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1.
《植物病理学报》2016,(1)
γ-变形菌纲(γ-Proteobacteria)的黄单胞菌属(Xanthomonas)的大多数种类可引起植物病害,多数是我国检疫对象。与其他革兰氏阴性植物病原细菌一样,植物病原黄单胞菌可通过高度保守的Ⅲ型分泌系统(type-Ⅲsecretion system,T3SS)分泌效应蛋白(T3SS-secreted effectors,T3SEs)进入植物细胞,在非寄主植物和抗病寄主植物上产生过敏反应(hypersensitive response,HR)以及在感病寄主植物上具有致病性。尚不清楚哪些种类的黄单胞菌具有T3SS和缺少哪些T3SE是否可作为检疫的依据。搜集7种检疫性植物病原黄单胞菌,通过PCR和Southern杂交试验结果发现:香蕉细菌性青枯病菌(X.campestris pv.musacearum)的ICMP287和ATCC49084菌株、甘蔗流胶病菌(X.axonopodis pv.vasculorum)ATCC13901菌株、洋葱细菌性叶枯病菌(X.axonopodis pv.allii)的LMG576和LMG578菌株中不含有tale基因,并且ATCC13901菌株既不含有T3SS基因也不含有hpal和xopQ基因;菜豆细菌性疫病菌(X.campestris pv.phaseoli)ATCC49119菌株不含有hpal基因。相应地,推测含有2~12个tale基因的黄单胞菌有:大豆斑疹病菌(X.axonopodis pv.glycines)ICMP5732和ATCC43911菌株、豌豆细菌性疫病菌(X.axonopodis pv.vignicola)ATCC11648菌株、棉花细菌性角斑病菌(X.campestris pv.malvacearum)ATCC12131和(X.campestris pv.phaseoli)ATCC49119菌株。大豆细菌性斑疹病菌ATCC43911菌株尽管含有hpal、xopQ和hrcC基因,但在非寄主烟草上不能激发HR反应;而甘蔗流胶病菌ATCC13901菌株不含有hpal、xopQ和hrcC基因,却激发烟草产生HR反应。这些结果对于分析比较不同植物病原黄单胞菌的致病性因子和设计特定的植物检疫靶点提供了科学线索。 相似文献
2.
7种检疫性植物病原黄单胞菌III型分泌系统和效应蛋白编码基因的差异性分析 总被引:1,自引:0,他引:1
γ-变形菌纲(γ-Proteobacteria)的黄单胞菌属(Xanthomonas)的大多数种类可引起植物病害,多数是我国检疫对象。与其他革兰氏阴性植物病原细菌一样,植物病原黄单胞菌可通过高度保守的III型分泌系统(type-III secretion system, T3SS)分泌效应蛋白(T3SS-secreted effectors, T3SEs)进入植物细胞,在非寄主植物和抗病寄主植物上产生过敏反应(hypersensitive response, HR)以及在感病寄主植物上具有致病性。尚不清楚哪些种类的黄单胞菌具有T3SS和缺少哪些T3SE是否可作为检疫的依据。搜集7种检疫性植物病原黄单胞菌,通过PCR和Southern杂交试验结果发现:香蕉细菌性青枯病菌(X. campestris pv. musacearum)的ICMP287和ATCC49084菌株、甘蔗流胶病菌(X. axonopodis pv. vasculorum)ATCC13901菌株、洋葱细菌性叶枯病菌(X. axonopodis pv. allii)的LMG576和LMG578菌株中不含有tale基因,并且ATCC13901菌株既不含有T3SS基因也不含有hpa1和xopQ基因;菜豆细菌性疫病菌(X. campestris pv. phaseoli)ATCC49119菌株不含有hpa1基因。相应地,推测含有2~12个tale基因的黄单胞菌有:大豆斑疹病菌(X. axonopodis pv. glycines)ICMP5732和ATCC43911菌株、豌豆细菌性疫病菌(X. axonopodis pv. vignicola)ATCC11648菌株、棉花细菌性角斑病菌(X. campestris pv. malvacearum)ATCC12131和(X. campestris pv. phaseoli)ATCC49119菌株。大豆细菌性斑疹病菌ATCC43911菌株尽管含有hpa1、xopQ和hrcC基因,但在非寄主烟草上不能激发HR反应;而甘蔗流胶病菌ATCC13901菌株不含有hpa1、xopQ和hrcC基因,却激发烟草产生HR反应。这些结果对于分析比较不同植物病原黄单胞菌的致病性因子和设计特定的植物检疫靶点提供了科学线索。 相似文献
3.
