禾谷类白粉菌无毒基因研究进展

基因对基因假说阐明了病原菌无毒基因(avirulence gene,Avr gene)与寄主植物抗性基因(resistance gene,Rgene)相互识别和互作的关系。禾谷类白粉菌无毒基因产物作为重要的激发子,能够与其寄主R基因产物发生特异性互作,诱导植物细胞防卫反应。为了更加深入地了解这些无毒基因的作用,作者总结了最近关于AVRa1、AVRa10、AVRa13、AVRk1、AvrPm2和AvrPm3a2/f2等已克隆无毒基因的研究进展,讨论了它们作为效应蛋白(effector)或激发子的双重功能,在毒性菌株中的变异规律,与其对应R基因之间的互作模型,以及与转座子等重复序列之间的关联等。本文还对无毒基因研究方法的改进和未来的研究方向提出了建议。     

基于无毒基因的晚疫病菌指纹类型与致病型关系研究

由致病疫霉Phytophthora infestans(Mont)de Bary引起的晚疫病是马铃薯生产上可导致绝收的世界性病害,在我国各地均有发生和流行[1].传统的致病型鉴别只局限于表型上的分析,无法对复杂多变的晚疫病菌致病型变化进行快速准确的预测,因此有必要探索新的方法来弥补常规手段的不足,以便更加准确有效地监测其变化趋势.晚疫病菌与寄主马铃薯这一病理体系中的单一抗性基因和相应的无毒基因符合典型"基因对基因"学说,因此基于抗病基因与无毒基因的关系对晚疫病菌分类将更为科学和实用.到目前为止,已知的晚疫病菌无毒基因序列有Avr1、Avr2、Avr3a和Avr4[2,3].本研究试图分析晚疫病菌基于无毒基因的指纹类型与马铃薯鉴别品种划分的致病型之间是否存在对应关系,以期进一步了解病原菌群体结构特征及遗传变异本质,从而更好地指导抗晚疫病育种和品种的合理布局.     

大麦白粉病菌遗传学研究进展

大麦白粉病是由布氏白粉菌属大麦专化型活体寄生菌Blumeria graminis f.sp.hordei（Bgh）引起的真菌病害,在全球大麦种植区普遍发生,危害日趋严重。大麦白粉病菌与寄主之间存在着“基因对基因”的关系,分化为不同的生理小种或致病型。由于病原菌基因突变、重组和流动以及寄主的选择作用,大麦Bgh种群毒性、致病型频率和分布不断发生变化。随着分子生物学技术飞速发展,应用分子标记已对30多个Bgh无毒基因位点进行了连锁作图分析,已克隆了Bgh无毒基因AVRk1和AVRa10,Bgh全基因组测序现已完成。文章综述了大麦白粉病菌的侵染循环、遗传分化及其无毒基因的定位、克隆和致病机制研究进展,并探讨了基于病原菌毒性进化和基因组解码信息获得持久控制大麦白粉病的有效手段。     

福建省稻瘟病菌致病性及其无毒基因分析

利用41个已知抗性基因水稻品种测定2003—2006年从福建省闽东、闽南、闽西、闽北和闽中5个主要稻区采集分离的87个稻瘟病单孢菌株的致病性。结果表明,福建省稻瘟病菌群体含有与所有测试抗病基因相应的无毒基因,其中66.67%的稻瘟病菌株表现较强致病力。病菌群体对水稻抗病基因Pi-d2、Pi-k(1)、Pi-km、Pi-kh、Pi-1(1)、Pi-z5(1)、Pi-z5(2)和Pi-1(2)的毒力频率均低于10%,提示这些抗病基因在福建省可作抗源使用。2003—2006年福建省稻瘟病菌群体中分别出现了40、37、36和38个无毒基因,其中有34个无毒基因在各年份均有分布,有30个无毒基因在5个主要稻区均有分布,Avr-a(2)、Avr-3(2)、Avr-ks、Avr-4b、Avr-b、Avr-kp(C)、Avr-km(C)、Avr-ta(C)、Avr-11(C)、Avr-19(t)、Avr-t和Avr-a(1)无毒基因的出现频率均低于30%,提示与之相对应的抗病基因在福建省水稻品种抗稻瘟病育种中应慎用。含有17、14、23、18和16个无毒基因组合的病菌较多,其组合频率分别为13.79%、10.34%、9.20%、8.05%和8.05%。     

