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棉花枯萎病菌接种及粗毒素处理后棉苗维管束病理特征 总被引:8,自引:1,他引:8
利用遗传背景一致而抗病性不同的岱16变异品系和抗病品种中12,研究了接种棉花枯萎病菌(Fusarium oxysporum f.sp.vasinfectum)及用枯萎病菌粗毒素处理后,棉苗维管束的病理变化。研究结果表明,接种枯萎病菌后,病株茎部导管及薄壁细胞中有枯萎菌丝存在。发病严重的感病品种原岱16有菌丝的导管数最多,抗病品种早熟岱16抗最少。所有品种中均出现胶状物或侵填体堵塞导管,这种现象在抗病品种中更为明显。病菌粗毒素处理后,棉苗茎及叶柄导管内也出现侵填体或胶状物堵塞导管,抗病品种茎部导管堵塞快。 相似文献
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大豆疫霉菌对大豆下胚轴侵染过程的细胞学研究 总被引:3,自引:0,他引:3
接种后1.5~24h,用光镜和电镜研究了2个大豆品种与大豆疫霉菌Ps411的亲和性和非亲和性互作。观察结果表明,大豆疫霉菌对大豆下胚轴的侵染过程可分为侵入前、侵入、皮层组织中的扩展和进入维管束组织4个连续阶段。大豆下胚轴接种后在25℃保湿培养,1.5h后游动孢子即形成休止孢并萌发产生附着孢,3h后侵入表皮细胞,6h后进入皮层组织,24h后进入维管束组织。病原菌主要以侵染菌丝直接侵入表皮,表皮细胞间隙是主要侵入部位。皮层细胞是病原菌定殖和发展的主要场所,胞间菌丝侵入皮层细胞并形成吸器。在菌丝与寄主细胞接触部位的寄主细胞壁与质膜之间常有胞壁沉积物的形成。在抗病品种上病菌的侵染事件与感病品种基本一致,但不能形成正常的吸器,胞壁沉积物明显多于感病品种,菌丝在寄主组织内的扩展明显受到抑制。利用β-1,3-葡聚糖免疫金标记单克隆抗体进行的免疫细胞化学的研究表明,胞壁沉积物内含有大量的β-1,3-葡聚糖,在大豆疫霉菌菌丝壁中也存在β-1,3-葡聚糖。以上结果表明,病原菌的侵染可诱导抗病寄主细胞内β-1,3-葡聚糖迅速的合成与积累、并形成胞壁沉积物,以抵御病菌的侵染与扩展。 相似文献
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稻曲病不同抗性水稻品种的组织化学及分生孢子侵染途径的初步观察 总被引:17,自引:0,他引:17
稻曲病菌分生孢子悬浮液对抽穗期水稻进行接种,观察分生孢子及其侵染途径.结果发现,分生孢子在颖壳表面可萌发形成菌丝,在颖口内侧可以见到菌丝伸向谷颖内部,可能为分生孢子直接侵染稻穗提供了一定证据.对抗、感品种谷粒的组织化学研究结果表明:抗病品种的颖壳中含有大量的木质素,感病品种中的木质素较少;在抗病品种谷粒的颖壳中的红色荧光物质远远多于感病品种;在抗病品种谷粒表皮的胚乳细胞中也含有多酚类物质,这层细胞较正常细胞大,在感病品种中没有发现.稻曲球切片的紫外光观察可发现每一个稻曲球中存在6个"蝴蝶"型荧光结构,染色剂染色后观察证明该结构不含过氧化物酶、单宁类物质、木栓质和木质素. 相似文献
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分别提取黄瓜枯萎病感病品种津研4号和抗病品种中农10号的根分泌物,感病品种根分泌物甲醇提取液能够刺激枯萎病菌的菌丝生长,而抗病品种根分泌物甲醇提取液则抑制病原菌生长。利用LC-MS/MS技术分别对感病品种和抗病品种根分泌物中的差异物质进行分析鉴定。与感病品种津研4号相比,抗病品种中农10号根分泌物中含有7,8-苯并黄酮(7,8-BF),含量为0.02μg/株。50μg/mL的7,8-BF能够显著抑制黄瓜枯萎病菌菌丝生长和孢子萌发,而100μg/mL的7,8-BF能显著抑制抗感品种侧根形成,但是抗病品种的耐受力高于感病品种。用7,8-BF处理黄瓜种子,枯萎病侵染程度显著降低。当7,8-苯并黄酮浓度为50μg/mL时,感病品种病情指数从71.7降为30.8,达到中抗水平。 相似文献
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为探明西瓜枯萎病菌侵染西瓜根系及茎的过程,本研究选取一株致病力较强的西瓜枯萎病菌FO1022,利用绿色荧光蛋白基因(GFP)标记该菌株,观察病原菌侵染西瓜根茎部的组织学过程。结果表明,用GFP标记的病菌接种感病西瓜品种‘苏蜜1号’,接种后2 d,显微观察显示病原菌的分生孢子附着于西瓜根系表皮细胞并萌发,沿细胞间层定殖生长;接种后5 d,在西瓜根部维管束导管中观察到大量菌丝和大型分生孢子,在根部表皮细胞上观察到大量厚垣孢子,在茎部部分维管束导管中也观察到少量的菌丝,此时48.6%的幼苗表现萎蔫症状;接种后9 d,茎部所有维管束导管都充斥着密集的菌丝体,此时91.7%的幼苗表现枯萎和死亡。与侵染感病品种相比,该菌株在侵染中抗品种和高抗品种时,在侵染时间上要明显滞后。本研究从组织病理学的角度观察并分析了GFP标记的西瓜枯萎病菌侵染西瓜根茎部的过程,为研究西瓜枯萎病菌的致病机理提供参考。 相似文献
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利用小麦种子根接种小麦全蚀病菌Gaeumannomyces graminis var.tritici,研究了不同致病力菌株的致病特点。结果表明,弱致病菌株可侵染小麦,但罹病过程缓慢,接种第5天仅在皮层观察到少量菌丝体,13天有少量菌丝进入中柱,中柱组织在菌丝侵入前褐变,未出现导管堵塞现象,也不能导致典型的黑根症状。强致病菌株接种第2天可侵入皮层,8天即进入中柱,并在寄主组织内产生大量菌丝体,致使寄主皮层组织和中柱细胞大量褐变和坏死,以及导管堵塞。 相似文献
