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近些年链格孢属真菌的分类有了长足的进展,但柑橘褐斑病和黑腐病的病原却还是存在着一些争议。本研究从中国柑橘果实上收集了49株黑腐病菌菌株,并选取了8株从柑橘叶片上分离的具代表性的褐斑病菌菌株,基于Alta1 、endoPG、LSU、OPA10-2、OPAl-3和OPA2-1 等6个基因位点串联序列构建系统发育树。结果表明,柑橘黑腐病和褐斑病都可由不止一种链格孢菌引起,均以Alternaria alternata为主。两种病害的病原菌之间不能通过该系统发育树区分,但在致病性上存在差异,且能通过扩增ACT毒素合成基因进行区分。为了使两种病害的病原更加方便阐述,作者建议以它们的主要类群对其进行命名,柑橘褐斑病病原学名还是遵循前人的称呼,为the tangerine pathotype of A. alternata,即链格孢菌橘致病型,而柑橘黑腐病病原应为A. alternata,即链格孢菌。 相似文献
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为明确在福建省南平市的橘柚和三明市的温州蜜橘上发现的疑似柑橘褐斑病的病原菌种类,采用组织分离法获得纯化菌株,通过回接法验证菌株的致病性,利用形态学特征对病原菌进行初步鉴定,并采用最大似然法以多聚半乳糖醛酸酶基因endoPG为靶标对本研究以及国内外已报道的链格孢菌株构建系统发育树,分析其遗传多样性。结果表明,从病组织中共分离获得26株纯培养菌株,经形态学鉴定均为链格孢菌Alternaria spp.。利用分生孢子液接种橘柚离体嫩叶发现,有22株菌株能侵染橘柚叶片并产生与田间相似的褐斑病症状,确认该病害为链格孢引起的柑橘褐斑病。系统发育树分析结果显示,分离所得的26株菌株均聚在已报道的4个柑橘链格孢进化分支Clade1~Clade4中,其中21株菌株聚在国内特有的分支Clade4中,有3株菌株和1株菌株分别聚在国内外兼有的分支Clade3和Clade1中,1株菌株聚在国外特有的分支Clade2中,表明在福建省采集的这些柑橘褐斑病菌均为链格孢菌,且遗传多样性较丰富。 相似文献
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引起葡萄叶斑病的链格孢种类的初步鉴定 总被引:1,自引:0,他引:1
为明确北京市大兴区、顺义区和山西省襄汾县葡萄树上叶斑病的病原菌,利用组织分离法对病样进行分离纯化,采用多基因系统发育学分析(ITS,Alt a 1和gpd)和形态学对纯化后菌株进行鉴定,并结合柯赫氏法则对其进行验证。结果表明,共获得37株链格孢属真菌菌株,分属链格孢Alternaria alternata、葡萄链格孢A. viniferae和乔木链格孢A. arborescens,柯赫氏法则检测结果显示接种菌株对所接叶片与果穗均具致病性,说明这3种链格孢种均为葡萄叶斑病的病原菌;葡萄链格孢为主要的病原菌,有28株,故将该类病害命名为葡萄链格孢叶斑病;此外,该类菌株在2~40℃之间均能生长,25℃为最适生长温度。 相似文献
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红橘褐斑病病原鉴定 总被引:12,自引:1,他引:11
自2007 年起重庆万州的红橘(Citrus reticulata Blanco, CV. Hongjv)上爆发一种未曾见过的病害,损失严重,因病斑褐色,故被称之为褐斑病。褐斑病贯穿柑橘整个生长季节,主要为害叶片和果实,严重时也为害新梢,引起大量落叶和落果,甚至枝梢枯死。为明确其病原,本研究从病区多个果园采集发病的叶片、果实和枝梢,检查和分离培养发现病组织中广泛存在链格孢菌(Alternaria)和炭疽菌(Colletotrichum)。致病性试验证明只有链格孢菌才能引起类似褐斑症状,而炭疽菌和空白对照都不产生任何症状。通过比较研究这些链格孢菌菌株的形态学,培养性状和多聚半乳糖醛酸酶(endoPG)基因的部分序列,可以断定红橘褐斑病的病原为交链格孢菌[A. alternate (Fr. ) Keissler]。病原性质的确定将为红橘褐斑病发生规律的研究和控制奠定基础。 相似文献
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2019年-2020年在北京地区桃园病害调研普查时发现一种桃树病害的新发症状-新叶坏死,主要症状表现为当年新生枝条顶端新叶和生长点腐烂坏死。为明确这种新叶坏死症状是否由病原菌侵染引起,从北京平谷2个乡镇3个桃园采集35份病梢样品,经病样组织分离和菌株纯化,选取12个代表性菌株进行形态学鉴定、系统进化分析以及致病性测定。结果显示,通过形态学鉴定和多基因(ITS,Alt a1,gpd)系统发育分析,以上分离株均鉴定为链格孢Alternaria alternata;3株代表性菌株的致病性测定验证了A.alternata是引起新叶坏死症状的病原菌,并且该病原菌也能导致桃枝条和果实发病,产生黑斑病症状。这是首次报道A.alternata除了引起桃果实黑斑症状之外,还可以引起桃树新叶坏死症状,结果进一步丰富了链格孢侵染桃树的症状多样性,为链格孢引起的病害的整体防控提供了理论基础。 相似文献
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甘肃省药用植物上链格孢属(Alternaria)的种类及分布(Ⅱ) 总被引:1,自引:0,他引:1
对2004年以来甘肃省百合科、苋科、木犀科、大戟科、桔梗科药用植物链格孢属引起的病害进行了鉴定,结果如下:芍药叶斑病病原为细链格孢[Alternaria alternata (Fr.:Fr.)Keissler],青葙叶斑病病原为青葙链格孢[A.ce-losiae (Tassi)O.Sǎvul],连翘灰斑病病原为A.forsythiae Harter,引起连翘灰斑病、甘遂褐斑病病原为甘遂链格孢(A.kansuiae T.Y.Zhang&.Z.Zhang),沙参黑斑病的病原为茄链格孢[A.solani(Ellis et Martin)Sorauer]. 相似文献
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山东省危害核桃的链格孢属真菌鉴定及其系统发育 总被引:2,自引:2,他引:0
为了明确危害核桃的链格孢属Alternaria真菌种类,对34个供试菌株在PCA培养基上的培养特征、产孢表型、分生孢子特征等进行了研究,并采用ITS、OPA2-1和OPA1-3序列分析其系统发育。其中33个菌株为链格孢A.alternata,1个为细极链格孢A.tenuissima。链格孢:菌落灰色;孢子链短、分枝频繁,每条分枝含4~10个孢子;分生孢子多倒梨形,孢身平均25.6μm×7.4μm,横隔膜2~8个。细极链格孢:菌落褐色;孢子链长、少分枝,孢子链约含10个孢子;分生孢子多长椭圆形,孢身平均26.3μm×13.5μm,具柱状喙及假喙,主横隔膜1~6个,孢身中部的隔膜较粗。链格孢属真菌在遗传上有较大差异,ITS、OPA2-1和OPA1-3序列对链格孢小孢子种具有一定的区分作用,链格孢是危害核桃的主要链格孢属种。 相似文献
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花生果腐病是由复合病原真菌引起的病害,直接严重影响花生的产量和品质。为筛选花生果腐病的生防微生物,以花生果腐病主要病原菌镰孢菌为靶标菌,采用稀释涂布平板法和平板对峙培养法,在花生根际土壤中筛选到一株对镰孢菌具有拮抗作用的生防细菌Hsg1949。经形态学观察、Biolog微生物自动鉴定系统及16S rDNA和gyrA序列构建系统发育树等综合分析,鉴定菌株Hsg1949为贝莱斯芽胞杆菌。菌株Hsg1949对3株镰孢菌分离株具有稳定的的拮抗活性,继代培养40代时,对3株镰孢菌的抑菌率分别为77.0%、69.7%和61.9%,与初始菌株F0代的抑菌活性无显著差异。其无菌上清液活性物质耐高温,耐强酸但不耐强碱,在pH 11的环境下拮抗活性显著降低。田间试验结果表明,Hsg1949菌悬液2×108和5×108cfu/mL可显著降低花生果腐病发病率,对花生果腐病的防治效果分别为66.54%和71.27%,与化学药剂多菌灵防效(75.11%)相当。菌株Hsg1949对花生白绢病菌、棉花立枯病菌、棉花枯萎病菌和棉花黄萎病菌也具有较强的拮抗作用,在植物真菌病害的生物防治中将具有较大的应用潜力。 相似文献
