Light and Electron Microscopy Studies on the Infection of a Wild‐type and Metalaxyl‐resistant Isolate of Phytophthora sojae in Soybean Hypocotyls

Resistance of soybean cultivars, depending on single dominant genes to Phytophthora sojae, may easily be overcome by emerging new virulent races. Light microscopy (LM) and electron microscopy (EM) were used to study the infection process of the wild‐type isolate Ps411 and metalaxyl‐resistant mutant Ps411‐M of P. sojae in hypocotyls of soybean seedlings grown from untreated and metalaxyl‐treated seeds. The isolate Ps411‐M of P. sojae exhibited a high degree of resistance to metalaxyl compared to Ps411. The pathogenic fitness of Ps411‐M in hypocotyls of soybean seedlings was lower compared to Ps411. LM observations showed distinct differences in the infection process of both isolates in hypocotyls of treated soybean seedlings. EM studies revealed differences in the prepenetration stage between Ps411 and Ps411‐M on hypocotyls grown from seeds treated with 0.02% metalaxyl until the whole seed surface coated. The number of infection sites was markedly reduced and few hyphae continued to spread. Numerous ultrastructural alterations in hyphae were observed in treated hypocotyls infected with Ps411, including pronounced thickening of hyphal cell walls and encasement of haustorium‐like bodies; electron‐dense material was deposited in host cell walls in contact with hyphal cells. Neither the prepenetration process nor penetration or spread of hyphae in the hypocotyls of the resistant isolate was affected in treated compared to non‐treated tissue. While in treated hypocotyls infected with the wild‐type isolate, host defence reactions were induced, no such reactions were detected in treated hypocotyls infected with the resistant isolate. Hypocotyls from metalaxyl‐treated seeds infected with the wild‐type isolate resembled an incompatible interaction, whereas during infection with the metalaxyl‐resistant mutant, the compatible interaction was not changed.     

大豆疫霉菌抗甲霜灵特性研究

大豆疫霉Phytophthorasojae易对甲霜灵产生抗性,从大豆疫霉野生型菌株可诱变筛选到对甲霜灵有抗性的菌株Mtr。Mtr抗性菌株的抗性水平可达野生型单游动孢子菌株的870倍以上。Mtr性状在无性后代稳定遗传,在游动孢子后代连续三代未发生抗药性分离。大豆疫霉Mtr性状的保持对甲霜灵没有表现依赖性。Mtr单游动孢子菌株在不含甲霜灵的胡萝卜培养基(CA)平板上培养30d后对甲霜灵的抗性没有下降,其单游动孢子后代也未出现抗药性分离。     

大豆疫霉根腐病抗源筛选

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。     

野生大豆资源对大豆疫病抗病性和耐病性鉴定

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。     

黑龙江省主要栽培大豆品种(系)对大豆疫霉根腐病的多抗性评价

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.     

一种土壤中大豆疫霉菌分离新方法*

由于腐霉菌的干扰,土壤中大豆疫霉菌的分离十分困难。利用大豆疫霉菌的致病性和大豆对病原菌的选择作用排除腐霉菌,我们建立了一种简单、有效的土壤中大豆疫霉菌的分离方法。该方法用不含抗大豆疫霉根腐病基因的大豆叶碟诱钓大豆疫霉菌的游动孢子,将诱钓叶碟直接接种不含抗大豆疫霉菌基因的大豆植株,再对病株进行选择性或非选择性分离获得大豆疫霉菌。此方法能十分有效地排除腐霉菌干扰和细菌的污染,直接获得纯化菌株。应用该方法我们在以前未报道有大豆疫霉根腐病发生的山东、河南、安徽、江苏和浙江分离到大豆疫霉菌。     

Pathogenicity and its alternation with both morphological and genetic variation in Plasmopara halstedii (sunflower downy mildew)

