共查询到19条相似文献,搜索用时 187 毫秒
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在山东省滨州市和泰安市田间调查,发现香椿上一种新的细菌病害。从采集的病叶上分离到15个细菌菌株,选出其中6个菌株,在自然条件下人工伤口接种香椿,发病症状与自然发病症状一致,从接种发病的病叶上又重新分离到与接种菌株相同的病原细菌,供试6个细菌菌株均为该病的致病菌。经染色反应、生理生化测定及菌体形态和培养性状等比较分析,确认香椿细菌性叶斑病致病菌为油菜黄单胞菌楝树致病变种[Xanthomonas campestris pv.azadirachtae(Desai.Gandhi.Pateletkotas thane 1966)Dye 1978]。 相似文献
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番茄细菌性斑点病病原菌鉴定 总被引:12,自引:0,他引:12
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。 相似文献
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哈密瓜细菌性果斑病病原菌鉴定 总被引:40,自引:3,他引:37
2000年在内蒙古和新疆的哈密瓜上发现一种新细菌病害-哈密瓜细菌性果斑病,从病叶和病果上分离到33个细菌菌株,接种哈密瓜、西瓜和甜瓜后,发病症状与自然发病症状完全一致,而且从接种病株上又重新分离到了此病原细菌,这33个细菌菌株经柯赫法则证明均为该病的致病菌。各菌株致病力无明显差异。经革兰氏染色反应、菌体形态、培养性状、生理生化反应、细胞化学成分分析(糖、蛋白质、氨基酸、脂肪酸、mol% G+C)、DNA-DNA杂交,确认该病原菌为燕麦食酸菌西瓜亚种(Acidovorax avenae subsp.citrulli Willems et al.1992)=类产碱假单胞菌西瓜亚种(Pseudomonas pseudoalcaligenes subsp.citrulli Schaad et al.1978)。该病菌除侵染哈密瓜外,人工接种尚能侵染多种葫芦科及番茄、茄子等作物。 相似文献
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利用MT选择性培养基从进境加拿大豌豆样品上分离到一株细菌分离物(编号1314),对该分离物进行PCR检测、16S和23S rRNA序列扩增、多位点序列分析、Biolog测定、烟草过敏性反应和致病性测试。豌豆细菌性疫病菌(Pseudomonas syringae pv. pisi, Ppi)特异引物AN7F/AN7R扩增分离物1314和Ppi菌株ATCC 11043得到预期272 bp的条带,二者的PCR产物序列一致,与GenBank中Ppi (X97405)的序列相似性为99.57%。分离物1314的部分16S rRNA、23S rRNA序列以及16S-23S序列均与Ppi菌株ATCC 11043一致。选择gap1、gltA、gyrB和ropD 4个看家基因进行多位点序列分析,系统发育树显示分离物1314与Ppi菌株聚在同一组内。Biolog鉴定结果表明:分离物1314为Ppi,PROB值为0.898,SIM为0.72。该分离物人工接种豌豆茎秆能引起水渍状症斑,接种烟草叶片产生过敏性反应。基于上述试验结果,将分离物1314鉴定为豌豆细菌性疫病菌。 相似文献
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2020年,在由斯里兰卡入境的甘蔗种茎中发现多条发病蔗茎。通过分离培养获得菌株,对菌株进行形态学鉴定、序列比对、系统进化分析和致病性测定。结果表明,该菌株形态与暗色座腔孢菌Phaeocytostroma sacchari相符。用引物ITS1和ITS4进行核酸序列扩增,获得约536 bp的目的片段,所获菌株km-1序列与P. sacchari一致性为100%;经系统进化分析发现,菌株km-1与暗色座腔孢菌聚在同一个进化分支。致病性接种结果表明,接种后的甘蔗具茎腐病典型症状,内部组织变为橙红色,并再次分离出暗色座腔孢菌。根据形态学、分子鉴定和致病性测定结果,确证分离到的甘蔗茎腐病的病原菌是给南非和印度甘蔗种植国家带来严重损失的暗色座腔孢菌。 相似文献
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从进境的美国高粱样品中分离到一株与葡萄茎枯病菌Didymella glomerata相似的菌株4358-17。其菌落形态和显微特征均与葡萄茎枯病菌一致。多个位点(LSU、ITS、TUB2、ACT)序列比对显示菌株4358-17与GenBank登录号为KT389718、FJ427004、FJ427115、FJ426896的葡萄茎枯病菌相似性均达到100%。系统发育分析结果表明菌株4358-17与葡萄茎枯病菌株聚集在同一个分支上,支持率为99%。菌株4358-17接种高粱和小麦叶片,4d后接种部位出现明显症状。根据上述试验结果,将进境美国高粱样品中分离的菌株4358-17鉴定为葡萄茎枯病菌。 相似文献
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为明确我国热带和亚热带地区蚕豆Vicia faba和豌豆Pisum sativum锈病的病原菌种类,通过致病性测定和ITS序列系统发育分析对来自我国云南省玉溪市的4份豌豆锈菌分离物及云南、广西、重庆和四川省(区、市)的5份蚕豆锈菌分离物进行系统鉴定。结果显示,分离自豌豆的锈菌WX1分离物对蚕豆和豌豆均具有高致病性,在侵染叶片上产生大量锈子器;分离自蚕豆的锈菌CX3分离物仅对蚕豆具有高致病性,能在叶片上产生大量夏孢子,而对豌豆的致病性相对较低,仅产生少量的夏孢子堆;分离物WX1和CX3对小扁豆和鹰嘴豆不具有致病性。基于ITS序列系统发育分析表明,所有不同寄主来源的蚕豆单胞锈菌分离物均聚类于一个系统发育组,但分离自蚕豆和豌豆的分离物分别聚类在不同的亚组。表明分离自云南省玉溪市豌豆上的蚕豆单胞锈菌Uromyces viciae-fabae应为豌豆专化型,定名为U. viciae-fabae ex P. sativaum,而来源于云南、广西、重庆和四川省(区、市)的蚕豆锈病病原菌为蚕豆专化型U. viciae-fabae ex V. faba。 相似文献
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When a range of genotypes of the genus Pisum was inoculated with Ascochyta pisi some remained uninfected or symptomless whereas the reactions of others ranged from a hypersensitive resistance through various levels of susceptibility to almost lethal infection. This variation, categorized on a six-class scale, was used to describe the reactions of 57 isolates of A. pisi collected from pea crops widely distributed in Britain when inoculated on to 14 differential lines of Pisum. Five major pathotype groups were distinguished and a set of lines nominated as standard differential hosts. 相似文献
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Occurrence of the Andean strain of potato virus S in imported potato material and its effects on potato cultivars 总被引:1,自引:0,他引:1