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柑橘链格孢褐斑病(Alternaria brown spot,ABS)是新近在我国局部地区新发现的病害。本研究以来自我国各褐斑病发生区的54个代表菌株为群体,应用刃天青(RZ)显色法测定病菌群体对异菌脲和嘧菌环胺的敏感性。结果表明,该病菌种群孢子萌发对2种药剂均表现敏感,尚未发现抗药性菌株,平均EC50分别为0.616 6μg/m L和0.030 4μg/m L。对于异菌脲,广西和浙江菌株较不敏感;对于嘧菌环胺,所有菌株均非常敏感,且敏感性与菌株的地理来源无关。 相似文献
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ABSTRACT Phylogenetic analysis revealed that isolates of Alternaria alternata causing black rot of citrus were associated with six well-supported evolutionary lineages. Isolates recovered from brown spot lesions on Minneola tangelo, leaf spot lesions on rough lemon, and healthy citrus tissue and noncitrus hosts were related closely to isolates from black-rotted fruit. Phylogenies estimated independently from DNA sequence data from an endopolygalacturonase gene (endoPG) and two anonymous regions of the genome (OPA1-3 and OPA2-1) had similar topologies, and phylogenetic analysis was performed on the combined data set. In the combined phylogeny, isolates from diverse ecological niches on citrus and noncitrus hosts were distributed in eight clades. Isolates from all lineages, regardless of ecological or host association, caused black rot in fruit inoculation assays, demonstrating that small-spored Alternaria isolates associated with different ecological niches on citrus and other plant hosts are potential black rot pathogens. These data also indicated that the fungi associated with black-rotted fruit do not form a natural evolutionary group distinct from other Alternaria pathogens and saprophytes associated with citrus. The use of the name A. citri to describe fungi associated with citrus black rot is not justified and it is proposed that citrus black rot fungi be referred to as A. alternata. 相似文献
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In order to clarify the pathogen causing brown spot of Psidium guajava Linn., and provide a theore-tical basis for effective prevention and treatment of the disease, the pathogen of the brown spot of Psidium guajava Linn. was isolated and identified by molecular and morphological methods. The pathogen was obtained by tissue separation method, and the pathogenicity of the pathogen was determined by Koch′s rule. The morphological characteristics of the conidia of the pathogen were observed by optical microscope, and the sequence of the rDNA-ITS and RPB2 of the pathogen was analyzed by online Blast. The BLAST online alignment showed that the ITS sequence of the pathogen was 100% homologous with multiple strains of Alternaria alternata and Alternaria tenuissima, the homology of the RPB2 sequence of the pathogen with the strains of A. alternata and A. tenuissima reached 99.86%. According to the latest references, A. tenuissima (Fr.) Wiltshire was not an independent species but was a synonym of A. alternata (Fr.) Keissler. Combined with the pathological characteristics of pathogenic fungi, pathogenicity determination and phylogenetic tree analysis, the pathogen of guava brown spot disease in Guangdong was identified as A. alternata. 相似文献
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Alternaria black rot, Alternaria leaf spot of rough lemon, and Alternaria brown spot of tangerines are three major citrus Alternaria pathogens. Citrus could be considered as a molecular contact point for host-selective toxin (HST)-mediated co-evolution of these Alternaria pathogens and susceptibility in the field. ACR-toxin is an HST produced by the rough lemon pathotype, and the target site of the toxin was identified as rough lemon mitochondria. The biosynthetic gene cluster for ACR-toxin production is on the 1.5 Mb-chromosome of the rough lemon pathotype. Another gene cluster for ACT-toxin production is located on the 1.9 Mb-chromosome of the tangerine pathotype. These TOX genes shown to have a role in ACR- or ACT-toxin biosynthesis by using gene disruption and silencing. 相似文献