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为了进一步明确大豆抗感品种对根腐尖镰孢的抗病机制,通过透射电镜和形态观察分析了尖镰孢(M38)侵染及产生的毒素对抗感大豆品种的影响。研究表明大豆幼苗胚根经粗毒素处理后,抗病品种‘东农56’幼苗胚根生长没有显著差别,但显著抑制了感病品种‘黑农53’胚根的伸长和侧根的生长;尖镰孢毒素高浓度和低浓度(V粗毒素∶V无菌水=1∶0和1∶15)对抗感品种的致萎能力无显著差异,高浓度处理平均萎蔫指数为100,低浓度处理为17.9~18.1左右;但中等浓度(V粗毒素∶V无菌水=1∶1,1∶5,1∶10)对于感病品种的致萎作用更大;同时,发现尖镰孢侵染感病大豆品种根内侵染量要明显多于抗病品种,且感病品种组织中菌丝的直径明显大于抗病品种,都出现很明显的质壁分离和细胞壁加厚的现象。 相似文献
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小麦茎基腐是由多种镰孢菌侵染的世界性土传病害,亚洲镰孢菌(Fusarium asiaticum)是我国冬小麦主产区茎基腐镰孢菌的优势种群,对小麦生产造成巨大损失。本研究利用绿色荧光蛋白报告基因标记亚洲镰孢菌,研究其侵染抗感小麦的病理组织学过程,建立了茎基腐病菌与寄主互作的直观性的研究体系,对病害防治及抗病育种具有重要意义。基于PEG-CaCl_2介导原生质体转化法将gfp导入亚洲镰孢菌株CF0915,对转化子进行荧光表达、PCR验证、遗传稳定性、生长特性及致病力分析,选取与野生型表现相近的转化子进行侵染分析。结果表明,绿色荧光蛋白基因(gfp)与潮霉素基因(hyg)PCR扩增表明gfp已整合入真菌基因组中,转化子菌丝与分生孢子表现强烈绿色荧光信号,gfp能够在转化子中稳定遗传,菌落形态、生长速度及致病力与野生型菌株无显著差异;将gfp标记病菌分生孢子接种感病品种1 d后,大量孢子附着于根毛及根表皮细胞开始萌发,接种2 d后观察到抗性品种分生孢子萌发;感病品种接种3 d后,菌丝直接侵入表皮细胞或沿表皮细胞间层定殖生长,扩展至皮层组织,8 d后菌丝从根部迅速扩展至茎基部,至第10 d大量菌丝充塞根皮层细胞,叶鞘维管束也被菌丝侵染,并产生大量大型分生孢子,植株表现褐色病斑,14 d后根部及茎维管束被大量菌丝体填充,而后产生大量厚垣孢子,至25 d大部分感病品种幼苗萎蔫死亡;与感病品种相比,抗性品种在整个侵染过程中表现时间滞后。本研究对引起茎基腐病的亚洲镰孢菌侵染小麦的组织学过程观察,为病菌致病机理的阐释及抗病资源的利用提供了重要理论依据。 相似文献
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玉米叶片受新月弯孢菌侵染后的细胞病理学变化 总被引:6,自引:0,他引:6
本文利用透射电子显微镜技术与细胞化学技术研究了玉米叶片受弯孢菌侵染后的超微结构和细胞壁的组成成份变化。透射电镜观察发现,病菌侵入后,菌丝先在寄主细胞间扩展,随着寄主细胞病变、坏死,菌丝可进入寄主细胞形成胞内菌丝。随病菌侵入和在寄主体内扩展,寄主细胞先后发生了一系列的超微结构变化,叶绿体、液泡等细胞器解体,出现质壁分离现象,并最终解体、坏死、变形。细胞化学标记定位发现,受侵寄主细胞壁中纤维素、木聚糖和果胶质的标记密度明显低于未接种的健康组织,表明细胞壁降解酶(如纤维素酶、木聚糖酶和果胶酶)的产生与病菌侵染和致病过程密切相关。 相似文献
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1988~1995年对福建西番莲病毒病的发生为害进行调查,发现在西番莲栽培区病毒病普遍发生,发病率通常在30%~40%,严重的达90%以上。田间症状主要表现为叶片环斑、皱缩、花叶、环斑花叶,死顶和果实木质化等。从田间病株采集40份样本,经电镜观察和采用A蛋白夹心ELISA(PAS-ELISA),用西番莲木质化病毒(PWV)、西番莲黄花叶病毒(PFYMV)、紫果西番莲花叶病毒(GMV)、烟草花叶病毒(TMV)及黄瓜花叶病毒(CMV)的抗血清进行测定,其中36个样本检测出CMV,表明福建西番莲病毒病的主要病原为CMV。与此同时,对西番莲上CMV进行亚组鉴定,采用鉴别寄主和单、多克隆抗体双夹心ELISA(DAS-ELISA)对36个CMV阳性样本进行测定,结果35个属CMV亚组Ⅰ,1个属CMV亚组Ⅱ,表明田间以CMV亚组Ⅰ分离物占绝对优势。 相似文献
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Serological and biological variation between and within subgroup I and II strains of cucumber mosaic virus 总被引:1,自引:2,他引:1
Fourteen strains of cucumber mosaic virus (CMV) from Australia have been characterized by their host range and symptomatology. They were classified as subgroup I or II strains by a dot-blot molecular hybridization assay between their total viral RNAs and selected cDNAs. The strains FNY and LNy , both from the USA, were used as the subgroup I- and subgroup II-type strains, respectively. A range of serological tests was used to compare these isolates. Gel immunodiffusion tests, with standard antigens homologous to the antisera prepared against glutaraldehyde-fixed virus of 11 strains, showed that they could be divided into three serogroups on the basis of spur formation in