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     

Comparison of ethylene-producing Pseudomonas syringae strains isolated from kudzu (Pueraria lobata) with Pseudomonas syringae pv. phaseolicola and Pseudomonas syringae pv. glycinea

The relationships among strains of Pseudomonas syringae pv. glycinea (Psg) and Pseudomonas syringae pv. phaseolicola (Psp) isolated from kudzu ( Pueraria lobata) and bean ( Phaseolus vulgaris) were investigated. All strains tested showed a close phenotypic similarity, with the exception of the utilization of inositol and mannitol as well as the production of toxins. On this basis the strains could be divided into three groups. Group 1 consists of all strains of pathovar glycinea, group 2 includes all Psp strains isolated from kudzu, and all Psp strains isolated from bean belong to group 3. This grouping was also reflected in the genetic fingerprints using the polymerase chain reaction (PCR) with primers that anneal to dispersed repetitive bacterial sequences (rep-PCR). The rep-PCR generated fingerprints were unique for each of the three groups. The strains of group 2, Psp strains isolated from kudzu, possess certain characteristics of group 1 (ethylene production) and group 2 (phaseolotoxin production). The Psp strains from kudzu can be clearly differentiated from Psp strains isolated from bean. They utilize mannitol, produce ethylene, and are strongly pathogenic to kudzu, bean, and soybean. The results obtained show that the Psp strains from kudzu should be separated from the pathovar phaseolicola and should represent their own pathovar.     

Different Patterns of Host Genes are Induced in Rice by Pseudomonas syringae, a Biological Inducer of Resistance, and the Chemical Inducer Benzothiadiazole (BTH)

Rice seedlings treated with the synthetic compound benzo(1,2,3)thiadiazole-7-carbothioic acid S-methyl ester (BTH) acquired resistance to subsequent attack by the rice blast fungus Magnaporthe grisea (Hebert) Barr. BTH (trade name Bion) has been released to the market as a plant protecting agent for rice. Here, we analysed the pattern of expressed genes in rice plants treated with BTH, and compared this pattern with those induced by the formerly discovered resistance inducer 2,6-dichloroisonicotinic acid (INA) and by Pseudomonas syringae pv. syringae, a non-host pathogen inducing a hypersensitive response. Both INA and BTH induced similar patterns of genes, suggesting that these compounds are functional analogues. In contrast, the patterns induced by the chemical inducers and by P. syringae were clearly dissimilar.     

Patterns of interaction between isolates of three pathovars of Pseudomonas syringae and accessions of a range of host and nonhost legume species

Isolates of three pathovars of Pseudomonas syringae were tested against 10 legume species. Some isolates of all pathovars showed cultivar-specific interactions with at least one legume species outside the expected host range. Lablab purpureus and Phaseolus lunatus were found to be hosts to isolates of both P. syringae pv. glycinea and P. syringae pv. phaseolicola, while Lathyrus latifolius was host to isolates of P. syringae pv. pisi and P. syringae pv. glycinea . Lens culinaris showed patterns of interaction with isolates of all three pathovars. Gene models based on mathematical estimates of minimum gene numbers agreed with those previously published for the interactions of P. syringae pv. pisi with Pisum sativum and P. syringae pv. phaseolicola with Phaseolus vulgaris. Two different gene-for-gene models based on five resistance/avirulence gene pairs were proposed to explain observed interactions between Glycine max and P. syringae pv . glycinea . Pathogen isolates which contained no known avirulences defined on their respective host species were found to carry cryptic avirulences recognized by other plant species. Estimates of minimum gene numbers required to explain the interactions of a plant species with all pathogen isolates or to explain the interactions of the isolates of one pathovar with all plant accessions were consistently lower than the sum of the minimum gene numbers required to explain the interactions of each individual component.     

Leaf necrosis and twig dieback of sweet persimmon (Dyospiros kaki L.) caused by Pseudomonas syringae pv. syringae in Italy

In spring 1996, extensive leaf necrosis and twig dieback were observed on young sweet persimmon (Dyospiros kaki L.) trees, cultivars O'Gosho, Hachija, Mercatelli and Kaki-tipo planted in the Abruzzo region (central Italy). Many trees were killed. When the dieback reached the trunk, in many cases, new vegetation was noticed above the graft point. The cultivar Jiro-C was not affected by the disease. During 1997, no symptoms were observed on any plant. The orchard was planted in a clay soil with a very low content of organic matter. Biochemical, nutritional and pathogenicity tests indicated Pseudomonas syringae pv. syringae van Hall as the causal agent of the disease. This is the first report of this bacterium as a pathogen of sweet persimmon in Europe.     

