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由大豆疫霉菌引起的大豆疫霉根腐病是严重影响大豆生产的毁灭性病害之一.防治该病唯一经济、有效和环境安全的方法是利用抗病品种.本研究对野生大豆资源进行抗大豆疫霉根腐病初步筛选,以期探讨野生大豆的抗性水平、分布和获得抗性野生大豆资源.通过苗期接种大豆疫霉菌对412份野生大豆资源进行抗病性鉴定,有13.4%的资源抗大豆疫霉根腐病,15.3%的资源表现为中间反应类型.对野生大豆资源的来源分析表明,抗大豆疫霉根腐病野生大豆资源在我国分布广泛,其中安徽省野生大豆资源抗性最丰富. 相似文献
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Xiaoguo Zhu Liang Guo Ruiqing Zhu Xiaoyi Zhou Jianing Zhang Die Li Shidan He Yongli Qiao 《Plant biotechnology journal》2023,21(7):1393-1407
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Ratul Moni Ram Ruchi Tripathi Hareram Birla Hagera Dilnashin Surya Pratap Singh 《Archives Of Phytopathology And Plant Protection》2019,52(7-8):844-862
AbstractSclerotinia sclerotiorum is a cosmopolitan fungal pathogen causing stem and collar watery soft rot of cauliflower. Previous management of this disease with chemical pesticides caused hazardous results which lead to use of more eco-friendly microbial approaches. In the present study, consortia of Trichoderma harzianum TNHU27 and Pseudomonas aeruginosa PJHU15 were assessed for their ability in controlling Sclerotinia rot in cauliflower. The seedlings of cauliflower were challenged singly and in consortium with these two compatible microbes. The plants were evaluated upon challenge inoculation with S. sclerotiorum for changes in total phenolic content, the activity of defense and antioxidative enzymes. The microbial consortium comprising of T. harzianum and P. aeruginosa significantly enhanced the defense responses of the plant in comparison to pathogen challenged and unchallenged control. The study elucidates that plant beneficial microbes in the consortium may provide superior protection by induction of faster and enhanced defense responses in comparison to unchallenged and single microbe challenged plants under pathogen challenged conditions. 相似文献
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Chang-Qing Chen Li-Li Huang Heinrich Buchenauer Hai-Yan Zhao Yu-Hu Zuo Zhen-Sheng Kang 《Journal of Phytopathology》2009,157(3):181-187
Phytophthora sojae Kauf. and Gerd, a host specific pathogen to soybean, causes pre and postemergence damping-off and root and stem rot on soybean. The pathogen evokes severe yield losses in most soybean growing areas worldwide. The objective of this study was to determine phenotypic and genotypic diversity among single zoospore isolates (SZIs) originating from two single zoosporangia (Ps411-1 and Ps411-2) derived from the same parental isolate of P . sojae Ps411. Results showed that colony morphology and growth rate of 32 SZIs derived from sporangium Ps411-1 and 35 SZIs released from sporangium Ps411-2 did not significantly differ from the parental isolate Ps411. Pathogenicity of the SZIs was tested on three resistant and three susceptible Chinese soybean cultivars. While the majority of SZIs derived from sporangium Ps411-1(59.4%) and sporangium Ps411-2(71.4%) retained the same virulence spectrum as the parental isolate, the other SZIs of both progenies demonstrated either a higher or a lower level of virulence compared to that of parental isolate. A low level genetic variability in the populations of both single zoospore progenies was also demonstrated using the sequence-related amplified polymorphism (SRAP) technique. Cluster analysis separated the SZIs from both zoosporangia, Ps411-1 and Ps411-2, into four and three SRAP groups, respectively. No close correlation among SRAP and virulence could be established among SZIs. The results of this study suggest that virulence variability may be regarded as part of the total genetic changes among the zoospore progenies derived from single-zoosporangia. The pathogenic variability during asexual reproduction may play a role in changing the virulence structure of P . sojae . 相似文献
