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1.
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。 相似文献
2.
Ⅲ型分泌系统(type Ⅲ secretion system,T3SS)是影响西瓜噬酸菌Acidovorax citrulli致病性的重要因素,hrcQ作为T3SS的保守基因,在组成和维持该系统功能方面扮演着重要角色,但hrcQ在西瓜噬酸菌中的具体生物学功能尚不明确。本试验以西瓜噬酸菌Aac5菌株为研究对象,通过基因敲除、致病力及相关表型测定等,解析了hrcQ基因的功能。结果表明:hrcQ缺失导致Aac5菌株对寄主的致病能力丧失,运动性及生物膜形成能力降低,并丧失了引起烟草过敏性反应能力;hrcJ和hrcR基因在hrcQ缺失突变株中的表达量下调,hrcQ对hrcJ和hrcR基因均为正调控。表明hrcQ在维持西瓜噬酸菌致病能力中起着不可或缺的作用。 相似文献
3.
为明确编码Ⅲ型分泌系统(typeⅢsecretion system,T3SS)中重要核心蛋白的hrcS基因对西瓜噬酸菌Acidovorax citrulli致病力的影响,以西瓜噬酸菌野生型菌株Aac5为对象,通过基因敲除构建hrcS基因缺失突变菌株ΔhrcS及其互补菌株ΔhrcS-comp,测定其致病力及致病相关基因表达量、烟草过敏性反应能力、运动能力及运动能力相关基因表达量、生物膜形成能力和离体生长能力。结果显示,与野生型菌株Aac5相比,hrcS基因缺失突变菌株丧失了对寄主的致病能力和引起非寄主烟草过敏性反应能力,运动能力显著增强了191.75%,生物膜形成能力显著下降了43.90%,离体生长能力在达到对数期后呈下降趋势。hrcS基因缺失使西瓜噬酸菌T3SS中hrpG、hrpX和hrpE基因以及鞭毛fliC基因表达量显著上调,分别为野生型菌株的2.27倍、2.38倍、1.26倍和1.77倍,hrcQ基因表达量显著下调,仅为野生型菌株的50.75%。表明hrcS基因在维持西瓜噬酸菌致病能力中发挥着重要作用。 相似文献
4.
北京地区草莓灰霉病菌的转座子及其分布频率 总被引:1,自引:0,他引:1
为了解北京地区草莓灰霉病菌的转座子类型及其分布,本研究用转座子Boty和Flipper的特异性引物对北京地区2012-2013年从12个草莓园采集和分离的60株草莓灰霉病菌进行PCR扩增。结果表明,北京地区草莓灰霉病菌群体中共存在3种转座子类型:transposa型、Boty型和Flipper型。其中,以transposa型菌株最多,占供试菌株的63.3%,Boty型菌株占供试菌株的28.3%,Flipper型菌株最少,仅占8.4%,未检测到vacuma型菌株。选取属于不同转座子类型的18株菌株测定其对草莓叶片的致病力,结果显示Boty型菌株所致病斑的平均直径显著大于Flipper型。草莓灰霉病菌转座子类型与致病力的关系有待进一步研究。转座子类型的检测为进一步研究灰葡萄孢的遗传多样性及遗传变异提供了基础。 相似文献
5.
欧美杨溃疡病是由Lonsdalea quercina(原称Brenneria quercina,Erwinia quercina)引起的一种细菌性病害,2005年首次在我国河南发现,对我国杨树产业造成了严重影响。菌株N-5-1是从河南濮阳自然发病杨树枝条上分离到的致病菌株。根据N-5-1菌株全基因组测序的初步结果分析,发现N-5-1具有完整的III型分泌系统(Type III secretion system,T3SS)。该系统与植物病原菌Erwinia amylovora CFBP1430和Dickeya dadantii 3937的T3SS高度相似,共由26个基因编码,共约23 kb,其中9个为保守的hrc基因。将L. quercina N-5-1菌株T3SS中保守的结构基因hrcV进行缺失突变,生物测定发现ΔhrcV突变体对“中林46杨”(Populus ×euramericana ‘Zhonglin 46’)2年生枝条的致病力明显下降,而互补菌株HBhrcV致病力与野生菌株保持一致。表明该菌中T3SS是病原细菌重要的致病性因子。菌株N-5-1中hrcV基因的突变导致诱导烟草过敏性坏死反应能力丧失,但并没有影响菌株的生长速率、游动性和生物膜的形成。本研究首次证明了L. quercina N-5-1菌株的T3SS是重要的致病因子。 相似文献
6.