Infection with potato virus S Andean (PVSA ) and ordinary (PVSo ) strains was found in potato breeder's selection No. 8163-511 imported from West Germany; the two PVS strains were differentiated by their reactions on Chenopodium quinoa Tests on potato leaf samples using enzyme-linked immunosorbent assay followed by inoculation to C quinoa were subsequently used to detect PVSA and PVSo in a large-scale survey of imported and domestic potato material. PVSA was detected in breeders' selections and cultivars imported from the Netherlands and West Germany, but not in domestic certified seed potato stocks or farmers' once-grown stocks. PVSo was found in both imported and domestic certified stocks, but infection was commoner in the imported ones. When plants of C. quinoa, C. amaranticolor, C. murale and Nicotiana debneyi were inoculated with four isolates of PVSA , one induced mild symptoms while the reactions of the others ranged from moderate to severe. When plants of different potato cultivars were inoculated with three isolates, the plants were mostly infected without symptoms. However, when tubers from some were grown on, the progeny plants of most of the different combinations of cultivar and isolate of PVSA developed one or more of the following symptoms: vein deepening, rugosity, interveinal chlorosis, premature senescence and early loss of lower leaves. 相似文献
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ABSTRACT The heterothallic ascomycete Nectria haematococca mating population VI (anamorph Fusarium solani) is a broad host range pathogen. Field isolates of this fungus that are pathogenic on pea tend to be female sterile, of low fertility, and the same mating type (MAT-1), whereas female fertile isolates of either mating type that are highly fertile tend to be nonpathogenic on this plant. To facilitate genetic analysis of traits that may be important in the ability of N. haematococca to parasitize peas, a breeding project was undertaken to produce hermaphroditic isolates of each mating type that are highly fertile and highly virulent on peas. Although the association of high virulence on peas with female sterility and the MAT-1 mating type was not completely broken, isolates with high fertility and high virulence on peas were bred within two generations. Highly virulent progeny were also isolated by an alternative method in which pea plants were inoculated with a mixture of ascospores from a cross between two moderately virulent parents. Whereas all ascospores isolated without selection in planta had lower virulence than the parents, many isolates recovered from diseased tissue were more virulent than the parental isolates. Some of the recovered isolates were shown by restriction fragment length polymorphism analysis to be genetic recombinants of the parents, demonstrating that the pea tissue selected virulent recombinants. All highly virulent isolates tested had the ability to detoxify the pea phytoalexin pisatin, again showing a link between this trait and pathogenicity on the pea. 相似文献
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Ochrobactrum CSL 2573, Rhizobium CSL 2411 and Sinorhizobium CSL 2611 strains harbouring the Agrobacterium cucumopine Ri plasmid (pRi), previously were shown to induce root-mat symptoms in an in vitro cucumber cotyledon assay. In whole-plant, rockwool-grown cucumber host tests Rhizobium CSL 2411 was shown to be as efficient an inducer of root-mat symptoms as the virulent Agrobacterium radiobacter strain NCPPB 4042, which also harbours a cucumopine pRi. Conjugal transfer of pRi to ingressing, avirulent Agrobacterium isolates was observed within