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为明确小豆白粉病病原菌的种类以及小豆种质资源对白粉病的抗性,采用形态学和系统发育学方法对近年来在北京市发生的小豆白粉病病原菌种类进行鉴定,并采用室内苗期人工接种法评价小豆常见栽培品种(系)对白粉病的抗性。结果表明,从北京市采集的感白粉病小豆病样中培养获得病原菌BJ1,该菌能在小豆叶片和茎上产生明显的白色粉斑,分生孢子梗直立,不分枝,分生孢子单细胞,成链状着生于分生孢子梗上,呈椭圆形或卵圆形。通过rDNA-ITS序列系统发育分析,小豆白粉病菌BJ1被鉴定为白粉菌目白粉菌科的苍耳叉丝单囊壳Podosphaera xanthii。室内苗期人工接种条件下,19个供试小豆品种(系)接种小豆白粉病菌BJ1后均可发病,其中9个审定品种均表现为中度感病或高度感病,10个优良品系发病略轻。 相似文献
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为明确宁夏回族自治区温室瓜菜白粉病菌的分类地位,对采自该地区温室的南瓜、黄瓜和甜瓜上的白粉病菌基于ITS序列分析进行分子鉴定;利用孢子捕捉器对温室中甜瓜白粉病菌的孢子量进行监测,分析环境因子、孢子量和病情指数之间的关系,并采用逐步回归分析法构建温室甜瓜白粉病的流行预测模型。结果表明,基于ITS序列的分子鉴定结果,3种瓜菜白粉病的病原菌均为单囊壳白粉菌Podosphaera xanthii。发病期间,每日温室中甜瓜白粉病菌的孢子量在12:00—16:00时段最多,占24 h内总孢子量的34%~81%,20:00—08:00时段最少;白粉病菌孢子的释放与光照强度有关,相关系数为0.602。第t天的病情指数与标准累积温度、标准累积湿度、t-4 d前08:00—12:00时段的累积孢子量、第t-4天16:00—20:00时段的孢子量均具有显著的相关性,相关系数分别为0.935、0.938、0.956和0.921。以标准累积湿度和第t-4天16:00—20:00时段的孢子量为预测变量构建了温室甜瓜白粉病流行预测模型,决定系数为0.962,表明该模型具有较好的实际应用价值。 相似文献
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2009—2010年黑龙江省主要瓜类作物白粉病菌生理小种鉴定 总被引:1,自引:0,他引:1
瓜类白粉病是一种世界性病害,其主要病原为单囊壳白粉菌Podosphaera xanthii和二孢白粉菌Golorinomyces cichoracearum [1].瓜类白粉病菌生理小种众多、演替分化快,其相关研究一直备受关注.我国曾对杭州[2]、北京[3]、三亚[4]、甘肃[5]、陕西关中地区[6]瓜类白粉病菌生理小种演替、分化进行研究,而黑龙江省尚无相关报道.为此,作者于2009-2010年对黑龙江省瓜类白粉病菌生理小种进行鉴定,以期为该省瓜类白粉病抗病育种及综合防治提供参考. 相似文献
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大棚甜瓜三种主要真菌病害拮抗细菌的筛选与鉴定 总被引:9,自引:7,他引:2
从甜瓜根际土壤、牦牛粪、蚯蚓粪等样品中分离出245株细菌,用平板对峙法筛选出14株对甜瓜枯萎病菌具有良好抑制作用的菌株,分别采用管碟法和凹玻片法测定拮抗细菌发酵液对甜瓜枯萎病的抑制效果和对甜瓜白粉病菌、甜瓜霜霉病菌孢子囊萌发的抑制效果。抑菌试验结果显示,菌株FCJ2发酵液对甜瓜枯萎病菌的抑制率为64.7%,对甜瓜白粉病菌、甜瓜霜霉病菌孢子萌发抑制率为62.3%、49.2%。盆栽试验结果显示,FCJ2对甜瓜枯萎病、甜瓜白粉病和甜瓜霜霉病的防效分别为88.5%、93.6%和82.6%,与农药对照组相比均具有显著差异(P0.05)。经形态特征鉴定、生理生化特征鉴定及16S rDNA序列分析,确定FCJ2为芽孢杆菌属枯草芽孢杆菌Bacillus subtilis。 相似文献
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12种寄主来源的茄科雷尔氏菌16S-23SrDNA间隔区序列比较 总被引:2,自引:0,他引:2
应用PCR方法,获得了分离自广东番茄、茄子、辣椒、烟草、空心菜、沙姜、姜、马铃薯、花生、菊花、桑树和藿香等12种作物21个茄科雷尔氏菌菌株的16S 23S rDNA 间隔区序列(ITS)。序列分析结果表明,除HZ 1菌株外,其余20个茄科雷尔氏菌菌株ITS序列长均为503 bp,序列间相似性99.2%~100%,序列间差异仅1~4 bp;而HZ 1菌株的ITS序列长为498 bp,与其他菌株的ITS序列相似性为95.4%~95.6%。这些结果说明,这21株来源于12种不同寄主的茄科雷尔氏菌菌株的16S 23S rDNA ITS序列比较保守。系统进化分析显示,仅菌株HZ 1聚类于茄科雷尔氏菌区组2中,其余20个菌株均聚类于茄科雷尔氏菌区组1中。 相似文献
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小麦纹枯病菌核糖体基因内转录区序列比较 总被引:13,自引:1,他引:12
对7个从江苏省小麦纹枯病样本分离到的丝核菌菌株,进行形态学鉴定、融合群分类和致病性测定,提取病菌的DNA,采用通用引物ITS1(TCC GTA GGT GAA CCT GCG G)和ITS4(TCC TCC GCT TAT TGA TAT GC),扩增病菌的rDNA内转录区(ITS),并对扩增产物进行了测序.用这些序列在NCBI中进行BLAST分析,得到与这些菌株亲缘关系最近的菌株序列,并明确了这些菌株的分类地位.对以上的菌株序列进行Alignment分析,结果表明,病菌的5.8S rDNA序列高度保守,而ITS区的可变性则相对较高,在双核和多核丝核菌、双核丝核菌CAG1融合群和非CAG1融合群菌株间存在差异,可用于反映菌株间的进化关系和双核丝核菌种下分类. 相似文献
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为明确海南省苦瓜白粉病的病原菌、生理小种及苦瓜对白粉病的抗性遗传规律,结合形态学鉴定和分子鉴定解析白粉病菌及生理小种种类,通过显微镜观察白粉病菌侵染过程,并应用主基因+多基因混合遗传模型分析法探讨苦瓜对白粉病的主要抗性遗传规律。结果表明:采集自海南省6个市(县)的苦瓜白粉病病原菌均为单囊壳白粉菌Sphaerotheca fuliginea,属生理小种2F,该菌在侵染苦瓜叶片时有4个关键时期:接种后4 h为分生孢子萌发高峰期,8 h为附着孢形成高峰期,16~24 h为次生菌丝形成高峰期,5 d为分生孢子梗形成高峰期。将其接种于苦瓜抗、感品系,对白粉病的抗性符合2对加性-显性-上位性主基因+加性-显性多基因模型,主基因和多基因共同控制苦瓜对白粉病的抗性,其中以主基因遗传为主,且会受到环境变异的影响。根据苦瓜抗性遗传规律,F2代主基因遗传率最高,受环境影响最小,在苦瓜的白粉病抗性育种中,以早期世代F2代作为有效选择世代。研究表明白粉病菌侵染叶片的前2 d是白粉病防治的最佳时期,所以在白粉病易发的物候期,可将防治时间提前1~2 d。 相似文献