水稻白叶枯病菌(Xanthomonas oryzae pv.oryzae,Xoo)引起的白叶枯病(bacterial leaf blight,BLB)是水稻上最严重的细菌病害之一。Xoo与寄主水稻的互作依赖由hrp基因编码的Ⅲ型分泌系统(Type Ⅲ secretion system,T3SS),将效应蛋白(T3SS effectors,T3SEs)注射入水稻细胞,引起BLB症状的扩展。HrpG是hrp基因转录表达的主要调控因子。为了鉴定未知的hrpG调控子,本研究在以hrpG∷gusA为报道基因构建的转座子突变体库中,筛选获得4个候选的hrpG负调控子突变体G24-46、G48-22、G19-14和G57-41。GUS活性测定、荧光定量PCR以及烟草组织的GUS染色试验均显示,在这些突变体中hrpG的表达显著增加。Southern杂交结果显示,突变体中转座子均为单一位点的插入。插入位点分析结果显示,在G24-46、G48-22、G57-41和G19-14中转座子分别插入在minD、pilA、metB和wxoB基因中。毒性测定结果显示,这4个突变体在水稻上的毒性显著降低。这些hrpG调控子基因的鉴定为进一步解析稻黄单胞菌hrpG上游调控网络提供了新的科学线索。 相似文献
7.
Ⅵ型分泌系统(typeⅥsecretion system,T6SS)是新近报道的细菌蛋白分泌系统。基于植物青枯菌致病力分化菌株Po82的全基因组测序结果,发现其大质粒中存在T6SS的同源基因簇。本文通过基因敲除的方法构建了Po82菌株Ⅵ型分泌系统中的核心基因—hcp基因的缺失突变株,并比对了Po82野生型菌株、突变株及互补菌株在致病性、生长速率、运动性、生物膜形成等方面的变化。结果表明,hcp基因突变株较野生型菌株致病力显著减弱,病程延长;在生长速率、运动性及生物膜形成方面,突变株较野生型无明显差异。说明植物青枯菌Po82菌株T6SS中的hcp基因参与了细菌的致病过程。 相似文献
8.
Ⅵ型分泌系统(typeⅥsecretion system,T6SS)是革兰氏阴性细菌中新近发现的分泌系统,控制细菌的毒性和蛋白泌出。本试验构建了植物青枯菌Po82菌株的T6SS基因簇完全缺失菌株,从全局水平初步分析了T6SS的功能。与野生型菌株相比,T6SS基因簇的缺失导致了突变菌株运动能力显著增强,在接种前期突变株病情指数明显下降;通过qRT-PCR分析Ⅲ型分泌系统效应子基因,其中popA、popB和popP基因表达量上调,而popC表达水平下调。T6SS基因簇的缺失影响了Po82菌株的运动能力和Ⅲ型效应子基因的表达,使得Po82病程延长。这些结果说明,T6SS参与青枯菌的致病过程,且T6SS与T3SS之间有复杂的未知调控关系。 相似文献
9.
胶孢炭疽菌致病相关基因Plv2功能分析 总被引:1,自引:0,他引:1
胶孢炭疽菌(Colletotrichum gloeosporioides)引起的橡胶树炭疽病是橡胶树三大叶部病害之一,严重威胁着橡胶树的生长。本研究从构建的胶孢炭疽菌RC178 T-DNA突变体库中筛选获得一株致病力明显减弱的突变菌株T1103,其T-DNA为单拷贝。采用TAIL-PCR克隆了该突变体T-DNA插入位点的侧翼序列,通过比对胶孢炭疽菌全基因组序列,发现该TDNA插入位点所在的序列包含一个5 400 bp的基因,将其命名为Plv2。Plv2基因包含3个外显子,编码一个假定的甾醇C-24甲基转移酶。敲除野生型菌株RC178中的Plv2,发现敲除突变体与T1103的致病力表现基本一致,由此推测Plv2基因为致病相关基因。 相似文献
10.