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用下胚轴伤口接种方法接种鉴定黑龙江省60个栽培大豆品种和育成品系对5个具有不同毒力大豆疫霉菌菌株41-4、PMCl、USAR4、PSZJ6和USAR17的抗性.有50个品种(系)抗1个或1个以上茵株或表现中间类型,其中有5个、8个、16个和21个品种(系)分别对4个、3个、2个和1个菌株表现抗性或中间类型.60个品种(系)对5个菌株共产生12种反应模式,其中呈RRSSR反应类型的品种(系)可能含有Rpslα或Rpslc基因,品系农大3861可能含有Rps3c基因,呈SSSSS反应模式的品种(系)可能含有Rps7基因,或不含抗病基因;其它9种反应模式与含有已知单基因品种或单基因组合的反应模式不同,可能具有未知抗病基因.该研究结果表明,黑龙江省具有较丰富的抗大豆疫霉根腐病大豆品种(系),大部分品种(系)的抗性是有效的,可合理地用于大豆生产和抗疫霉根腐病育种. 相似文献
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由大豆疫霉菌引起的大豆疫霉根腐病是大豆生产的重要病害,该病已在我国大豆主要产区发生,并在局部地区造成较大产量损失。利用抗病品种是防治大豆疫霉根腐病最有效的方法。本研究目的是筛选大豆疫霉根腐病抗源,为病害防治和抗病品种的选育提供参考。用下胚轴创伤接种方法对120个栽培大豆品种(系)进行接种,鉴定其对10个具有不同毒力大豆疫霉菌菌株的抗性。有110个品种(系)分别抗1~10个大豆疫霉菌菌株,其中以河南大豆品种(系)对疫霉菌的抗性最丰富,安徽、湖北和山西大豆品种(系)也具有抗性多样性。120个大豆品种(系)对10个大豆疫霉菌菌株共产生57个反应型,有4个抗性反应型分别与单个抗病基因的反应型一致,有7个抗性反应型与2个已知基因组合的反应型相同,其他抗性反应型为新的类型。一些大豆品种(系)中可能存在有效的抗大豆疫霉根腐病新基因。 相似文献
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大豆疫病是大豆重要病害之一,在世界范围内导致严重经济损失。防治大豆疫病最有效方法是利用抗病或耐病品种。筛选抗性资源是发掘抗性基因和抗病育种的基础。本研究鉴定了野生大豆资源对大豆疫病的抗病性和耐病性,以期发掘优异抗源。苗期用子叶贴菌块方法鉴定104份野生大豆资源对两个不同毒力的大豆疫霉分离物PSJS2(毒力型:1a,1b,1c,1d,1k,2,3a,3b,3c,4,5,6,7,8)和PS41-1(毒力型:1a,1d,2,3b,3c,4,5,6,7,8)抗性,结果表明33份资源抗PS41-1,35份资源抗PSJS2,其中18份抗两个分离物。在抗病性鉴定基础性上,用菌层接种方法对选择的82份资源进行耐病性鉴定,发现7份高耐病性资源。这些结果表明,野生大豆中可能含有新的大豆疫病抗病和(或)耐病资源,这些抗病或耐病资源可以用于未来大豆抗病育种,以丰富大豆对大豆疫病的抗性遗传基础。 相似文献
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This study investigated the effect of CaCl2 and Ca(NO3)2 on fungal growth of Phytophthora sojae isolates, disease reduction on two cultivars of Glycine max (L.) Merr. cv. Chusei‐Hikarikuro (black soybean) and cv. Sachiyutaka (white soybean) and zoospore release. A concentration of 20–30 mm CaCl2 or 30 mm Ca(NO3)2 led to a slight decrease of the growth rate of two isolates on PDA; however, 0.4 and 4 mm of CaCl2 and Ca(NO3)2 increased growth. The application of 4 mm CaCl2 or more than 4 mm Ca(NO3)2 before inoculation greatly inhibited infection in the two soybean cultivars. Disease suppression recorded in laboratory experiments using pathogen mycelium was because of the response of plant tissues rather than a direct inhibition of pathogen hyphal growth by the application of calcium. Furthermore, Ca(NO3)2 was more effective than CaCl2. The calcium contents in plants increased at the time of inoculation. The extent of disease reduction was related to an increased calcium uptake by plants of the two cultivars, except for some cases involving cv. Chusei‐Hikarikuro. Results showed that the effective element in reducing Phytophthora stem rot was calcium and that differences existed between the two cultivars in terms of the mechanisms of calcium uptake and the effect on disease suppression. The presence of 4–30 mm CaCl2 and Ca(NO3)2 decreased the release of zoospores from isolates on lima bean agar, although 0.4 mm CaCl2 and Ca(NO3)2 significantly induced zoospore release. These results suggest the possibility of applying a solution containing more than 4 mm of calcium to decrease the incidence of disease in agricultural fields by the inhibition of zoospore release. 相似文献
