小麦秆锈菌生理小种21C3CPH和Ug99 SSR标记的筛选

小麦秆锈病是一种专化性很强的大区远距气传病害,曾造成多个小麦种植国家和地区的毁灭性损失,新的强毒力小种Ug99含有对Sr31等多个重要抗秆锈基因的联合毒性,对我国的小麦生产有巨大潜在威胁,因此,加强小麦秆锈菌生理小种的监测和鉴定是有效防治该病害的基础性研究工作和关键环节。现代分子生物学的迅猛发展,为许多研究提供了新的方法和手段,分子标记技术在区分小麦秆锈菌生理小种方面显示了充分的可行性。本研究利用25对SSR引物对7个小麦秆锈菌主要生理小种进行DNA多态性分析,结果显示,所有特异引物对秆锈菌的扩增结果均呈现出丰富的多态性,秆锈菌的不同生理小种之间存在遗传差异。其中引物SSR180在21C3CPH中扩增出205bp的特异性条带;引物SSR6在Ug99中扩增出170bp的特异性条带,经过多次的重复试验,这些特异性条带均能够比较稳定地重复出现,说明引物SSR180和SSR6可用于小种21C3CPH和Ug99的特异性检测。     

QTL mapping of resistance to race Ug99 of Puccinia graminis f. sp. tritici in durum wheat (Triticum durum Desf.)

Stem rust caused by Puccinia graminis f. sp. tritici was historically one of the most destructive diseases of wheat worldwide. The evolution and rapid migration of race TTKSK (Ug99) and derivatives, first detected in Uganda in 1999, are of international concern due to the virulence of these races to widely used stem rust resistance genes. In attempts to identify quantitative trait loci (QTL) linked with resistance to stem rust race Ug99, 95 recombinant inbred lines that were developed from a cross between two durum wheat varieties, Kristal and Sebatel, were evaluated for reaction to stem rust. Seven field trials at two locations were carried out in main and off seasons. In addition to the natural infection, the nursery was also artificially inoculated with urediniospores of stem rust race Ug99 and a mixture of locally collected stem rust urediniospores. A genetic map was constructed based on 207 simple sequence repeat (SSR) and two sequence tagged site loci. Using composite interval mapping, nine QTL for resistance to stem rust were identified on chromosomes 1AL, 2AS, 3BS, 4BL, 5BL, 6AL 7A, 7AL and 7BL. These results suggest that durum wheat resistance to stem rust is oligogenic and that there is potential to identify previously uncharacterized resistance genes with minor effects. The SSR markers that are closely linked to the QTL can be used for marker-assisted selection for stem rust resistance in durum wheat.     

基于RAPD、ISSR和AFLP对西瓜枯萎病菌遗传多样性的评价

利用RAPD、ISSR和AFLP分子标记技术对50个西瓜枯萎病菌株进行了分析。结果表明,21个RAPD引物、21个ISSR引物和21对AFLP引物分别对供试菌株扩增出113、134和389条带,三种分子标记的遗传相似系数比较一致,均可揭示西瓜枯萎病菌的遗传变异特点。三种分子标记产生的聚类分析结果存在一定差异,其中RAPD类群与生理小种和地理来源之间均不存在明显关系;而AFLP和ISSR类群与生理小种之间存在一定相关性,与菌株的地理来源关系不明显。     

基于RAPD、ISSR和AFLP对西瓜枯萎病菌遗传多样性的评价

利用RAPD、ISSR和AFLP分子标记技术对50个西瓜枯萎病菌株进行了分析。结果表明,21个RAPD引物、21个ISSR引物和21对AFLP引物分别对供试菌株扩增出113、134和389条带,三种分子标记的遗传相似系数比较一致,均可揭示西瓜枯萎病菌的遗传变异特点。三种分子标记产生的聚类分析结果存在一定差异,其中RAPD类群与生理小种和地理来源之间均不存在明显关系;而AFLP和ISSR类群与生理小种之间存在一定相关性,与菌株的地理来源关系不明显。     

Pathogenic and molecular variation support the presence of genetically distinct clonal lineages in Australian populations of Puccinia graminis f. sp. avenae