甜瓜细菌性果斑病菌致病性突变体筛选与hrcR基因的克隆 总被引:2,自引:0,他引:2
细菌性果斑病(Bacterial Fruit Blotch,BFB)是西瓜和甜瓜的重要病害。本实验从发病甜瓜果实上分离得到致病菌株MH21,经鉴定为燕麦食酸菌西瓜亚种(Acidovorax avenae subsp. citrulli)。利用转座子Mini-Tn5构建MH21菌株的突变体库,Southern印迹杂交结果显示Mini-Tn5在菌株MH21染色体上可随机、单拷贝插入。通过浸种处理甜瓜种子进行突变体的致病性检查,筛选得到1株致病性完全丧失的突变体M543。对M543中转座子插入基因的克隆和测序表明其突变基因为燕麦食酸菌Ⅲ型分泌系统(TTSS)中的保守基因hrcR。推测菌株MH21中hrcR基因编码的蛋白定位于细菌内膜,是分泌通道主要成分之一。hrcR基因互补菌株的致病性检查结果显示其致病力恢复到野生型的84%。研究同时发现hrcR基因突变后MH21菌株丧失了在烟草上诱导过敏性坏死反应的能力。本研究从遗传学角度说明TTSS是西甜瓜果斑病菌致病性的重要因子。 相似文献
11.
Since 2008, Pseudomonas syringae pv. actinidiae virulent strains (Psa‐V) have quickly spread across the main areas of kiwifruit (Actinidia deliciosa and A. chinensis) cultivation causing sudden and re‐emerging outbreaks of bacterial canker to both species. The disease caused by Psa‐V strains is considered worldwide as pandemic. Recently, P. syringae strains (ex Psa‐LV, now called PsD) phylogenetically related to Psa‐V have been isolated from kiwifruit, but cause only minor damage (i.e. leaf spot) to the host. The different biological significance of these bacterial populations affecting kiwifruit highlights the importance of having a diagnostic method able to detect Psa‐V, which is currently solely responsible for the severe damage to the kiwifruit industry. In order to improve the specific molecular detection of Psa‐V, a real‐time PCR assay has been developed based on EvaGreen chemistry, together with a novel qualitative PCR (PCR‐C). Both methods are based on specific primer sets for the hrpW gene of Psa. The real‐time PCR and PCR‐C were highly specific, detecting down to 50 and 200 fg, respectively, and were applied to a range of organs/tissues of kiwifruit with and without symptoms. These methods are important tools for both sanitary and certification programmes, and will help to avoid the spread of Psa‐V and to check possible inoculum sources. In addition to being used as routine tests, they will also enable the study of the biology of Psa‐V and the disease that it causes, whilst avoiding the detection of other populations of related P. syringae present in kiwifruit. 相似文献
12.
Comparative genomics‐informed design of two LAMP assays for detection of the kiwifruit pathogen Pseudomonas syringae pv. actinidiae and discrimination of isolates belonging to the pandemic biovar 3 
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下载免费PDF全文 M. Ruinelli P. H. H. Schneeberger P. Ferrante A. Bühlmann M. Scortichini J. L. Vanneste B. Duffy J. F. Pothier 《Plant pathology》2017,66(1):140-149
The aim of this study was to develop a rapid, sensitive and reliable field‐based assay for detection of the quarantine pathogen Pseudomonas syringae pv. actinidiae (Psa), the causal agent of the most destructive and economically important bacterial disease of kiwifruit. A comparative genomic approach was used on the publicly available Psa genomic data to select unique target regions for the development of two loop‐mediated isothermal amplification (LAMP) assays able to detect Psa and to discriminate strains belonging to the highly virulent and globally spreading Psa biovar 3. Both LAMP assays showed specificity in accordance with their target and were able to detect reliably 125 CFU per reaction in less than 30 min. The developed assays were able to detect the presence of Psa in naturally infected kiwifruit material with and without symptoms, thus increasing the potential of the LAMP assays for phytosanitary use. 相似文献
13.