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丰富的遗传多样性可为大豆育种提供宽阔的遗传基础,本研究基于35对SSR标记,对60份东北地区大豆疫霉根腐病抗性品种进行了遗传多样性分析,共检测到189个等位基因,平均每个位点等位变异数5.4个,多态性信息含量指数(PIC)为0.1550~0.8195,平均为0.6636;遗传相似系数的变异范围为0.31~0.74。利用5对高多态性SSR引物构建了60份抗性材料的指纹图谱,这5对SSR引物构建的指纹图谱可以将60份疫霉根腐病抗性材料逐一区分开。采用NTSYS2.10基于遗传距离的聚类分析,将60份抗性材料分为7个类群,其中78.33%的抗性品种(系)的遗传相似系数在0.45~0.74间,表明遗传差异相对较窄,品种间遗传多样性水平较低。聚类分析与群体遗传结构分析结果有部分重合,均反映出不同地区的抗性材料间存在一定的渗透和交流。 相似文献
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Lorena I. Rangel Olivia Hamilton Ronnie de Jonge Melvin D. Bolton 《The Plant journal : for cell and molecular biology》2021,108(3):632-645
Fungal secondary metabolites (FSMs) are capable of manipulating plant community dynamics by inhibiting or facilitating the establishment of co-habitating organisms. Although production of FSMs is not crucial for survival of the producer, their absence can indirectly impair growth and/or niche competition of these fungi on the plant. The presence of FSMs with no obvious consequence on the fitness of the producer leaves questions regarding ecological impact. This review investigates how fungi employ FSMs as a platform to mediate fungal–fungal, fungal–bacterial and fungal–animal interactions associated with the plant community. We discuss how the biological function of FSMs may indirectly benefit the producer by altering the dynamics of surrounding organisms. We introduce several instances where FSMs influence antagonistic- or alliance-driven interactions. Part of our aim is to decipher the meaning of the FSM ‘language’ as it is widely noted to impact the surrounding community. Here, we highlight the contribution of FSMs to plant-associated interaction networks that affect the host either broadly or in ways that may have previously been unclear. 相似文献
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Bo Wang Curt L. Brubaker Brett A. Summerell Peter H. Thrall Jeremy J. Burdon 《Evolutionary Applications》2010,3(5-6):505-524
Pathogenicity and genetic diversity of Fusarium oxysporum from geographically widespread native Gossypium populations, including a cotton growing area believed to be the center of origin of VCG 01111 and VCG 01112 of F. oxysporum f. sp. vasinfectum (Fov) in Australia, was determined using glasshouse bioassays and AFLPs. Five lineages (A–E) were identified among 856 isolates. Of these, 12% were strongly pathogenic on cotton, 10% were weakly pathogenic and designated wild Fov, while 78% were nonpathogenic. In contrast to the occurrence of pathogenic isolates in all five lineages in soils associated with wild Gossypium, in cotton growing areas only three lineages (A, B, E) occurred and all pathogenic isolates belonged to two subgroups in lineage A. One of these contained VCG 01111 isolates while the other contained VCG 01112 isolates. Sequence analyses of translation elongation factor-1α, mitochondrial small subunit rDNA, nitrate reductase and phosphate permease confirmed that Australian Fov isolates were more closely related to lineage A isolates of native F. oxysporum than to Fov races 1–8 found overseas. These results strongly support a local evolutionary origin for Fov in Australian cotton growing regions. 相似文献
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大豆疫霉根腐病菌的rDNA ITS序列分析 总被引:3,自引:0,他引:3
采用真菌核糖体基因转录间隔区(ITS)通用引物,PCR扩增了大豆疫霉根腐病菌具有差异的17个菌株的ITSI与ITS2,经过与DL2000的标准分子量DNA进行比较,得到了大约800~1000bp左右的片段,并对PCR产物进行了序列测定。以USA为外类群利用最大简约法构建了大豆疫霉根腐病菌的系统发生树,并分析了菌株之间的遗传进化关系。结果表明:不同菌株ITS1和ITS2在碱基构成上有很大差异,17个菌株大致分为4个谱系中,且来自于同一地区的菌株大都分布在同一谱系中,显示出地理上的差异。 相似文献
