发现其在不同反应间的表达也有区别, 提示了CBL蛋白质在水稻-白叶枯病菌互作过程中的功能。该研究为深入了解水稻CBL蛋白质的功能提供了有价值的线索。     

Inoculation with Xanthomonas oryzae pv. oryzae induces thylakoid membrane association of Rubisco activase in Oryza meyeriana

Oryza meyeriana is a wild species of rice with high resistance to Xanthomonas oryzae pv. oryzae (Xoo), but the resistance mechanism is poorly understood. Protein gel blot analysis and immuno-gold electron microscopy showed that Xoo infection induced an association of ribulose-1,5-bisphosphate carboxylase/oxygenase (Rubisco) activase (RCA) with the thylakoid membrane in O. meyeriana, which led to considerable decline in the initial activity and the activation state of Rubisco. In susceptible cultivated rice, RCA remained in the chloroplast stroma. RCA may play a role in resistance to Xoo in O. meyeriana that differs from its well-known role in activating Rubisco, perhaps by protecting the thylakoid membrane against damage from Xoo.