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禾谷孢囊线虫是危害禾谷类作物的重要病原,严重威胁我国小麦主产区的小麦产量和品质。利用通用引物对甘肃、河南、安徽禾谷孢囊线虫群体28SrDNA-D2/D3区和rDNA-ITS区进行PCR扩增和序列测定,利用UPG-MA方法分析了甘肃省7个种群、河南1个种群、安徽1个种群的禾谷孢囊线虫群体D2/D3区和ITS区的系统发育关系;用9种限制性内切酶对7个甘肃禾谷孢囊线虫群体的rDNA-ITS区进行了RFLP分析。结果表明:中国甘肃的禾谷孢囊线虫rDNA-D2/D3区片段长度约为780bp,rDNA-ITS片段长度约为1040bp。7个甘肃禾谷孢囊线虫群体、1个河南安阳群体、1个安徽蚌埠群体的D2/D3区和新西兰的H.aucklandica群体亲缘关系很近;其ITS区同澳大利亚的H.australis、北京通州的H.avenae(AY148382)的亲缘关系很接近。RFLP分析表明,9种限制性内切酶酶切禾谷孢囊线虫群体的rDNA-ITS共产生了22个酶切片段,不同酶切的RFLP分布型在7个种群间没有差异。甘肃省禾谷孢囊线虫群体的rDNA-ITS区具有高度的保守性,与中国的C型群体相近,但不同于欧洲的A型群体和印度的B型群体。这是首次报道甘肃CCN种群分子特征。 相似文献
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Keiko Uchida Susumu Takamatsu Sanae Matsuda Kazuhiro So Yukio Sato 《Journal of General Plant Pathology》2009,75(2):92-100
In 2002, a powdery mildew with catenate conidia lacking fibrosin bodies was found on cucumber in a greenhouse in Kanagawa
Prefecture, Japan. Morphological observation revealed that the fungus belongs to Oidium subgenus Reticuloidium, anamorph of the genus Golovinomyces. Molecular phylogenetic analyses of the nucleotide sequences of the rDNA ITS regions and D1/D2 domains of the 28S rDNA indicated
that the fungus belongs to the clade of G. orontii with other Golovinomyces fungi from a wide range of host plants, suggesting that the fungus was newly transported from abroad. Because there has been
no prior report of cucumber powdery mildew caused by Reticuloidium, further research on the physiology, epidemiology, control and resistant cucumber varieties is required. 相似文献
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Eric V VIRTUDAZO Hitoshi NAKAMURA Makoto KAKISHIMA 《Journal of General Plant Pathology》2001,67(1):28-36
Phylogenetic analysis of sugarcane rusts based on sequences of ITS and the 5.8 S rDNA revealed two highly divergent ITS groups
among isolates of Puccinia sp. sensu Muta, 1987 and P. kuehnii specimens. Although there is sufficient divergence (exceeding normal intraspecific variation) between the ITS regions of the
two groups to support separation into different species, unusually high homology of the ITS group I sequences with those of
members of Cronartium and identical sequences of the D1/D2 regions of the LSU rDNA for all the isolates of “Puccinia sp.” and P. kuehnii that otherwise exhibited different ITS sequences, suggest that the two highly divergent sequences may have resulted from abnormal
genetic events leading to non-orthologous, intraspeciflc polymorphisms. The other sugarcane rust, P. melanocephala and the grass rusts, P. miscanthi and P. rufipes, were separated from “Puccinia sp.” and P. kuehnii and from each other in D1/D2 region analyses, indicating that D1/D2 region sequences may more correctly reflect phylogenetic
relationships in these rusts than do the ITS regions. Further studies to examine differences in patho-genicity or finer morphological
features within P. kuehnii that may be correlated with the high divergence in ITS sequences and experiments to determine if these two sequence types
represent intraspeciflc polymorphism are necessary.