病原细菌无毒基因avrD介导的抗赤星病转基因烟草

 利用从病原细菌Pseudomonas syringae pv.tomato中获得的无毒基因avrD片段与病原菌诱导型的特异启动子PⅠⅡ、CHS和PAL构建成表达盒,通过土壤农杆菌分别转化烟草品种K326和Bottom Special。经烟草赤星病菌孢子定量接种转基因植株及其离体叶片,筛选到一批高抗植株。Southern分子杂交检测证明,启动子-avrD嵌合基因已整合到寄主染色体并获得表达。     

感细菌性斑点病的番茄品种存在LescPtoF基因的同源序列

根据已报道的番茄Pto基因家族成员之一LescPtoF基因的序列特征设计引物,通过PCR扩增从3个感病番茄品种中获得3个同源序列。Blast结果表明其中两个序列和报道基因完全一致,另外一个和报道基因的序列相似性为99%,表明感病番茄品种中也存有LescPtoF基因的同源序列。     

云南罗平田间稻瘟菌株性状及无毒基因研究

稻瘟菌和水稻是研究禾本科作物病原-寄主互作机制的模式病理系统.云南罗平县不仅是云南省水稻主产区,栽培水稻品种多样,同时也是稻瘟病易发区,田间稻瘟菌群体组成复杂,信息流强度大.田间单孢菌株的分离和无毒基因的研究,是揭示稻瘟菌毒性变异机制和制定田间稻瘟病综合防控策略的重要基础.本研究通过单孢分离,从2017年云南罗平田间病...     

辣椒,番茄细菌性斑点病国内外研究进展

辣椒、番茄细菌性斑点病国内外研究进展杜志强，孙福在（中国农科院植保所北京１０００９４）辣椒、番茄细菌性斑点病，又称疱病，国内也叫细菌性疮痂病。早在本世纪２０年代，该病就有过报道。其病原菌于１９２０年经Ｄｏｉｄｇｅ鉴定，１９３９年由Ｄｏｗｓｏｎ正式定名...     

一个与稻瘟病菌无毒基因AVR-Pik~m连锁的SCAR标记的分离

 本研究将以前在稻瘟病菌菌株S1522获得的与决定对水稻品种梅雨明无毒性的基因(AVR-Pik^m)相连锁的1个RAPD标记OPO12₁₀₀₀进行了克隆和鉴定。核苷酸序列测定与分析结果表明:OPO12₁₀₀₀的大小为946个碱基,不含有与已报道的稻瘟病菌Mg-SINE、Fosburry、Magyy、Grasshopper、Pot2以及Pot3等同源的重复序列。根据OPO12₁₀₀₀的核苷酸序列,设计了1对24个核苷酸的特异引物,对无毒表型亲本S1522和毒性表型亲本S159、无毒表型群体基因池、毒性表型基因池以及有性杂交后代108个菌株进行了PCR扩增,所有无毒表型的菌株均能特异性地扩增出1条与OPO12₁₀₀₀大小相同的DNA条带,而毒性表型的菌株除5个重组个体外,均不能扩增出这条特异带。此结果表明,与稻瘟病菌无毒基因AVR-Pik^m连锁的RAPD标记OPO12₁₀₀₀被成功地转化为SCAR标记,为进一步通过染色体步移克隆该无毒基因奠定了基础。     

番茄细菌性斑点病病原菌鉴定

 1998~1999年在吉林省、辽宁省、黑龙江省等地的大棚番茄上发现一种番茄病害,并从其病叶、病茎杆上分离得到了23个细菌菌株。接种番茄幼苗上,发病症状与自然发病症状完全一致,并从接种病株上重新分离到此病原细菌。各菌株致病力无明显的差异。经革兰氏染色反应、菌体形态、培养性状、生理生化反应、G+C mol%等鉴定,确认该病原菌为丁香假单胞杆菌番茄致病变种(Pseudomonas syringae pv.tomato(Okabe)Young,Dye&Wilkie)。该病菌引起番茄细菌性斑点病(又称叶斑病)。病菌除侵染番茄外,尚能侵染茄子、辣椒、龙葵、白花曼陀罗和毛曼陀罗。该病害尚属我国大陆首次报道。     

Zinc phosphate protects tomato plants against Pseudomonas syringae pv. tomato

Journal of Plant Diseases and Protection - The purpose of this study was to determine whether zinc phosphate treatments of tomato plants (Solanum lycopersicum L.) can attenuate bacterial speck...     