水稻白叶枯病菌harpin基因的克隆与表达 总被引:26,自引:1,他引:26
用PCR方法从水稻黄单胞菌白叶枯致病变种(Xanthomonas oryzae pv.oryzae,Xoo) JxoIII菌株中克隆到编码诱导植物过敏性反应激发子的基因hrfA。同源性比较发现其推测产物与水稻白叶枯病菌菲律宾小种Pxo86的Hpa1有97.2%的序列一致性,比Hpa1少了一个-GGG-GG-氨基酸残基序列重复。基因经NdeI和BamHI双酶切后连到含T7启动子的高表达载体pET 30a (+)上构建重组质粒pHRF4,并转化宿主菌BL21(DE3)产生表达菌株BLHR4。经过IPTG诱导之后,BLHR4产生一分子量为15.6 kD的蛋白质。研究表明,该蛋白在性质与功能上类似于其它已发现的harpins,即能够在烟草上引起典型的过敏性反应,富含甘氨酸、热稳定以及对蛋白酶敏感。因此,我们把该蛋白定名为harpinXoo。harpinXoo还具有诱导植物抗病性的功能。 相似文献
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5.
Ⅲ型分泌系统(Type Ⅲ secretion system, T3SS)是水稻细菌性条斑病菌(Xanthomonas oryzae pv.oryzicola,Xoc)的主要致病因子。实验室前期鉴定了一批十字花科黑腐病菌Ⅲ型分泌系统的小分子抑制剂。这些抑制剂对Xoc的T3SS是否具有作用,值得探究。本研究利用Lux和GUS报告基因分别与T3SS相关基因启动子区融合构建Xoc融合报告系统,用报告系统以及定量PCR鉴定对Xoc T3SS有作用的小分子。结果表明,Carmofur、5-Fluorocytosine、A-3和Dealkaline lignin对Xoc T3SS基因表达具有显著抑制作用,A-3和Dealkaline lignin抑制Xoc生长,4种物质均未显著影响Xoc的致病力。为精确检测Xoc的过敏反应(hypersensitive response, HR)及小分子抑制剂的生防作用,本研究利用融合PCR及同源双交换原理构建能在辣椒ECW-10R上激发特异HR的报告菌株GX01/avrBs1。结果显示,GX01/avrBs1可在辣椒ECW-10R上快速激发HR,Dealkali... 相似文献
6.
为探索田间猕猴桃溃疡病菌Pseudomonas syringae pv. actinidiae(Psa)致病力丧失的分子机制,针对从猕猴桃果园中分离获得的1株不致病菌株G230,通过特异性引物检测和多基因序列分析明确其分类地位,并设计引物检测其是否由已知遗传变异引起,通过比较基因组学、基因表达、超敏反应和荧光素酶报告菌株检测确定引起菌株G230致病力丧失的原因。结果表明,不致病菌株G230为Psa生物型3(Psa3),其致病缺陷不是由已报道的遗传变异引起;基于基因组比较分析发现菌株G230中的hrpS基因被转座子ISPsy36插入破坏,导致Ⅲ型分泌系统(type Ⅲ secretion system,T3SS)不能正常表达;而在不致病菌株G230中表达hrpS基因后能恢复其T3SS功能,使其具备致病能力及激发非寄主超敏反应的能力。表明转座子ISPsy36插入hrpS基因内部可以破坏Psa的T3SS功能进而使其丧失致病力,这是自然条件下Psa3丧失致病力的一种新型机制。 相似文献
7.