Received 11 October 2000/ Accepted in revised form 24 November 2000 相似文献
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Diversity of powdery mildew pathogens infecting pea (Pisum sativum) in the US Pacific Northwest was investigated using both molecular and morphological techniques. Phylogenetic analyses based on rDNA ITS sequences, in combination with assessment of morphological characters, defined two groups of powdery mildews infecting pea. Group I (five field samples and three glasshouse samples) had ITS sequences 99% similar to those of Erysiphe pisi in GenBank and exhibited simple, mycelioid type of chasmothecial appendages typical of E. pisi. Erysiphe pisi is normally considered as the powdery mildew pathogen of pea. Group II (four glasshouse samples and two field samples) had ITS sequences 99% similar to those of E. trifolii and produced chasmothecia with dichotomously branched appendages similar to those of E. trifolii. There are fourteen nucleotide differences in the ITS region between the two groups. The correlation of rDNA ITS sequences with teleomorphic features for each of the two groups confirms their identity. Repeated samplings and artificial inoculations indicate that both E. pisi and E. trifolii infect pea in the US Pacific Northwest. Erysiphe trifolii is not previously known as a pathogen of pea. The existence of two distinct powdery mildew species infecting pea in both glasshouse and field environments may interfere with the powdery mildew‐resistance breeding programmes, and possibly explains putative instances of breakdown of resistance in previously resistant pea breeding lines. 相似文献
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Pál Vági Gábor M. Kovács Levente Kiss 《European journal of plant pathology / European Foundation for Plant Pathology》2007,117(1):89-93
Since 2003, Torenia fournieri plants grown for experimental purposes were repeatedly infected by powdery mildew in a laboratory in Hungary. Based on morphological characteristics, the pathogen belonged to the mitosporic genus Oidium subgen. Reticuloidium, the anamorph stage of Golovinomyces. The rDNA ITS sequence was identical to that of two other powdery mildew fungi, infecting Arabidopsis and Veronica, respectively, in different parts of the world. According to a previous phylogenetic analysis of ITS and 28S rDNA sequences, those two powdery mildews belong to a recently evolved group of Golovinomyces characterized by multiple host range expansions during their evolution. Both the ITS sequence and the morphological data indicate that the powdery mildew anamorph infecting Torenia also belongs to this group. It is likely that the powdery mildew infections of the experimental T. fournieri plants, native to south-east Asia, were the result of a very recent host range expansion of a polyphagous Golovinomyces because (i) T. fournieri is absent from our region, except as an experimental plant grown in the laboratory, (ii) the powdery mildew fungus infecting this exotic plant belongs to a group of Golovinomyces where host range expansion is a frequent evolutionary scenario, (iii) cross-inoculation tests