heterologous reactions. Two of the serogroups included either subgroup I or subgroup II isolates, whereas the third serogroup consisted of only one strain (YWA ) which was homologous to all the strains tested. Use of heterologous standard antigens in this test failed to show further subgrouping of the antigens. Double-antibody sandwich (DAS) ELISA using polyclonal antibodies to distinct virus strains also placed the 14 strains in the same three serogroups. When eight different monoclonal antibodies (MAbs) were used in indirect ELISA, one of them distinguished subgroup-I strains and another distinguished subgroup-II strains; the YWA strain fell into subgroup II. Other MAbs showed narrower or broader specificity. Thus both molecular hybridization with total RNA and specific MAbs may be useful for separating isolates of CMV into subgroups I and II. Spur formation using heterologous standard antigens to the antisera, as well as being more difficult to interpret, was not a reliable criterion for classification. 相似文献
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ABSTRACT Mixed infections of cucurbits by Cucumber mosaic virus (CMV) and potyviruses exhibit a synergistic interaction. Zucchini squash and melon plants coinfected by the potyvirus Zucchini yellow mosaic virus (ZYMV) and either Fny-CMV (subgroup IA) or LS-CMV (subgroup II) displayed strong synergistic pathological responses, eventually progressing to vascular wilt and plant death. Accumulation of Fny- or LS-CMV RNAs in a mixed infection with ZYMV in zucchini squash was slightly higher than infection with CMV strains alone. There was an increase in CMV (+) strand RNA levels, but no increase in CMV (-) RNA3 levels during mixed infection with ZYMV. Moreover, only the level of capsid protein from LS-CMV increased in mixed infection. ZYMV accumulated to similar levels in singly and mixed infected zucchini squash and melon plants. Coinfection of squash with the potyvirus Watermelon mosaic virus (WMV) and CMV strains increased both the Fny-CMV RNA levels and the LS-CMV RNA levels. However, CMV (-) strand RNA3 levels were increased little or not at all for CMV on coinfection with WMV. Infection of CMV strains (LS and Fny) containing satellite RNAs (WL47-sat RNA and B5*-sat RNA) reduced the accumulation of the helper virus RNA, except when B5*-sat RNA was mixed with LS- CMV. However, mixed infection containing ZYMV and the CMV strains with satellites reversed the suppression effect of satellite RNAs on helper virus accumulation and increased satellite RNA accumulation. The synergistic interaction between CMV and potyviruses in cucurbits exhibited different features from that documented in tobacco, indicating there are differences in the mechanisms of potyvirus synergistic phenomena. 相似文献