Characterization of ISPsy2 and ISPsy3, Newly Identified Insertion Sequences in Pseudomonas syringae pv. eriobotryae

Two new active insertion sequences, ISPsy2 and ISPsy3, were isolated from Pseudomonas syringae pv. eriobotryae, the causal agent of stem cankers of loquat trees. ISPsy2 is 1194-bp long, has 16-bp imperfect terminal inverted repeats, and generates a 4-bp target site duplication upon insertion into the selective cartridge of the entrap vector pSHI1063. The nucleotide sequence of ISPsy2 is completely identical with that of the previously identified IS-like element located adjacent to the virulence gene psvA of Pseudomonas syringae pv. eriobotryae NAE6. The single open reading frame of ISPsy2 encodes a 323-amino-acid protein that has similarity to the transposase of the IS5 subgroup of the IS5 family. The ISPsy3 belonging to the IS91 family is 1507 bp in length, does not duplicate its target sequence, GAAC, and presents an 81% sequence homology with IS801 in P. s. pv. phaseolicola. The transposase of ISPsy3 possesses the conserved amino acid motifs found in the rolling-circle replication protein. Southern blot analysis indicated that multiple copies of ISPsy2 and ISPsy3 are present in the genomes of P. s. pv. eriobotryae and some of the other P. s. pathovars tested. Received 16 August 2001/ Accepted in revised form 19 October 2001     

香料烟细菌性斑点病病原鉴定

 2004~2005年在云南保山香料烟上发现一种由细菌侵染引起的新病害,称为香料烟细菌斑点病。该病主要危害叶片,初为黑褐色水浸状圆形或多角形小斑点,以后病斑扩大、连片,形成不规则的较大坏死斑。从病叶上分离到了28株细菌菌株,菌株接种于香料烟上,发病症状与田间自然症状一致,并从回接病株上重新分离得到此病病原细菌。经过革兰氏染色反应、菌体形态、培养性状、LOPAT试验、生理生化特性分析和16S-23S rDNA序列分析,以及病原菌寄主范围测定,确定该病原菌为丁香假单胞菌烟草致病变种[Pseudomonas syringae pv. tabaci(Wolfet al.)Young et al.]。     

云南省烟草野火病菌生理小种分化的研究

 通过从云南省主要产烟区收集到的45个烟草野火病菌菌株在15个供试烟草品种上的接种试验研究,筛选到一套烟草野火病菌生理小种鉴别寄主体系.同时,以发病率作为抗感划分标准,可将供试菌株划分为4个生理小种(即生理小种Ⅰ、Ⅱ、Ⅲ、Ⅳ).     

黄瓜细菌性角斑病菌交叉引物恒温扩增检测技术

黄瓜细菌性角斑病是我国黄瓜生产上的重要病害之一,其病原菌为Pseudomonas syringae pv.lachrymans。根据该病原菌甘油醛-3-磷酸脱氢基因保守序列设计引物和探针,建立了交叉引物恒温扩增和核酸试纸条检测技术。菌体DNA检测灵敏度可达0.55 ng,纯菌直接检测灵敏度基本可达到单个细菌。所测试的5株黄瓜细菌性角斑病菌和染病黄瓜叶片均为阳性,其他13株对照菌株均为阴性。该方法灵敏度高,且操作简单,对设备要求低等,适合基层实验室应用。     

<Emphasis Type="Italic">Pseudomonas syringae</Emphasis> pv. <Emphasis Type="Italic">cerasicola</Emphasis>, pv. nov., the Causal Agent of Bacterial Gall of Cherry Tree