Morphological, pathogenic and genetic variation was studied in seven Plasmopara halstedii (sunflower downy mildew) isolates of several races using five singlezoosporangium isolates per pathogen isolate. Aggressiveness criteria were analysed in one sunflower inbred line showing a high level of quantitative resistance. Genetic relationships were detected between the single zoosporangium isolates using 12 expressed sequence tags (EST)-derived markers. Analysis of the five single zoosporangium isolates for P. halstedii isolates showed variability within pathogen isolates for all aggressiveness criteria, but not for all pathogen isolates. Isolates of races 100 and 3xx were characterised with shorter latent period and higher sporulation density than the isolate of races 7xx. All pathogen isolates showed high percentage infection values and caused a large reduction in seedling size except for one isolate involved in dwarfing. There was no relation between zoosporangia form or size and race virulence profiles or aggressiveness criteria. There was no intra-genetic variation for all pathogen isolates, but it was observed an important genetic variation between single zoosporangium isolates of all races. No correlation was detected between pathogenicity traits and EST genotypes.     

抗大豆疫霉根腐病野生大豆资源的初步筛选

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.     

A Phytophthora sojae G-protein alpha subunit is involved in chemotaxis to soybean isoflavones

For the soybean pathogen Phytophthora sojae, chemotaxis of zoospores to isoflavones is believed to be critical for recognition of the host and for initiating infection. However, the molecular mechanisms underlying this chemotaxis are largely unknown. To investigate the role of G-protein and calcium signaling in chemotaxis, we analyzed the expression of several genes known to be involved in these pathways and selected one that was specifically expressed in sporangia and zoospores but not in mycelium. This gene, named PsGPA1, is a single-copy gene in P. sojae and encodes a G-protein alpha subunit that shares 96% identity in amino acid sequence with that of Phytophthora infestans. To elucidate the function, expression of PsGPA1 was silenced by introducing antisense constructs into P. sojae. PsGPA1 silencing did not disturb hyphal growth or sporulation but severely affected zoospore behavior, including chemotaxis to the soybean isoflavone daidzein. Zoospore encystment and cyst germination were also altered, resulting in the inability of the PsGPA1-silenced mutants to infect soybean. In addition, the expressions of a calmodulin gene, PsCAM1, and two calcium- and calmodulin-dependent protein kinase genes, PsCMK3 and PsCMK4, were increased in the mutant zoospores, suggesting that PsGPA1 negatively regulates the calcium signaling pathways that are likely involved in zoospore chemotaxis.     

大豆品种早熟18抗疫霉根腐病基因的SSR分子标记

大豆品种早熟18是抗疫霉根腐病的有效抗源。本研究鉴定和分子标记早熟18的抗疫霉根腐病基因,以期为该品种的有效利用及分子辅助育种奠定基础。以感病大豆品种Williams与早熟18杂交建立分离群体。抗性遗传分析表明,早熟18对大豆疫霉菌抗性由1个显性单基因控制,该基因被定名为RpsZS18。SSR标记连锁分析表明,RpsZS18位于大豆分子遗传连锁群D1b上的SSR标记Sat_069和Sat_183之间,与这两个标记的遗传距离分别为10．0cM和8．3cM。RpsZS18是D1b连锁群上鉴定的第一个抗疫霉根腐病基因。     