Highly specific assays to detect isolates of Pseudomonas syringae pv. actinidiae biovar 3 and Pseudomonas syringae pv. actinidifoliorum directly from plant material 下载免费PDF全文
下载免费PDF全文 M. T. Andersen M. D. Templeton J. Rees‐George J. L. Vanneste D. A. Cornish J. Yu W. Cui T. J. Braggins K. Babu J. F. Mackay E. H. A. Rikkerink 《Plant pathology》2018,67(5):1220-1230
Pseudomonas syringae pv. actinidiae (Psa) is responsible for bacterial canker of kiwifruit. Biovar 3 of Psa (Psa3) has been causing widespread damage to yellow‐ and green‐fleshed kiwifruit (Actinidia spp.) cultivars in all the major kiwifruit‐producing countries in the world. In some areas, including New Zealand, P. syringae pv. actinidifoliorum (Pfm), another bacterial pathogen of kiwifruit, was initially classified as a low virulence biovar of Psa. Ability to rapidly distinguish between these pathovars is vital to the management of bacterial canker. Whole genome sequencing (WGS) data were used to develop PCR assays to specifically detect Psa3 and Pfm from field‐collected material without the need to culture bacteria. Genomic data from 36 strains of Psa, Pfm or related isolates enabled identification of areas of genomic variation suitable for primer design. The developed assays were tested on 147 non‐target bacterial species including strains likely to be found in kiwifruit orchards. A number of assays did not proceed because although they were able to discriminate between the different Psa biovars and Pfm, they also produced amplicons from other unrelated bacteria. This could have resulted in false positives from environmental samples, and demonstrates the care that is required when applying assays devised for pure cultures to field‐collected samples. The strategy described here for developing assays for distinguishing strains of closely related pathogens could be applied to other diseases with characteristics similar to Psa. 相似文献
14.
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
15.
Karen Walters Ali Maroofi Ed Hitchin John Mansfield 《Physiological and Molecular Plant Pathology》1990,36(6)
A genomic library of Erwinia amylovora isolate T was constructed in the cosmid pLAFR3 and maintained in Escherichia coli. Clones were transferred individually by conjugation into the non-pathogenic isolate P66 of E. amylovora. Transconjugants were screened for restoration of pathogenicity to pear by stab inoculation into sections of immature pear fruits. Three clones complemented P66 restoring pathogenicity and ability to cause the hypersensitive reaction (HR) in Phaseolus vulgaris. Restriction mapping and hybridization experiments showed that the three clones had a common 3·7 kb fragment of E. amylovora DNA. Sub-cloning and insertion mutagenesis with Tn5-lac confirmed that a determinant of pathogenicity and ability to cause the HR (hrp gene) was located on a 2·1 kb HindIII/BamHI fragment within the common DNA. Hybridization experiments using the 2·1 kb HindIII/BamHI fragment as a probe demonstrated that the hrp gene was located in the chromosome of isolate T and that homologous sequences were present in the non-pathogenic isolates P66 and S. Clones which restored hrp function did not affect the growth of isolate P66 in minimal or nutrient-rich media. Transconjugants of Pseudomonas syringae pv. phaseolicola race 1 harbouring the hrp gene(s) cloned from E. amylovora did not cause the HR in susceptible cultivars of bean but symptoms developed more slowly than in the absence of the clones or with pLAFR3 alone. 相似文献
16.