Bacterial gall on trunks and twigs of cherry trees (Prunus × yedoens, Someiyoshino) was found in Miyazaki and Saga prefectures, Japan. The surface of young galls are relatively smooth and light brown, but they become rough and dark brown. Characteristics of the bacterium isolated from galls on trunks or twigs are similar to those of Pseudomonas syringae pathovars, i.e., pv. actinidiae, pv. daphniphylli, pv. dendropanacis, pv. Morsprunorum, pv. myricae, pv. rhaphiolepidis, pv. syringae and pv. tremae. This bacterium produced galls on cherry and apricot, but not on 66 other species of plants belonging to 39 families. From these results, this bacterium was classified as a new pathovar of Pseudomonas syringae, and the name Pseudomonas syringae pv. cerasicola, pv. nov., is proposed. Strain M9501(ICMP 13926) was designated as the pathotype strain. Received 10 September 1999/ Accepted in revised form 24 December 1999     

Functional analysis of walnut polyphenol oxidase gene (JrPPO1) in transgenic tobacco plants and PPO induction in response to walnut bacterial blight

Walnut (Juglans regia) is economically important for both its wood and nut nutritional value, but it is susceptible to diseases such as walnut bacterial blight, caused by Xanthomonas arboricola pv. juglandis (Xaj). Walnuts contain many phenolic compounds, providing a good model on which to study polyphenol oxidase (PPO). We inoculated the detached walnut fruits of cultivars Ford, Chandler, Franquette, Robert Livermore, and Payne with Xaj and measured the induction of PPO activity in infected sites and adjacent to infected sites. Compared to infected and uninfected sites, PPO activity was induced significantly in areas adjacent to infected sites in all cultivars except Ford. Ford and Franquette, presenting the lowest and highest PPO activity, showed the largest and smallest mean diameter spots in response to Xaj, respectively. Polyacrylamide gel electrophoresis confirmed monophenol oxidase activity of walnut PPO in the assessed tissues. Then, we revealed the antipathogenic potential of walnut PPO through Agrobacterium tumefaciens-mediated walnut JrPPO1 gene transfer into tobacco (Nicotiana tabacum). Two transformed tobacco lines overexpressing the JrPPO1 gene were regenerated successfully and challenged with Pseudomonas syringae pv. tabaci. Transgenic lines showed significantly higher PPO activity and lower disease severity to the pathogen compared to the control. However, a significant difference in disease severity and PPO activity level was observed between the two transgenic lines. Our results demonstrate a potential defence-related role of PPO in transgenic tobacco and its induction in areas adjacent to infection sites in walnut cultivars treated with Xaj.     

中国4省猕猴桃细菌性溃疡病菌的生物型检测和遗传多样性分析

由丁香假单胞菌猕猴桃致病变种Pseudomonas syringae pv. actinidiae (Psa)侵染引起的猕猴桃细菌性溃疡病(kiwifruit bacterial canker)是全球猕猴桃生产上最具毁灭性的细菌病害。为探明福建、安徽、四川和陕西4省Psa菌株的生物型和遗传多样性,用5对PCR特异性引物PsaJ-F/-R、PsaK-F/-R、Tac-F/-R、Con002-F/-R和avrRps4-F1/-R2检测Psa菌株的生物型;用4对PCR引物27F/1492R、PsaF1/PsaR2、gapA-Fps/Rps和rpoD+364s/-1222ps分别扩增16S rRNA、ITS、gapA和rpoD基因,进行多基因联合分析Psa菌株的遗传多样性。结果表明,特异性引物Tac-F/-R从47株Psa菌株中均能扩增出一条545 bp的特异条带,其他4对引物未扩增出任何条带,说明供试Psa菌株的生物型均为biovar 3。多基因联合分析表明,4省Psa存在丰富的遗传多样性,4个群体共检测出27个单倍型,单倍型多样性为0.955。安徽、福建、四川和陕西群体的单倍型数差异较大,分别为1、8、12个和12个。4个群体的多态性位点数、核苷酸多样性和平均核苷酸差异数差异极显著(P<0.01),其中福建群体的多态性最丰富,而安徽群体的多态性最低。AMOVA分析表明,3.6%的遗传变异来源于种群间,而96.4%的遗传变异来源于种群内,说明种群内变异是遗传变异的主要来源。遗传分化分析表明,安徽省Psa群体与其他3个群体间的遗传分化极高(Fst>0.175),福建、四川和陕西群体间的遗传分化水平较低(Fst<0.017)。研究结果有利于了解福建省Psa的来源,为阻断Psa的传播和猕猴桃细菌性溃疡病的长期可持续控制提供了理论参考。     