黄颡鱼卵水霉病病原的分离鉴定及其无性繁殖特性

【目的】对黄颡鱼卵水霉病病原进行分离鉴定,并对其无性繁殖特性进行研究。【方法】采用传统方法从患水霉病的黄颡鱼卵上进行丝状真菌的分离,然后通过人工感染实验证实分离菌株的致病性,通过形态学观察和ITS rDNA序列分析对致病菌株进行鉴定,并进一步通过单因子法研究其无性繁殖特性。【结果】从患水霉病的黄颡鱼卵上分离了4株丝状真菌,经人工感染试验证实其中一株丝状真菌HP对黄颡鱼卵具有致病性,并进一步研究了其形态与无性繁殖特性,开展了ITS rDNA序列分析。实验结果表明,菌株HP菌丝为透明管状结构,中间无横隔,分枝较少;游动孢子囊多数呈棒状,游动孢子发育成熟后从孢子囊中释放出来,并迅速游离;能够产生第二孢孢子;新孢子囊以内层出的方式产生;藏卵器呈球形,与雄器同枝或异枝。菌株HP的ITS rDNA序列与GenBank基因库中水霉属菌株自然聚类,同源性高达99%,与多子水霉菌株Arg4S(GenBank登录号GQ119935)的亲缘关系最近。结合形态特征与ITS序列鉴定的结果,判定菌株HP为多子水霉(Saprolegnia ferax)。此外,菌株HP在5°C-35°C、pH 4-10范围内均能产生游动孢子,产生游动孢子的最适温度和pH分别为20°C和7,而且5-25 mg/L福尔马林和0.25 1.25 mg/L二硫氰基甲烷对菌株HP产生游动孢子具有明显的抑制作用。【结论】分离鉴定了黄颡鱼卵水霉病病原,并确定了其无性繁殖特性,可以作为该病防治用药的依据。     

Analysis of total DNA by minisatellite and simple-sequence repeat primers for the use of population studies in Plasmopara halstedii

Total DNA of Plasmopara halstedii isolates from Germany was analysed for polymorphisms potentially useful for the differentiation of field isolates with respect to epidemiological studies or pathotype characterization. The isolation of the DNA started from mitotically formed zoosporangia, which is the only cellular structure of the biotrophic pathogen accessible independently from its host. The total DNA of the pathogen was used to perform DNA fingerprints with minisatellite and simple-sequence repeat primers. Polymorphisms were found that allowed differentiation on the level of single field isolates; however, they were not correlated with either physiological races or the geographic origin of the isolates. Using such differentiating primers, single spore strains of three pathogen isolates were also analysed with respect to genetic homogeneity. Minor variation was visible in the mitotically derived offspring, but the overall appearance of these patterns was mostly uniform with those of the respective parental isolate.     

恶疫霉致病力和对甲霜灵敏感性的遗传与变异*

以分离自黑龙江腐烂苹果的恶疫霉Phytophthora cactorum Schroeter野生型菌株Ap14为亲本,采用菌丝块创伤接种法测定了恶疫霉对苹果的致病力在无性繁殖和有性生殖后代的遗传。结果是连续2代单游动孢子后代在苹果上所致病斑半径分别为22.4~24.1mm和21.8~23.4mm,与亲本所致病斑半径22.5mm无显著差异;而其20个自交后代个体所致病斑半径为21.4~25.8mm,与亲本有显著差异,其中2株致病力显著强于亲本,其余与亲本相似。表明恶疫霉对苹果的致病力在无性后代可稳定遗传,而在自交有性后代发生分离。同时在含甲霜灵0.05μg/ml的LBA平板上测定了恶疫霉菌丝生长对甲霜灵的敏感性在无性和有性后代的遗传。结果是恶疫霉对甲霜灵的敏感性在无性单孢后代无显著变异,而在50个自交有性后代中,上述浓度对其菌丝生长的抑制率分布范围为67.3~97.1%,与亲本78.3%有极显著差异,其中3株高于亲本,3株低于亲本,44株与亲本相似。表明恶疫霉对甲霜灵的敏感性同样在无性后代稳定遗传而在有性后代发生变异。上述结果提示,供试恶疫霉菌株中上述性状可能由细胞核杂合基因控制。     

Inhibitory Effect of Paenibacillus polymyxa GBR-462 on Phytophthora capsici Causing Phytophthora Blight in Chili Pepper