水稻条斑病菌(Xanthomonas oryzae pv.oryzicola,Xoc)成功侵染水稻主要依靠其III型分泌系统(Type III secretion system,T3SS)分泌的效应蛋白。T3SS由hrp-hrc-hpa基因编码,其中主要的hrp和hrc基因突变,病原菌将丧失在寄主水稻上的致病性和非寄主烟草上的过敏性反应(hypersensitive response,HR)。hrpD5基因位于hrp基因簇hrpD操纵单元的第5个基因,在致病性中的功能未知。本研究构建了Xoc的hrpD5缺失突变体RΔhrpD5。植物接种试验显示,RΔhrpD5丧失了对寄主水稻的致病性和在非寄主烟草上激发HR反应的能力;功能互补子虽然能够恢复这2种表型,但是,与野生型菌株相比,其在感病水稻上的毒性显著降低,在非寄主烟草上形成延迟的HR反应;荧光定量PCR结果显示:hrpD5缺失影响其下游hrpD操纵单元基因hrpD6、hrpE和hpaB以及HrpX操纵单元基因hrpF和hrpB1的表达;同时,hrpD5缺失降低了hrpX的mRNA水平,但是不影响hrpX的启动子活性;酵母双杂交结果显示,HrpD5蛋白能够与HrpF蛋白的N端互作。这些结果暗示在Xoc中hrpD5不仅为主要的致病相关基因,而且调控主要的hrp调节基因hrpX的表达。HrpD5新功能的鉴定将为解析T3SS在致病性中的功能提供线索。 相似文献
8.
为明确帚枝霉属Sarocladium内生生防真菌HND5菌株外泌激发子蛋白SbES的诱导辣椒抗病作用机理,通过构建SbES蛋白的毕赤酵母Pichia pastoris重组蛋白表达菌株,利用纯化后的SbES重组蛋白处理辣椒植株,检测辣椒对棒孢叶斑病的抗性,以及相关抗病反应与抗病基因表达的变化。结果表明,0.1 mg/mL SbES重组蛋白可有效诱导辣椒产生对棒孢叶斑病的抗性,可激发辣椒叶片活性氧爆发、微过敏反应和胼胝质积累等抗病反应;并能有效提高辣椒叶片中与活性氧爆发、过敏性反应、胼胝质合成和植保素合成等抗病反应相关基因,以及水杨酸、茉莉酸和乙烯信号传导关键基因的表达。推测帚枝霉属内生真菌激发子蛋白SbES可通过激活多种抗病信号传导途径来激发辣椒产生对棒孢叶斑病的抗性。 相似文献
9.
大丽轮枝菌蛋白激发子PevD1诱导棉花抗病性及作用机理 总被引:3,自引:0,他引:3
PevD1是一种大丽轮枝菌(Verticillium dahliae)分泌蛋白,具有激发烟草过敏反应(HR)和系统获得性抗病(SAR)的功能。为明确蛋白PevD1诱导棉花抗病性及其作用机制,本文利用大肠杆菌表达、纯化的PevD1诱导棉苗植株,检测棉苗对大丽轮枝菌的抗性及免疫应答反应。结果表明,大肠杆菌表达的PevD1重组蛋白不是棉花品种“新陆早42号”的致萎因子,叶片注射8 μg/mL PevD1蛋白诱导3 d后根部接种大丽轮枝菌,15 d后PevD1处理组病害减轻率达35.04%。PevD1能诱导棉花叶片抗性早期信号分子H2O2产生和NO积累,维管束细胞壁加厚、木质素和酚类物质的积累。另外,PevD1处理能提高防御酶PAL、POD和PPO活性,提高棉花抗性基因和木质素合成相关基因PAL、C4H1、4CL的转录水平。说明PevD1通过激发棉花免疫系统而提高抗病性,该研究不仅为利用PevD1蛋白激发子控制棉花黄萎病提供了科学依据,同时也为阐明棉花与大丽轮枝菌互作机理提供了理论基础。 相似文献
10.