通过抑制消减杂交技术分离球孢白僵菌热激响应基因

高温等逆境因素会影响生防真菌——球孢白僵菌Beauveria bassiana的田间应用效果。为了深入了解生防真菌热胁迫响应的分子机理,本研究采用抑制消减杂交技术构建了球孢白僵菌热胁迫下的差异表达cDNA文库,筛选出28个热激响应上调基因。通过基因比对分析,大部分基因与已知功能基因如物质运输、基础代谢及胁迫响应类基因等具高度同源性。从中挑选12个基因利用荧光实时定量PCR分析了菌株在40℃下热激15、30、60、120 min后的相对表达水平,结果显示这些基因的表达模式随热激时间和基因不同而异,显示菌体在热激的不同阶段依次启动不同的应激方案来应对热激胁迫。这些热激响应基因为揭示球孢白僵菌的耐热机制和通过遗传改造提高菌株耐热力奠定基础。     

利用EMAqPCR建立快速检测猕猴桃溃疡病菌活菌的方法

利用叠氮溴乙锭(ethidium monoazide bromide,EMA)与实时荧光定量PCR技术相结合(EMA-qPCR),建立了一种有效快速检测猕猴桃溃疡病菌活菌的方法。以猕猴桃溃疡病菌ITS序列为检测靶标,菌体经EMA渗透处理,再进行qPCR特异性扩增。结果显示,qPCR检测灵敏度为2cfu;当EMA的浓度为2.0μg/mL时,能有效抑制1.0×10~7 cfu/mL经高温灭活的死菌的扩增,对活菌的扩增没有影响。当活菌数在1.0×10~1~1.0×10~5 cfu范围内,每个qPCR反应体系中活菌数与Ct值呈线性相关(R~2=0.988)。不同温度处理活菌菌悬液后用EMA-qPCR检测猕猴桃溃疡病菌的存活情况并与平板计数法进行比较,结果表明待检样品可在4℃和20℃短期保存。对疑似带病猕猴桃材料进行EMA-qPCR检测,结果表明能减少猕猴桃溃疡病菌PCR的假阳性结果。本研究建立的EMAqPCR方法是一种有效检测猕猴桃溃疡病菌活菌的方法,能有效避免PCR检测实际样品可能造成的假阳性结果。     

Effect of weather conditions on local spread and infection by pea bacterial blight (Pseudomonas syringae pv. pisi)

The effect of weather conditions on simultaneous local (plant to plant) spread and infection of peas (Pisum sativum) with bacterial blight (Pseudomonas syringae pv. pisi) was investigated by exposing susceptible bait plants for 24 h periods in infected field plots. Following exposure, bait plants were maintained in a glasshouse. Disease symptoms were recorded on 55 out of a total of 105 days on which plants were exposed. Nearly all of these infection events (53) were associated with the occurrence of rain. A series of Generalised Linear Models was fitted to the data to examine the relationships of the mean number of lesions (m) or the proportion of bait plants infected (p) to various weather variables and disease levels in the plots. Rainfall rate and wind run were the most important explanatory variables for the mean number of lesions followed by maximum temperature, rainfall duration, rainfall in the previous week and disease incidence in the surrounding crop. However, rainfall duration and disease incidence were the most important for the proportion of bait plants infected, followed by wind run. A four variable model relating the mean number of lesions to the rainfall rate, wind run, maximum temperature and either rainfall the previous week or disease incidence in the surrounding crop was considered to be the most useful for use in simulation studies.     

Pseudomonas syringae pv. solidagae pv. nov., the Causal Agent of Bacterial Leaf Spot of Tall Goldenrod Solidago altissima L.