In the present work 25 strains of Paenibacillus polymyxa isolated from rotted ginseng roots were screened for their antimicrobial activity against Phytophthora capsici in vitro . Based on antimicrobial activity, 15 strains categorized as strongly antimicrobial, among them GBR-462 was found as the most active, and five strains each as weekly antimicrobial and no antimicrobial. Antimicrobial activity was influenced by the initial inoculum density, as strains of P. polymyxa with a strong antimicrobial activity (including P. polymyxa GBR-462) showed the antimicrobial activity against P. capsici and could form biofilm only when they were applied at the higher initial inoculums, 10⁸ cfu/ml. No inhibitory effect was noted on the mycelial growth and zoospore germination of the pathogen when applied at the lower inoculum density of 10⁶ cfu/ml of P. polymyxa GBR-462. However, sporangium formation and zoospore release was significantly inhibited at the lower inoculum density. Also light and electron microscopy revealed the structures of sporangia aberrant with no or few healthy nuclei, indicating sporangium and zoospore formation inhibited at the lower inoculum density. Application of P. polymyxa GBR-462 into potted soil suppressed disease progression as well as disease severity; disease severity was reduced by 30% as compared to untreated pots, suggesting P. polymyxa GBR-462 could be a potential biocontrol agent against Phytopthora capsici .     

条形柄锈菌小麦专化型小种CYR29有性自交及毒性与无毒性基因的遗传分析

由条形柄锈菌小麦专化型(小麦条锈菌)Puccinia striiformisf.sp.tritici引起的条锈病是小麦上重大的生物灾害,严重威胁小麦安全生产.应用抗病品种是防治小麦条锈病最为经济有效的措施,但是条锈菌毒性的频繁变异,常常导致品种抗病性丧失,从而引发条锈病新的大流行.有性生殖是条锈菌毒性变异的重要途径,本...     

Virulence Structure of Blumeria graminis f. sp. tritici and Its Genetic Diversity by ISSR and SRAP Profiling Analyses

Blumeria graminis f. sp. tritici, which causes wheat powdery mildew, is an obligate biotrophic pathogen that can easily genetically adapt to its host plant. Understanding the virulence structure of and genetic variations in this pathogen is essential for disease control and for breeding resistance to wheat powdery mildew. This study investigated 17 pathogenic populations in Sichuan, China and classified 109 isolates into two distinct groups based on pathogenicity analysis: high virulence (HV, 92 isolates) and low virulence (LV, 17 isolates). Populations from Yibin (Southern region), Xichang (Western region), and Meishan (Middle region) showed lower virulence frequencies than populations from other regions. Many of the previously known resistance genes did not confer resistance in this study. The resistance gene Pm21 displayed an immune response to pathogenic challenge with all populations in Sichuan, and Pm13, Pm5b, Pm2+6, and PmXBD maintained resistance. AMOVA revealed significantly higher levels of variation within populations and lower levels of variation among populations within regions. High levels of gene flow were detected among populations in the four regions. Closely related populations within each region were distinguished by cluster analyses using ISSR and SRAP alleles. Both ISSR and SRAP allele profiling analyses revealed high levels of genetic diversity among pathogenic populations in Sichuan. Although ISSR and SRAP profiling analysis showed similar resolutions, the SRAP alleles appeared to be more informative. We did not detect any significant association between these alleles and the virulence or pathogenicity of the pathogen. Our results suggest that ISSR and SRAP alleles are more efficient for the characterization of small or closely related populations versus distantly related populations.     

Zoosporangia survival,dehiscence and zoospore formation,and motility in the green alga<Emphasis Type="Italic">Rhizoclonium hieroglyphicum</Emphasis> as affected by different factors

Urea at 200 ppm (probably serving as a nitrogen source), liquid Bold's basal medium at pH 7.5, temperature of about 22 degrees C and light intensity of about 40 micromol m(-2) s(-1) for 16 h a day induced rapid and/or abundant zoospores formation and zoosporangia dehiscence and favored zoospore liberation, speed and motility time period in the green alga Rhizoclonium hieroglyphicum. However, factors such as water stress (2 and 4 % agarized media, liquid media with 0.2-0.4 mol/L NaCl, 5-60 min blot-dryness of filaments), pH extremes of liquid media (at < or =6.5 and > or =9.5), temperature shock in liquid media (5 and 35 degrees C for > or =5 min), UV exposure (0.96-3.84 kJ/m2), lack of all nutrients from liquid medium (double distilled water), darkness, and presence of "heavy" metals (1-25 ppm Cu, Fe, Zn, Hg, Ni, Co) or organic substances (200-600 ppm captan or DDT, 800 and 1000 ppm 2,4-D, 50 and 400 ppm indole-3-acetic acid (3-IAA), 1000 and 2000 ppm urea, 100 and 200 ppm thiourea) in liquid media decreased and/or delayed at various levels either zoosporangia survival, zoospore formation or zoosporangia dehiscence and/or the rate of zoospore liberation from zoosporangia, zoospore speed and time period of motility in the media or totally inhibited all these processes. 3-IAA at 50 and 400 ppm induced zoosporangial papilla to grow into a tube-like projection of about 30-120 microm in length. Zoosporangial dehiscence rather than zoospore formation or zoosporangia survival, and zoospore motility period rather than zoospore speed are probably more sensitive to various adverse environmental factors. The rate of zoospores liberation from zoosporangium (possibly related directly to some extent on the zoospore number inside) is probably independent of zoospore speed in the medium.     