产harpin的成团泛菌工程菌的构建 总被引:4,自引:0,他引:4
梨火疫病菌(Erwinia amylovora)产生的胞外蛋白harpin是引发其非寄主植物过敏反应的因子。harpin蛋白还具有诱导植物抗性的功能。成团泛菌(Pantoea agglomerans)308R对链格胞属(Alternaria)的真菌具有拮抗活性,是一株抗利福霉素的自发突变株,对壮观霉素敏感。本文通过电击转化法将带有梨火疫病菌hrp基因簇的重组质粒pCPP430导入308R。所得转化子具有pCPP430的壮观霉素抗药性标记,在番茄上引起过敏反应;从转化子中提取到与pCPP430大小一样的质粒,其酶切物理图谱也与pCPP430完全相同;用地高辛标记的harpin的结构基因hrpN为探针对转化子中的质粒进行Southern blotting分析,结果在转化子中得到信号明显的杂交片段,而受体菌308R中未出现杂交信号;提取细菌的外壁的蛋白质进行PAGE分析,在大约44 kd的位置上308R(pCPP430)比308R明显多出1条带。这些结果表明成团泛菌能够表达梨火疫病菌的hrp基因簇,所产harpin蛋白也是有活性的。 相似文献
11.
Fumiko TAGUCHI Rui TANAKA Sayuri KINOSHITA Yuki ICHINOSE Yoshiyuki IMURA Salamah ANDI Kazuhiro TOYODA Tomonori SHIRAISHI Tetsuji YAMADA 《Journal of General Plant Pathology》2001,67(2):116-123
To elucidate the role of harpins produced by Pseudomonas syringae, the corresponding hrpZ gene was isolated from P. s. pv. tabaci. The sequence information revealed that this gene carries a serious mutation with 326 bp lacking in the central region and
potentially encodes only 140 N-terminal amino acids because of a frame shift. The investigation of biological properties using
recombinant harpin indicated harpinpsta was incapable of inducing HR in both host and nonhost plants. Based on an immunoblot analysis to detect harpin from P. s. pathovars in hrp-inducing medium, the truncated harpinpsta was neither expressed nor secreted into the culture medium. These results suggest that harpin is not the sole determinant
of the host-parasite specificity in P. s. pv. tabaci.
Received 10 August 2000/ Accepted in revised form 21 December 2000 相似文献
12.
Protein phosphorylation is an important biological process associated with elicitor-induced defense responses in plants. In a previous report, we described how plant ferredoxin-like protein (PFLP) in transgenic plants enhances resistance to bacterial pathogens associated with the hypersensitive response (HR). PFLP possesses a putative casein kinase II phosphorylation (CK2P) site at the C-terminal in which phosphorylation occurs rapidly during defense response. However, the contribution of this site to the enhancement of disease resistance and the intensity of HR has not been clearly demonstrated. In this study, we generated two versions of truncated PFLP, PEC (extant CK2P site) and PDC (deleted CK2P site), and assessed their ability to trigger HR through harpin (HrpZ) derived from Pseudomonas syringae as well as their resistance to Ralstonia solanacearum. In an infiltration assay of HrpZ, PEC intensified harpin-mediated HR; however, PDC negated this effect. Transgenic plants expressing these versions indicate that nonphosphorylated PFLP loses its ability to induce HR or enhance disease resistance against R. solanacearum. Interestingly, the CK2P site of PFLP is required to induce the expression of the NADPH oxidase gene, AtrbohD, which is a reactive oxygen species producing enzyme. This was further confirmed by evaluating the HR on NADPH oxidase in mutants of Arabidopsis. As a result, we have concluded that the CK2P site is required for the phosphorylation of PFLP to enhance disease resistance. 相似文献
13.
水稻条斑病菌hrpB1基因决定寄主致病性和非寄主过敏反应的功能研究 总被引:1,自引:0,他引:1
水稻条斑病菌(Xanthomonas oryzaepv.oryzicola,Xoc)的hrp基因决定了病原菌在非寄主植物上的过敏反应(hypersensitive response,HR)和在寄主植物上的致病性(pathogenicity),基因产物形成Ⅲ型分泌系统(type-Ⅲ secretion system,T3SS)将致病性效应分子注入寄主细胞从而引起水稻产生抗病性或者感病性反应。以位于hrpB操纵单元的首个hr-pB1基因为对象,通过基因敲除方式对其进行了突变,发现hrpB1突变体丧失了在水稻上的致病性和在烟草上激发HR的能力,并且在水稻组织中的生长能力显著降低。RT-PCR测定结果表明,hrpB1的转录表达受HrpG和HrpX的正调控。免疫杂交结果显示,HrpB1蛋白可通过T3SS进行分泌。这些结果不仅明确了hrpB1基因在病原菌致病性中的功能,而且提示了hrp结构基因不仅仅局限于形成Ⅲ型分泌系统,部分hrp基因产物本身也通过Ⅲ型系统分泌到胞外,并且可能起到效应分子的功能。 相似文献
14.