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A varied population of cucumber mosaic virus from peppers 总被引:1,自引:0,他引:1
A varied population of Cucumber Mosaic Virus (CMV) isolates is reported from peppers ( Capsicum annuum ) in Australia. Isolates representing both CMV subgroups (serogroups) I and II have been obtained from the same field at the same sampling time. The CMV isolates were typed into subgroup I (eight isolates) and subgroup II (two isolates) using both a nucleic acid hybridization assay and an immunological assay with monoclonal antibodies. The immunological assay described allows the typing of strains in crude sap extracts, obviating the need for purified virions. The spatial and temporal coincidence of both CMV subgroups presents a situation in which pseudorecombinants with reassorted genomic components might arise. 相似文献
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香蕉束顶病毒株系生物学特性的研究 总被引:7,自引:1,他引:6
在广东香蕉束顶病株症状基本相同的情况下,在8个产区分别随机采集11~15个标样共111个分离物,接种在香蕉苗上,其后又从8个产区的分离物中各选取1个代表分离物用于进行各项研究。寄主范围试验结果,这8个代表分离物可分为能侵染粉蕉的NSP株系(以广州天河分离物为代表的7个分离物)和不能侵染粉蕉的NS株系(高州代表分离物)。用Eco RI对8个毒源地的111个分离物DNA组分1进行酶切分析,结果表明:所有高州分离物共15个和信宜分离物14个中的9个都可以被酶切,应属NS株系;而其余6个毒源地的所有分离物及信宜分离物中的另外5个都不能被酶切,应属NSP株系。在病害潜育期方面,2个株系在大蕉上的差异达到显著水平;在香蕉4个品种上,2株系也存在较明显的差异,但其中有些差异未达到显著水平。在病毒增殖、运转速度及病毒达到高浓度所需的时间上,2个株系也存在显著的差异。 相似文献
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Banana plants expressing mosaic symptoms, from the Jordan Valley in Israel, were shown to be infected by a satellite-RNA-containing strain of cucumber mosaic virus (CMV). Double-stranded RNA isolated from field-infected banana, without passage through another host, was used as a template for synthesis of cDNA. The cDNAs corresponding to the coat protein (CP) gene and to the satellite RNA were cloned after polymerase chain reaction amplification. The nucleotide sequences of the CP and the satellite cDNAs were determined. The CP gene and its 3′ flanking sequence had 98% similarity to the CMV Fny nucleotide sequence and the two strains differed in only one amino acid of the CP. The associated satellite had a sequence similarity ranging from 95% to 85.6% with other CMV satellites. Analysis of banana suckers differing in symptoms’ severity indicated a correlation between the presence of satellite and attenuation of symptoms. 相似文献
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黄瓜花叶病毒甜菜分离物的分离鉴定 总被引:2,自引:0,他引:2