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ABSTRACT Alternaria citri causes Alternaria black rot, a postharvest fruit disease, on a broad range of citrus cultivars. We previously described that an endopolygalacturonase minus mutant of A. citri caused significantly less black rot in citrus fruit. To search for other essential factors causing symptoms in addition to endopolygalacturonase, a random mutation analysis of pathogenicity was performed using restriction enzyme-mediated integration. Three isolates among 1,694 transformants of A. citri had a loss in pathogenicity in a citrus peel assay, and one of these three mutants was a histidine auxotroph. Gene AcIGPD that encodes imidazole glycerol phosphate dehydratase, the sixth enzyme in the histidine biosynthetic pathway, was cloned, and the mutant containing the disrupted target gene, AcIGPD, caused less black rot. 相似文献
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ABSTRACT Alternaria citri, a postharvest pathogen, produces endopolygalacturonase (endoPG) and causes black rot on citrus fruit. We previously described that an endoPG-disrupted mutant of Alternaria citri was significantly reduced in its ability to macerate plant tissue and cause black rot symptoms on citrus. In order to investigate colonization of citrus fruit tissues by Alternaria citri, pTEFEGFP carrying a green fluorescent protein (GFP) gene was introduced into wild-type Alternaria citri and its endoPG-disrupted mutant (M60). Green fluorescence was observed in spores, germ tubes, appressoria, and infection hyphae of transformants G1 (derived from wild type) and GM4 (derived from M60). Hyphae of G1 but not GM4 vertically penetrated the peel, but the hyphae of both G1 and GM4 spread equally in the juice sac area of citrus fruit. Green fluorescence of Alternaria citri transformant EPG7 carrying a GFP gene under control of the endoPG gene promoter of Alternaria citri was induced by pectin in the peel during the infection stage, but repressed completely in the juice sac area, likely by carbon catabolite repression by sugars in the juice. 相似文献
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Reclassification of an isolate of Guignardia citricarpa from New Zealand as Guignardia mangiferae by sequence analysis 总被引:3,自引:0,他引:3
Citrus black spot was recorded as present in New Zealand in international databases on the basis of one isolate (ICMP 8336) identified by morphological features as Guignardia citricarpa . This isolate was from a soft rot, not a typical symptom of citrus black spot, on a Seminole tangerine fruit grown in the northern region of New Zealand. Sequence analysis of the internal transcribed spacer (ITS) region (ITS1, 5·8S and ITS2) showed that this isolate was 99% identical to the ITS region of G. mangiferae , a closely related saprotroph. Despite climatic conditions being suitable for this disease, citrus black spot symptoms have never been seen on citrus fruits grown in New Zealand. Thus the absence of symptoms on citrus in New Zealand is probably because G. citricarpa is not present. On the basis of these results, the record of citrus black spot occurring in New Zealand should be re-examined. 相似文献