showed that this pathogen is also able to infect other plant species, notably A. thaliana and tobacco, and (iv) no Golovinomyces species are known to infect T. fournieri anywhere in the world. Although host range expansion has often been proposed as a common evolutionary process in the Erysiphales, and also in other biotrophic plant pathogens, this has not been clearly demonstrated in any case studies so far. To our knowledge, this is the first convincing case of a host range expansion event in the Erysiphales. 相似文献
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基于小麦白粉病菌rDNA ITS序列的PCR分子检测 总被引:6,自引:0,他引:6
Wheat powdery mildew(Blumeria graminis f.sp.tritici) is the one of main wheat diseases in China.Based on the internal transcribed spacer(ITS) sequences of ribosome of B.graminis f.sp.tritici,three molecular primer pairs(F1/R,F2/R and F3/R) were designed to detect the fungal pathogen of wheat powdery mildew.The species specificity of these primers was confirmed.F1/R was demonstrated a higher sensitivity than the other two primer pairs,and could detect as low as 1 pg DNA of B.graminis f.sp.tritici.Furthermore,F1/R primer pair was used to detect the pathogen DNA extracted from wheat leaves showing chlorosis and typical symptoms of powdery mildew caused by artificial inoculation with B.graminis f.sp.tritici.The preliminary results demonstrated the usefulness of this primer pair and its potential applications in efficient detection of wheat powdery mildew pathogen from leaves with latent infections at early growth stages of wheat. 相似文献
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Internal transcribed spacers (ITS) of the ribosomal RNA gene (rDNA) were sequenced for 236 isolates covering 25 Colletotrichum species collected in Japan. The Japanese isolates could be grouped into 20 ribosomal groups (RGs) based on the sequences of
ITS1, correlating the species identified by the morphology. Colletotrichum gloeosporioides sensu lato separated into three RGs that were morphologically different. Colletotrichum destructivum, C. linicola and C. higginsianum were possibly conspecific. Colletotrichum dematium sensu lato including C. capsici and other species that produce falcate conidia except for graminicolous ones were separated into three RGs that were difficult
to distinguish morphologically. In the phylogenetic study using ITS2 and the 28S rDNA domain 2 region, topologies compiled
by neighbor-joining and maximum-parsimony methods were almost the same, reflecting the conidial morphology. The phylogenetic
group 1 (PG1) produced conidia with acute ends, e.g., C. acutatum, C. destructivum and C. graminicola; PG2 produced those with obtuse ends, e.g., C. gloeosporioides, and C. orbiculare. Colletotrichum theae-sinensis, which produced the smallest conidia, was grouped as PG3, far from other species, indicating it should not belong to Colletotrichum. Grouping and phylogenetic analysis using ribosomal DNA was an effective tool to classify and identify Colletotrichum species without using morphology.
Received 15 July 2002/ Accepted in revised form 12 November 2002 相似文献