从新疆石河子地区春季采种甜菜和夏播母根用甜菜上分离到3个病毒分离物,代号为石-B-2、石-B-5和石-B-D,自然感染甜菜引起叶片黄色花叶、扭曲、皱缩和植株严重矮化。病毒粒体球状、直径28~30 nm、均含有分子量约为2 9k D外壳蛋白、3种相同的较大片段的双链RNA (即3400 bp的RNA1、3100 bp的RNA2、2300 bp的RNA3)和片段大小约400 bp的小RNA,石-B-2和石-B-D具有1100 bp的RNA4,在ELISA和琼脂双扩散试验中,3个分离物均与CMV-83抗血清有特异反应,初步认为这3个球状病毒分离物属于CMV,但它们具有狭窄的寄主范围,不感染心叶烟、蔓陀罗、番茄,在寄主反应、双链RNA4和卫星RNA的大小上明显不同于国内外报道的CMV株系或分离物,同时说明侵染甜菜的CMV可能存在着株系分化。 相似文献
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中国北方番茄主要病毒种类普查及TMV、CMV株系鉴定 总被引:3,自引:0,他引:3
1990—1994年,对中国北方15省(市)番茄4种主要病毒种类进行了普查,在3761份样本中,烟草花叶病毒(TMV)和黄瓜花叶病毒(CMV)的检出率分别为34.5%—65.7%和11.6%—62.6%,马铃薯X病毒(PVX)和马铃薯Y病毒(PVY)的检出率一般为10%—20%。与此同时,也对番茄上的TMV和CMV进行了与抗病毒育种紧密相关的株系分化研究,在333个TMV分离物中鉴定出0、1、2和1.2株系,以0和1株系为主,在绝大多数省(市)中分别占分离物的50%和30%以上;在232个CMV分离物中鉴定出轻花叶、重花叶、坏死和黄化株系,以轻花叶和重花叶株系为主,在绝大多数省(市)中分别占分离物的30%和50%以上,这一研究结果为番茄病毒病的综合防治和抗病毒育种提供了科学依据。 相似文献
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H. Ben Tamarzizt J. Montarry G. Girardot H. Fakhfakh M. Tepfer M. Jacquemond 《Plant pathology》2013,62(6):1415-1428
Cucumber mosaic virus is one of the most prevalent viruses in Tunisian pepper crops, where it has been detected in 68% of plants developing mosaic symptoms, making it essential to characterize the molecular and biological properties of local CMV populations. Two hundred and seventy‐eight isolates collected in the late 1990s, 2006 and 2008–2010 were characterized genetically. Isolates belonging to the three phylogenetic subgroups of CMV (IA, IB and II) were detected, but surprisingly, 90% of the isolates were reassortants between subgroups IA and IB, with two predominant haplotypes, IB‐IA‐IA and IB‐IA‐IB (nomenclature according to the subgrouping of the three genomic RNAs). The IB‐IA‐IA haplotype was present in all regions surveyed, while IB‐IA‐IB was observed only in northern Tunisia. This situation was unexpected, because CMV reassortants were previously thought to be counterselected in nature, and this raises the questions of the origin of IB strains in Tunisia and of the widespread distribution of these two reassortant types. Phylogenetic studies revealed low diversity within haplotypes, whatever the locality or the year of sampling. However, analysis of haplotype frequencies revealed a high genetic differentiation between CMV populations, which was better explained by the localities of sampling than by years. Geographic distances affected the differentiation of CMV populations, mainly between north and central Tunisia. When tested against a polygenic resistance to CMV movement in pepper, 55 of 57 isolates tested were able to break the resistance, indicating that this resistance would not be useful for controlling CMV in Tunisian pepper fields. 相似文献