root tissues with symptoms. Ochrobactrum CSL 2573 and Sinorhizobium CSL 2611 were not able to induce root-mat symptoms on plants. Rhizobium CSL 2411 and Ochrobactrum CSL 2573 were reisolated from inoculated plants, but Sinorhizobium CSL 2611 was not detected or isolated from inoculated plants 68 days after inoculation. It was postulated that the differences in pathogenicity observed between the in vitro and in situ host tests were caused by a lack of proper attachment to inoculated root tissues by pRi-harbouring Ochrobactrum and Sinorhizobium in the whole-plant host tests. 相似文献
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A fungus with morphological features corresponding to the group species Colletorichum gloeosporioides was consistently isolated from cassava with shoots showing dieback symptoms in Ghana. When four locally-grown cultivars were inoculated with isolates of the fungus, they developed disease symptoms, which consisted of discrete dark brown lesions on the stems followed by defoliation. Koch's postulates were completed by re-isolating the fungus from the inoculated plants. The relatedness of the isolates lo other members of the genus Calletotrichum , whose identities were well established, was investigated by comparison of the nucleotide sequence of domain 2 of their ribosomal DNA. The cassava isolates differed from authentic isolates of C. gloeosporioides by only one nucleotide among the 193 analysed. The causal agent of cassava stem tip dieback (STDB) is thus identified as a form of C. gloeosporioides. 相似文献
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ABSTRACT Ascochyta spp. (teleomorphs: Didymella spp.) infect a number of legumes, including many economically important species, and the diseases they cause represent serious limitations of legume production worldwide. Ascochyta rabiei, A. fabae, A. pisi, A. lentis, and A. viciae-villosae are pathogens of chickpea (Cicer arietinum), faba bean (Vicia faba), pea (Pisum sativum), lentil (Lens culinaris), and hairy vetch (V. villosa), respectively. Inoculations in the greenhouse and in growth chambers demonstrated that A. fabae, A. lentis, A. pisi, A. rabiei, and A. viciae-villosae were host specific. Isolates caused no visible disease symptoms on "nonhost" plants (plants other than the hosts they were originally isolated from) but were recovered consistently from inoculated, surface-disinfested, nonhost tissues. Interspecific crosses of A. pisi x A. fabae and A. viciae-villosae x A. lentis produced pseudothecia with viable ascospores, and the hybrid status of the ascospore progeny was verified by the segregation of mating type and amplified fragment length polymorphism (AFLP) markers. Interspecific progeny were morphologically normal in culture but exhibited more phenotypic variation compared with progeny from intraspecific crosses. Mating type and the majority of AFLP markers segregated in Mendelian 1:1 ratios in both intraspecific and interspecific crosses. A total of 11 and 7% of AFLP markers showed segregation distortion among progeny from interspecific crosses and intraspecific crosses, respectively; however, this difference was not significant (P = 0.90). Only 30 of 114 progeny isolates from the A. fabae x A. pisi cross inoculated in the greenhouse caused lesions on pea and only 4 caused disease on faba bean. In all, 15 of 110 progeny isolates were pathogenic to pea and none were pathogenic to faba bean under growth chamber conditions. Although no obvious postzygotic, intrinsic isolating barriers were identified in any of the interspecific crosses, it appears that host specialization may act as both a prezygotic, ecological isolating barrier and a postzygotic, extrinsic, ecological isolating barrier in these fungi. Host specificity, coupled with low pathogenic fitness of hybrids, may be an important speciation mechanism contributing to the maintenance of hostspecific, phylogenetic lineages of these fungi. 相似文献