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The effects of race-specific resistance as conditioned by Rps genes (rps, Rps1-k, Rps2, Rps3, Rps6) in two genetic backgrounds (Williams & Harosoy) on accumulation of soluble peroxidases were determined by a soybean peroxidase capture assay (SPCA) after inoculation with P. sojae races 2, 7, or 25. Peroxidase activity increased in all isolines during the 72 h after inoculation, but reactions varied depending on time after inoculation, genetic background, Rps gene and P. sojae race. Peroxidase activity was higher in race-specific resistant than in susceptible reactions at 72 h. after inoculation, except for plants with the Rps2 gene which confers a unique form of root resistance in addition to the whole plant race-specific resistance. Williams isolines had larger increases in peroxidase activity than Harosoy isolines when data were averaged across Rps genes, and was most evident when plants were inoculated with race 2. When soybeans were inoculated with race 7 Rps1-k resistant plants had the highest increase in peroxidase activity, but Rps2 susceptible plants had a significantly higher peroxidase activity than plants with rps, Rps3, and Rps6 that were also susceptible. Results from inoculations with race 25 were somewhat different, Rps2 resistant plants had the highest increase in peroxidase activity; however, plants with the Rps3 or Rps6 gene that were also resistant did not have a significantly higher peroxidase activity than susceptible plants with the rps or Rps1-k gene. 相似文献
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《Expert review of proteomics》2013,10(6):745-755
Comprehensive mapping and analysis of protein–protein interactions provide not only systematic approaches for dissecting the infection and survival mechanisms of pathogens but also clues for discovering new antibacterial drug targets. Protein interaction data on Mycobacterium tuberculosis have rapidly accumulated over the past several years. This review summarizes the current progress of protein interaction studies on M. tuberculosis, the causative agent of tuberculosis. These efforts improve our knowledge on the stress response, signaling regulation, protein secretion and drug resistance of the bacteria. M. tuberculosis–host protein interaction studies, although still limited, have recently opened a new door for investigating the pathogenesis of the bacteria. Finally, this review discusses the importance of protein interaction data on identifying and screening new anti-tuberculosis targets and drugs, respectively. 相似文献
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A new method of sample preparation for cryo-scanning electron microscopy was used to visualize internal infection of wheat (Triticum aestivum) roots by the pathogenic fungus Rhizoctonia solani AG-8. The new method retained fungal hyphae and root cells in situ in disintegrating root tissues, thus avoiding the distortions that can be introduced by conventional preparation by chemical fixation, dehydration and embedding. Infected roots frozen in liquid nitrogen were cryo-planed and etched (sublimed) at -80 degrees C for a critical length of time (up to 9 min) in the microscope column to reveal plant and fungal structures in three dimensions. Root and fungal structures were well preserved irrespective of infection severity. Root and hyphal cell walls were clearly seen and hyphal architecture within and between root cells was preserved. This rapid method permits three-dimensional in situ visualization of fungal invasion within roots and has broad application for examination of diseases caused by other necrotrophic fungi. 相似文献