ABSTRACT HpaG(Xooc), produced by Xanthomonas oryzae pv. oryzicola, is a member of harpin group of proteins that stimulate plant growth, hypersensitive cell death (HCD), and pathogen defense. The protein contains two copies of the glycine-rich motif (GRM), a characteristic of harpins, and a cysteine, which is absent in other harpins. Genetic modification generated the pro-tein mutants HpaG(Xooc)MG (MG) by deleting GRMs and HpaG(Xooc)C47T (C47T) by replacing cysteine with threonine. When applied to tobacco plants, C47T and MG were 1.2- and 1.7-fold stronger, respectively, than HpaG(Xooc) in inducing HCD, which occurred consistently with expression of the marker genes hin1 and hsr203. The proteins markedly alleviated infection of tobacco by Tobacco mosaic virus and Arabidopsis and tomato by Pseudomonas syringae. Treating tobacco plants with HpaG(Xooc), C47T, and MG decreased the viral infection by 58, 81, and 92%, respectively. In Arabidopsis and tomato plants treated with HpaG(Xooc), C47T, or MG, P. syringae multiplication was inhibited; bacterial population multiplied in 5 days in these plants were ca. 160-, 1,260-, or 15,860-fold smaller than that in control plants. So pathogen defense was induced in both plants. Defense-related genes Chia5, NPR1, and PR-1a were expressed consistently with resistance. In response to HpaG(Xooc), C47T, and MG, aerial parts and roots of tomato plants increased growth by 15 and 53%, 25 and 77%, and 46 and 106%, relative to controls. The expansin gene, EXP2, involved in the cell expansion and plant growth was expressed coordinately with plant growth promotion. These results suggest that the presence of GRM and cysteine in HpaG(Xooc) represses the effects of the protein in plants. 相似文献
15.
Marie-Anne Barny 《European journal of plant pathology / European Foundation for Plant Pathology》1995,101(3):333-340
Erwinia amylovora is the bacterium responsible for fire blight, a necrotic disease affecting many rosaceous plants and especially pear tree and apple tree. A protein named harpin, secreted through the Hrp secretion pathway and able to elicit an hypersensitive reaction (HR) on tobacco has recently been isolated. Mutants inhrpN, the gene encoding harpin were described as non pathogenic on immature pear fruit and unable to elicit an HR on tobacco [Weiet al., 1992; Wei and Beer, 1993]. In this paper, the phenotype on plant ofhrpN mutants was carefully determined.hrpN mutants expressed a weak but significant virulence on host plants. Furthermore, when infiltrated into tobacco leaf mesophyll, thehrpN mutants elicited varied responses that fluctuated from null reaction to full necrosis of the infiltrated area. These results show that harpin is not absolutely required neither for pathogenicity on host plant nor for elicitation of an hypersensitive reaction on tobacco. Furthermore, in all the tests performed, mutant blocked in harpin secretion remained non pathogenic and unable to elicit an HR on tobacco. This suggests that factor(s), different from harpin, involved both in pathogenicity and HR eliciting ability is (are) secreted through the Hrp secretion pathway.Abbreviations HR
hypersensitive reaction
- NSI
necrosis severity index
- CFU
colonie forming units 相似文献
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Francisco Henrique Nunes da Silva Alves Ana Leticia Rocha Monteiro Isadora Cristófoli Pereira José Cleydson Ferreira da Silva Renan N. D. Almeida Kathryn J. McTavish David S. Guttman Melina Korres Raimundi Ricardo Magela de Souza Mario Lucio Vilela de Resende Jorge Luis Badel 《Plant pathology》2022,71(4):934-948
Foliar spots caused by Pseudomonas coronafaciens pv. garcae (Pcg), Pseudomonas amygdali pv. tabaci (Pat) and Pseudomonas cichorii (Pch) are major bacterial diseases that can reduce coffee production. However, little is known about the genetic diversity and molecular mechanisms underlying the pathogenicity to coffee plants of these bacteria. In this study, genome sequences of Pcg, Pat and Pch strains isolated from coffee plants in Minas Gerais state, Brazil, were used to assess their variability and plasticity, and compare their type III secretion system (T3SS) and apoplastic effector repertoires as well as tabtoxin biosynthetic/detoxification