A new bacterial disease of tall goldenrod (Solidago altissima L., “Seitaka-awadachiso” in Japanese), one of the most serious weeds in non-agricultural land, was discovered in Ibaraki Prefecture, Japan. Characterized by angular or round, dark brown necrotic spots on leaves, this disease resulted in defoliation and terminal dieback of the plants in severe cases. The disease was named “bacterial leaf spot”. The causal bacterium was identified as Pseudomonas syringae based on its bacteriological properties including those determined by LOPAT tests. The present bacterium was pathogenic to tall goldenrod alone but not to many other tested plants including weeds, flowers, trees and crops. In addition, P. syringae pv. syringae and other pathovars did not show any pathogenicity to tall goldenrod. Because no pathovars of P. syringae pathogenic to tall goldenrod have been reported, the present bacterium was concluded to be a new pathovar of P. syringae. We propose the name P. syringae pv. solidagae pv. nov. , and strain Sei 1 (MAFF 810063) is designated as the pathotype strain and has been deposited in the MAFF collection with two reference strains (MAFF 810064 and MAFF81066). Received 9 May 2001/ Accepted in revised form 18 June 2001     

Infection of horse chestnut (Aesculus hippocastanum) by Pseudomonas syringae pv. aesculi and its detection by quantitative real-time PCR

Pseudomonas syringae pv. aesculi is a pathogenic bacterium causing bleeding canker disease of horse chestnut ( Aesculus hippocastanum ). This is a serious disease which has been affecting horse chestnut in several European countries over the last five years; however, very little is known about the biology of the causal agent. One of the obstacles to studying this pathogen is the lengthy procedure associated with confirming its presence on the host. In this study, P. syringae pv. aesculi was isolated from lesions on different parts of horse chestnut and its pathogenicity confirmed on horse chestnut saplings using two inoculation techniques. Real-time PCR primers were developed based on gyrase B gene sequence data for the specific detection of P. syringae pv. aesculi . Primer specificity was tested on isolates of the target pathogen as well as on a broad range of related non-target bacteria and other bacterial spp. which inhabit horse chestnut. The real-time primers reliably amplified P. syringae pv. aesculi down to 1 pg of extracted DNA, with and without the presence of host DNA, and also amplified unextracted DNA in whole cells of the bacterium down to at least 160 colony forming units. Detection and quantification of the target pathogen in phloem and xylem of both naturally infected and inoculated horse chestnut tissues was also demonstrated. This quantitative real-time PCR assay provides the facility to study several important aspects of the biology of P. syringae pv. aesculi on horse chestnut including its potential for dissemination in different substrates.     

应用微滴数字PCR同时检测瓜类种子携带果斑病菌和角斑病菌

细菌性果斑病和角斑病是葫芦科作物两大重要细菌病害,病原菌分别为西瓜嗜酸菌Acidovorax citrulli和丁香假单胞菌黄瓜致病变种Pseudomonas syringae pv.lachrymans。两种菌均可通过种子、种苗带菌进行远距离传播。种子检测是预防和控制这两种病害发生的首要环节。本研究应用微滴数字PCR技术(droplet digital PCR,ddPCR)建立了同时检测种子携带西瓜嗜酸菌和丁香假单胞菌的方法。结果显示:两种细菌菌悬液和DNA样品等浓度混合时,ddPCR能同时检测到两种靶标菌的最低混合菌悬液浓度和最低DNA浓度分别为10³ cfu/mL和10^-3 ng/μL,其检测灵敏度是平行测试的real-time PCR方法的10倍;对于非等浓度混合的菌悬液和DNA样品,两种靶标菌菌悬液按浓度比1∶1000(10³∶10⁶ cfu/mL)混合或其DNA浓度比为1∶10000(2.28×10^-3 ng/μL∶22.8 ng/μL)条件下,ddPCR可检测到低浓度的靶标菌,检测灵敏度同样是real-time PCR的10倍。此外,在人工接菌种子测试中,西瓜、甜瓜单粒种子平均带菌量10⁵~10⁶ cfu/粒时,ddPCR方法可检测到带菌率0.2%(n=500)的西瓜、甜瓜种子样品。将分别携带两种菌的种子按比例1∶10混合时ddPCR方法可以准确检出浓度相对低的靶标菌;而使用相同检测引物的real-time PCR检测方法则只能检出西瓜嗜酸菌和丁香假单胞菌带菌率分别为0.2%和2%(n=500)的甜瓜种子混合样品中的西瓜嗜酸菌,未能稳定检出丁香假单胞菌。综上所述,本研究基于ddPCR技术建立了可同时检测两种重要葫芦科种传细菌的方法,检测结果稳定可靠,丰富了当前种传病原细菌的检测技术体系。