A. Abelleira A. Ares O. Aguín A. Picoaga M. M. López P. Mansilla 《Plant pathology》2014,63(3):691-699
Bacterial canker of kiwifruit, caused by Pseudomonas syringae pv. actinidiae (Psa), is a disease that is spreading rapidly in several kiwifruit‐producing countries, causing significant economic losses. In 2011, it was detected for the first time in Spain, in the south of Galicia (northwest Spain). Kiwifruit orchards were therefore inspected and sampled in 2011 and 2012 to determine the pathogen distribution, and the isolates obtained were characterized by morphology, fatty acids profile, biochemical tests and molecular techniques. Isolates were obtained from Actinidia deliciosa ‘Hayward’ (from leaves, canes, flower buds, fruits and roots), from A. deliciosa ‘Summer’, from Actinidia chinensis ‘Jin Tao’ (from canes and leaves) and from A. chinensis pollinator ‘Belén’ (from canes). Results of the analysis of the cfl gene (phytotoxin production‐related), the tox–argK gene cluster and phylogenetic analysis of the cts gene demonstrated that all Psa isolates from northwest Spain correspond to the Psa3 population, which includes strains of haplotype 2. This is the first record of Psa3 and haplotype 2 in Spain. 相似文献
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Impact of kiwifruit bacterial canker on productivity of cv. Hayward kiwifruit using observational data and multivariable analysis 下载免费PDF全文
下载免费PDF全文 A virulent strain of Pseudomonas syringae pv. actinidiae biovar 3 (Psa), which causes bacterial canker in kiwifruit, was first recorded in New Zealand in November 2010. This strain has severely affected Actinidia chinensis var. chinensis ‘Hort16A’ kiwifruit productivity but its effect on green Actinidia chinensis var. deliciosa ‘Hayward’ kiwifruit productivity has been variable. An observational study design was used to develop explanatory models to quantify the impacts of Psa infection on productivity (tray equivalents per hectare) of Hayward kiwifruit harvested in 2012, using data captured by industry from 2599 orchards. A total of 934 orchards were Psa positive at the end of the study period. Multivariable linear regression was used to model 2012 productivity in the presence of Psa, while controlling for regional differences, elevation, 2011 productivity, harvest dates and application of agrichemicals. The model showed productivity was initially higher in the presence of Psa, and was not reduced until after 1 year of infection. The relationship between protective spray use and productivity was also quantified. It is likely that improved disease management has offset the impact of the disease and future research should consider a reassessment of the effects of disease after longer term exposure to Psa in New Zealand. The use of an observational cohort study to assess disease impacts using multivariable analysis could have wider application in the field of plant epidemiology. 相似文献
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Fa-Ming Wang Quan-Hui Mo Kai-Yu Ye Hong-Juan Gong Bei-Bei Qi Ping-Ping Liu Qiao-Sheng Jiang Jie-Wei Li 《Plant pathology》2020,69(6):979-989
Bacterial canker of kiwifruit caused by Pseudomonas syringae pv. actinidiae (Psa) is a catastrophic disease that threatens the global kiwifruit industry. As yet, no cure has been developed. Planting resistant cultivars is considered as one of the most effective ways to control Psa. However, most existing cultivars lack Psa-resistance genes. Wild Actinidia resources contain rich genetic diversity and may have powerful disease-resistance genes under long-term natural selection, but lack of knowledge about the resistance to Psa for most Actinidia species results in some excellent wild resistant genotypes being underutilized. In this study, the response to Psa of 104 wild genotypes of 30 Actinidia species (including 37 taxa) was tested with an in vitro bioassay, and a considerable number of individuals from different species with tolerance or high resistance to Psa were identified. The results showed high consistency between years. This is the first large-scale evaluation of diverse Actinidia species with resistance to Psa through an in vitro bioassay. The resistant genotypes of A. chinensis identified could be used in future kiwifruit improvement programmes. The findings should help provide an understanding of the resistance to Psa. 相似文献
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Roxana Y. Parada Kumiko Oka Daisuke Yamagishi Motoichiro Kodama Hiroshi Otani 《Physiological and Molecular Plant Pathology》2007,71(1-3):48-54
It has been reported that Alternaria brassicae, the causal agent of gray leaf spot in Brassica plants, produces a host-specific or host-selective toxin (HSTs) identified as destruxin B. In this study, the role of destruxin B in infection of the pathogen was investigated. Destruxin B purified from culture filtrates (CFs) of A. brassicae induced chlorosis on host leaves at 50–100 μg ml−1, and chlorosis or necrosis on non-host leaves at 250–500 μg ml−1. Destruxin B was detected in spore germination fluids (SGFs) on host and non-host leaves, but not in a sufficient amount to exert toxicity to host plants. When spores of non-pathogenic A. alternata were combined with destruxin B at 100 μg ml−1 and inoculated on the leaves, destruxin B did not affect the infection behavior of the spores. Interestingly, SGF on host leaves allowed non-pathogenic spores to colonize host leaves. Moreover, a high molecular weight fraction (>5 kDa) without destruxin B obtained by ultrafiltration of SGF had host-specific toxin activity and infection-inducing activity. From these results, we conclude that destruxin B is not a HST and does not induce the accessibility of the host plant which is essential for colonization of the pathogen. In addition, the results with SGF imply that a high molecular weight HST(s) is involved in the host–pathogen interaction. 相似文献