Expression of a Phytophthora sojae necrosis-inducing protein occurs during transition from biotrophy to necrotrophy

Phytophthora sojae is an oomycete that causes stem and root rot on soybean plants. To discover pathogen factors that produce disease symptoms or activate plant defense responses, we identified putative secretory proteins from expressed sequence tags (ESTs) and tested selected candidates using a heterologous expression assay. From an analysis of 3035 ESTs originating from mycelium, zoospore, and infected soybean tissues, we identified 176 putative secreted proteins. A total of 16 different cDNAs predicted to encode secreted proteins ranging in size from 6 to 26 kDa were selected for expression analysis in Nicotiana benthamiana using an Agrobacterium tumefaciens binary potato virus X (PVX) vector. This resulted in the identification of a 25.6-kDa necrosis-inducing protein that is similar in sequence to other proteins from eukaryotic and prokaryotic species. The genomic region encoding the P. sojae necrosis-inducing protein was isolated and the expression pattern of the corresponding gene determined by RNA blot hybridization and by RT-PCR. The activity of this P. sojae protein was compared to proteins of similar sequence from Fusarium oxysporum, Bacillus halodurans, and Streptomyces coelicolor by PVX-based expression in N. benthamiana and by transient expression via particle bombardment in soybean tissues. The P. sojae protein was a powerful inducer of necrosis and cell death in both assays, whereas related proteins from other species varied in their activity. This study suggests that the P. sojae necrosis-inducing protein facilitates the colonization of host tissues during the necrotrophic phase of growth.     

苎麻疫霉雄器侧生性状的遗传研究*

在来自江苏、江西棉花、芒麻和构树的12个些麻疫霉（PhytophthoraboehmeriaeSawada）菌株中均观察到侧生雄器,其比率为4．0％～16．5％。在以菌株JS－5和PM－8（雄器侧生比率分别为16．5％和9．5％）为亲本所建立的连续2～3代单游动孢子无性系后代中,雄器侧生性状可以遗传,但单孢株间雄器侧生比率有一定差异,其分布范围分别为9．0％～34．0％和2．5％～15．5％。进一步诱导菌株JS－5的单游动孢子株的卵孢子萌发,分别对具侧生雄器和具围生雄器的藏卵器（卵孢子）进行单孢分离,检测雄器位置性状在由上述不同来源卵孢子萌发所形成的单卵孢株后代的遗传与变异。结果表明,无论是由具侧生雄器的藏卵器中的卵孢子萌发形成的单卵孢株,还是由具围生雄器的藏卵器中卵孢子萌发形成的单卵孢株,其有性器官均具有雄器侧生与雄器围生两种类型,但侧生比率在各代菌株间有很大差异。S1代单卵孢株的雄器侧生比率分布范围为1．0％～79．0％,其中具侧生雄器的藏卵器中卵孢子萌发形成的单卵孢株雄器侧生比率较高（分布范围7．0％～79．0％,平均33．6％）,而来自具围生雄器的藏卵器中的卵孢子萌发形成的单卵孢株雄器侧生比率较低（分布范围1．0％～32．0％,平均11．52％）。S2代单卵孢株的雄器侧生比率为10％～9