Effect of Harpin from Four Pathovars of Pseudomonas syringae on Pea Defense Responses

To investigate the role of the proteinaceous elicitor, harpin, on host and nonhost plants, we isolated the harpin-coding gene, hrpZ, from Pseudomonas syringae pvs. pisi, glycinea, tabaci and tomato. Effects of the recombinant harpin proteins on pea plants were analyzed and compared with the effects of the corresponding bacterial treatment. After inoculation of pea with pea pathogen P. syringae pv. pisi, the bacterial population increased and the accumulation of PAL-mRNA and pisatin was inhibited. The nonpathogenic pathovars, glycinea, tabaci and tomato induced both defense responses in pea. However, none of the harpins induced the hypersensitive reaction or accumulation of PAL-mRNA and pisatin in pea. Harpins from P. syringae pvs. glycinea, tomato and pisi did induce these defense responses in tobacco, however, suggesting that externally applied harpins either are not recognized or are nonfunctional in pea plants. Received 27 June 2000/ Accepted in revised form 21 February 2001     

Similarity between Copper Resistance Genes from Pseudomonas syringae pv. actinidiae and P. syringae pv. tomato

Twenty-eight strains of Pseudomonas syringae pv. actinidiae isolated in 1984, 1987 and 1988 from kiwifruit orchards in Japan were tested for their resistance to copper sulfate. All strains isolated in 1984 were copper sensitive with a minimum inhibitory concentration (MIC) of cupric sulfate of 0.75 mM. However, some strains isolated in 1987 and 1988 were resistant, with the MIC ranging from 2.25 to 3.0 mM. All copper-resistant strains contained at least one of two plasmids, pPaCul (about 70.5 kb) or pPaCu2 (about 280 kb), or both. In a copper-resistant strain Pa429, the location of the copper-resistance gene(s) was examined by insertional inactivation with Tn5. The MIC of copper sulfate in the copper-sensitive mutant obtained by Tn5 tagging decreased from 2.75 to 0.75 mM. The 14.5 kb BamHI fragment, designated pPaCuB14, containing the same locus mutagenized with Tn5 was cloned from pPaCu1. However, pPaCuB14 did not confer copper resistance in the transformant of copper-sensitive strain Pa21R, suggesting that this clone did not contain a full set of copper-resistance gene(s). Then a cosmid library of pPaCu1 was constructed and six cosmid clones hybridized with pPaCuB14 were selected. One of the six cosmids, designated pPaCuC1, conferred a near wild-type level of copper resistance in the transformant of the copper-sensitive strain. pPaCuC1 had a homologous region that hybridized with all of the PCR-amplifled fragments of copA, copB, copR, and copS genes of P. syringae pv. tomato. DNA sequence analysis of the homologous region revealed the existence of four open reading frames (ORF A, B, R and S) oriented in the same direction. The predicted amino acid sequences of ORF A, B, R and S had 80, 70, 97 and 95% identity with CopA, B, R and S of P. syringae pv. tomato, respectively. Received 5 July 2001/ Accepted in revised form 27 September 2001     

番茄细菌性叶斑病菌RPA检测技术研究

青枯菌为应对逆境胁迫,可进入活的但非可培养状态(viable but non-eulturable,VBNC).本文利用叠氮溴化丙锭(PMA)与PCR技术相结合,建立了一种快速有效区分青枯菌死活细胞的分子检测方法.基于hrcS基因序列,设计了一对青枯菌种特异性检测引物hrcSf/hrcSr;利用PMA对青枯菌Po82菌株的细胞悬浮液样品进行预处理,随后进行常规PCR扩增.结果表明,当样品中PMA质量浓度为3 μg/mL、曝光时间大于5 min时,PMA可有效抑制死亡菌体细胞中的DNA扩增;且对可培养和VBNC状态细胞中的DNA扩增没有影响;本试验建立的PMA-PCR方法能有效对包括VBNC状态在内的青枯菌活菌进行检测,避免了假阳性与假阴性结果的产生.     

Flagellin from Pseudomonas syringae pv. tabaci induced hrp-independent HR in tomato

We have previously shown that flagellin of Pseudomonas syringae pv. tabaci is an elicitor that induces a hypersensitive reaction (HR) in nonhost tomato cells. Flagellin is the major HR elicitor produced by this pathogen, as shown by the inability of a flagellin-defective mutant, ΔfliC, to induce HR. Also, a ΔfliD mutant that secretes large amounts of monomer flagellins induces a strong HR in tomato. In this study, the possible involvement of an Hrp type III secretion system (TTSS) in flagellin-induced HR was investigated using flagella-defective mutants or Hrp TTSS-defective mutants. The hrcC gene encodes HrcC protein, which is required for Hrp pilus formation in the outer membrane. An hrcC mutation, introduced into the wild-type, ΔfliC, and ΔfliD mutants of P. syringae pv. tabaci did not affect swimming motility or flagellin secretion, whereas all ΔhrcC, ΔfliC, and ΔfliD mutants lost the ability to cause disease on host tobacco leaves. However, the ΔhrcC mutant and the ΔfliD/ΔhrcC double mutant were still able to induce HR cell death, expression of one of the defense-related genes hsr203J, and the generation of hydrogen peroxide in nonhost tomato cells. Thus, flagellin is required for both pathogenicity in host tobacco and HR in nonhost tomato. On the other hand, hrp TTSS is necessary for pathogenicity on host tobacco but is not indispensable to induce HR in nonhost tomato. These results clearly show that flagellin-induced HR is hrp-independent in tomato.The nucleotide sequence data reported are available in the DDBJ/EMBL/GenBank databases under the accession number AB049570     