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D. W. Pallett J. I. Cooper H. Wang J. Reeves Z. Luo R. Machado C. Obermeier J. A. Walsh M. J. Kearsey 《Plant pathology》2008,57(3):401-407
Brassica rapa can be infected with Turnip mosaic virus (TuMV) as a result of manual inoculation or aphid transmission, but infected plants have not been found in the field. In this study, B. rapa plants grown from seed collected from two field sites in southern England were mechanically inoculated with one of two distinct isolates (pathotypes) of TuMV under glasshouse conditions. These had either been isolated from Brassica oleracea growing wild in Wales, (GBR 83, pathotype 3) or Dorset (GBR 98, pathotype 1). Use of ELISA as an index of infection in manually inoculated B. rapa showed that although seed provenance had a small effect on the proportion of plants infected, the biggest factor was the virus isolate. Both virus isolates infected both lines of B. rapa , but invaded at different rates, although both resulted in easily discernible symptoms. The severity of symptoms was not related to amounts of virus in the infected plants. A significantly greater proportion of plants were infected with GBR 83 at 45 days post-inoculation (d.p.i.) than GBR 98. but GBR 98 caused significantly more severe and obvious symptoms as well as greater mortality at 119 d.p.i., in plants from both sites than GBR 83. 相似文献
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Emmanuel Wicker Anne Moussart Martine Duparque Francis Rouxel 《European journal of plant pathology / European Foundation for Plant Pathology》2003,109(1):47-60
Common root rot (Aphanomyces euteiches Drechs.) has become a very destructive disease in the French pea crops since 1993. For an accurate investigation of the virulence variability among French A. euteiches populations and between French and foreign populations, a new set of differential pea genotypes was developed. Thirty-three American and European pea lines, displaying different levels of resistance, were screened in a growth chamber against two French isolates. Symptoms (disease severity from 0 to 5, evaluating symptom surface on roots and epicotyl) and percentage of top fresh weight (inoculated/uninoculated top fresh weight ratio) were measured. From this screening 12 relatively resistant lines, from various genetic backgrounds, were identified along with a highly susceptible control. This set of 13 genotypes was inoculated under controlled conditions with 14 isolates from France, Sweden, USA, Canada and New Zealand, to investigate genotype–isolate interactions. Root symptoms were rated (disease severity), and a susceptibility/resistance threshold was established at disease severity = 1. Significant quantitative interactions were observed, and five 'resistance patterns' were identified, leading to a set of six pea genotypes: Baccara (susceptible), Capella, MN313, 902131, 552 and PI180693. Fields trials of this set in 1999 and 2000 gave the same resistance rankings than in growth chamber conditions. This set will allow more accurate assessments of the variability in virulence/aggressiveness of A. euteiches isolates from France and foreign countries, and further investigations of the epidemiological and genetic basis of pea–A. euteiches interactions. 相似文献