genes. Genomic diversity was found for all three phytopathogens, among which Pch possesses the highest number of exclusive proteins. The Pcg genome is the most stable whereas that of Pch is the most plastic, which is related to their host ranges. When compared with those of Pseudomonas syringae pv. tomato DC3000, hrp/hrc gene sequences are more conserved in Pcg and Pat than in Pch, which also possesses the smallest T3SS and the largest apoplastic effector repertoires. The only T3SS effector family common to all three pathogens is AvrE, suggesting that, as for other plant–Pseudomonas interactions, it may play a crucial role for pathogenicity towards coffee plants. Apoplastic proteins associated with maintaining the redox balance and degrading proteins/peptides not previously described as important in plant–bacteria interactions were found. Gain/loss of the tabtoxin biosynthetic cluster with retention of the antitoxin gene was observed, indicating that tabtoxin production is not a limiting factor for the occurrence of mixed infections. 相似文献
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ABSTRACT Xanthomonas axonopodis pv. glycines is the causal agent of bacterial pustule disease of soybeans. A transposon insertional mutant (KU-P-M670) of X. axonopodis pv. glycines derived from wild-type strain KU-P-34017 lost the ability to induce the hypersensitive response (HR) on tobacco and pepper but retained its HR induction capacity on cucumber, sesame, and tomato. The mutation also resulted in loss of ability to cause a potato soft rot and express pectolytic activity at pH 6.5. An approximate 1.4-kb DNA fragment carrying the transposon insertion contained a single open reading frame that showed high homology with PSTRU-3, a pectate lyase gene in X. axonopodis pv. malvacearum. Complemented KU-P-M670 regained HR induction on tobacco and also pectolytic activity. Treatment of plants with inhibitors of eukaryotic metabolism blocked HR induction by wild-type strains and by complemented KU-P-M670. The presence of the pectate lyase homolog, which we designated xagP, in 26 X. axonopodis pv. glycines strains was highly correlated with their ability to induce an HR on tobacco. To our knowledge, this is the first study indicating a role for a functional pectate lyase in induction of a plant HR. 相似文献
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Responses of cytokinin overproducing transgenic Nicotiana plants to infections with compatible and incompatible Pseudomonas syringae pathovars were compared. Plants used were transformed with the ipt(isopentenyl transferase) gene that catalyzes the synthesis of cytokinin. In cytokinin overproducing lines that carry the ipt gene fused to the CaMV 35S (Nt+ipt), the wound-inducible proteinase inhibitor II (Ntx+ipt), or the light-inducible Rubisco small subunit protein (Npl+ipt) promoter, development of the hypersensitive response (HR) after infection with incompatible bacteria (P. syringae pv. tomato) was significantly inhibited as compared to the untransformed (Nt) controls. Over a 12 h period following inoculation, P. syrinage pv. tomato populations were slightly reduced in leaves of the cytokinin-overproducing Nt-ipt line compared with the Nt control. When the compatible P. syringae. pv. tabaci was used to infect the ipt transformed lines, slight or no significant differences in necrosis development were observed. Following infection, the titer of P. syringae pv. tabaci increased rapidly in both the transgenic and control lines but was higher in Nt+ipt plants. Leaf superoxide dismutase and catalase enzyme activities were about 60% higher in ipt leaf extracts than in the controls. This augmented antioxidant capacity likely decreased the amount of H(2)O(2) that may be associated with the higher tolerance of plants to pathogen-induced necrosis. In addition, the Nt+ipt lines had a significantly lower molar ratio of free sterols to phospholipids. The more stable membrane lipid composition and the higher antioxidant capacity likely contributed to the suppressed HR symptoms in the cytokinin overproducing Nt+ipt plants. In conclusion, the overproduction of cytokinins in tobacco appears to suppress the HR symptoms induced by incompatible bacteria. 相似文献