Plasmids in Pseudomonas syringae pv. pisi carry genes for pathogenicity

All strains tested which are pathogenic to peas and which react with antiserum to Pseudomonas syringae pv. pisi contain two to four plasmids; non-pathogens contain none. Two plasmids from a pathogenic strain were transferred individually to a non-pathogenic recipient strain of Pseudomonas syringae: both plasmids converted the recipient to a pathogen on peas and from hypersensitivity negative to hypersensitivity positive on tobacco. Neither plasmid encoded homoserine catabolism.     

Gene-for-gene relationships between rice and diverse avrBs3/pthA avirulence genes in Xanthomonas oryzae pv. oryzae

The interactions between Xanthomonas oryzae pv. oryzae (Xoo) and rice are controlled in a gene-for-gene manner. In this study, a 359 bp DNA fragment of the avrXa3 gene containing three nuclear localization signal (NLS) motifs present in all members of the avrBs3/pthA family was used as a probe to screen a genomic library of the JXOIII strain of Xoo. The results demonstrated that diverse members of the family exist in the pathogen genome. The avrBs3/pthA genes occurred at isolated individual portions or in clusters. The positive avr gene clones were transferred into the virulent recipient PXO99^A. Pathogenicity tests in near isogenic lines of rice confirmed that four resistance (R) genes ( Xa2 , Xa3 , xa5 and xa8 ) matched the four avr genes ( avrXa2 , avrXa3 , avrxa5 and avrxa8 ) in the genome of Xoo strain JXOIII. The avrBs3/PthA -like gene (1·7 kb) present in cosmid p54, may specifically interact with the Xa3 gene present in IRBB3, and is designated avr/pthA3 . Sequencing indicated that there are only 1·5 copies of the 102 bp repeat unit in avr/pthA3 . Alignment of the twelfth and thirteenth amino acids in the repetitive units encoded by this gene with those in other representatives of the AvrBs3 family revealed a unique repeat arrangement which might contribute to variation in the avirulence genes in Xoo. The parental rice line IR24 was found to contain several R genes for resistance to Xoo bacterial blight.     

Pseudomonas syringae pv. syringae on pepper seedlings in Italy

Pseudomonas syringae pv. syringae causing leaf spot on pepper seedlings grown in a plant bed is reported in Italy for the first time. The pathogen was identified by means of biochemical, physiological and pathogenicity tests as well as by SDS-polyacrylamide gel electrophoresis of whole-cell proteins. The bacterial isolates showed positive for ice nucleation and biocide production.     

Pathogenesis and control of bacterial speck,Pseudomonas syringae pv. tomato,on tomato*

Bacterial speck of tomato, caused by Pseudomonas syringae pv. tomato, was observed to cause severe symptoms, especially on protected tomato crops, during the winter season in the coastal area of Lebanon. This study was conducted to investigate the aetiology and pathogenesis of the bacterium involved and the efficacy of different chemicals for the control of the disease. Biochemical, physiological and pathological tests verified the identity of the bacterium involved as P. s. tomato. Periodic histological sectioning of inoculated tomato leaves showed that bacterial cells resided and multiplied in depressions and around trichome bases for 24 h before penetration through stomata and trichome basal cells. The bacteria invaded intercellular spaces and caused cell lignification, collapse and shrinkage, 48 h after inoculation. Necrotic lesions filled with bacterial masses and collapsed lignified cells were readily observable at and after 72 h. No detectable histological changes were observed in the yellow halo region surrounding the necrotic leaf specks. A thermostable toxin was produced by the pathogen and is involved in chlorotic symptom expression. An antibiotic mixture of streptomycin + oxytetracy‐cline was most effective in controlling infections followed by copper oxychloride + mancozeb, tribasic copper sulphate + sulphur, copper oxychloride and copper oxychloride + zineb.