Previous studies of the causal agent of stem rust of oats (Puccinia graminis f. sp. avenae; P. g. avenae) in Australia have demonstrated a high level of pathogenic variability. In this work, the pathotypic structure of the Australian P. g. avenae population in 1999 was investigated, as well as the pathotypic and genetic diversity of a collection of 26 Australian isolates representing a 25-year period (1971–1996). In the 1999 sample, 16 races belonging to six international standard races were identified from 97 isolates, with standard race 94 predominant in all regions. Race 94+Pg-13,Pg-Sa,Pg-a, detected in southern New South Wales (sNSW) and northern New South Wales (nNSW), was virulent on all of the differential genotypes used. Detailed analyses of pathogenicity and AFLP variability among 26 isolates collected from 1971–1996 revealed that isolates of standard race 94 collected in 1999 were genetically distinct from other Australian races of P. g. avenae. This evidence, along with data from annual pathogenicity surveys, suggests that the group to which standard race 94 belongs appeared during the late 1980s, and that it increased in frequency to dominate P. g. avenae pathogen populations throughout Australia from 1992 onward. The existence of groups of P. g. avenae isolates in Australia that differ in pathogenicity and AFLP phenotype suggests that current populations have evolved from a number of isolates of the fungus that differ in their genetic backgrounds, which may have originated from independent introductions or from asexual hybridisational events.     

黑龙江省葫芦科白粉病菌RAPD分析

2010年采集黑龙江省不同生态区不同设施内的甜瓜、黄瓜、南瓜、西瓜等瓜类白粉病菌菌株17份,采用国际通用的瓜类白粉病菌生理小种鉴别寄主对17份白粉病菌进行了生理小种鉴定。根据13个鉴别寄主的抗感反应,初步确定黑龙江省葫芦科作物白粉病菌存在3个生理小种,即单囊壳白粉菌Podosphaera xanthii的生理小种1和生理小种N1号及一个新生理小种,其中生理小种1为优势小种。通过对13份白粉病菌的RAPD分析,从119个随机引物中筛选出10个条带清晰而且重复性好的引物,扩增得到157个位点,其中多态性位点为138个,多态性位点频率为97.89%,表明黑龙江省葫芦科作物白粉菌具有丰富的遗传多样性。利用NTSYS-PC软件进行数据分析,结果表明13个菌株之间遗传相似系数的变化幅度为0.52－0.75。根据遗传相似系数用类平均法（UPGMA）对其聚类,以遗传相似系数0.60为阈值,供试菌株可区分为4个类群。同是生理小种1的菌株部分聚到了同一类,新生理小种与部分生理小种1菌株聚到同一类,同是生理小种N1的两个菌株未聚到同一类;相同地理来源或相同寄主来源的白粉菌也未聚到一类。初步确定葫芦科白粉病菌致病性与DNA多态性不形成对应关系,菌株的遗传多样性与菌株地理来源、寄主来源及设施类型亦无明显的直接关系。     

Development and characterization of wheat-<Emphasis Type="Italic">Ae. searsii</Emphasis> Robertsonian translocations and a recombinant chromosome conferring resistance to stem rust

The emergence of a new highly virulent race of stem rust (Puccinia graminis tritici), Ug99, rapid evolution of new Ug99 derivative races overcoming resistance of widely deployed genes, and spread towards important wheat growing areas now potentially threaten world food security. Exploiting novel genes effective against Ug99 from wild relatives of wheat is one of the most promising strategies for the protection of the wheat crop. A new source of resistance to Ug99 was identified in the short arm of the Aegilops searsii chromosome 3S^s by screening wheat- Ae. searsii introgression libraries available as individual chromosome and chromosome arm additions to the wheat genome. For transferring this resistance gene into common wheat, we produced three double-monosomic chromosome populations (3A/3S^s, 3B/3S^s and 3D/3S^s) and then applied integrated stem rust screening, molecular maker analysis, and cytogenetic analysis to identify resistant wheat-Ae. searsii Robertsonian translocation. Three Robertsonian translocations (T3AL·3S^sS, T3BL·3S^sS and T3DL·3S^sS) and one recombinant (T3DS-3S^sS·3S^sL) with stem rust resistance were identified and confirmed to be genetically compensating on the basis of genomic in situ hybridization, analysis of 3A, 3B, 3D and 3S^sS-specific SSR/STS-PCR markers, and C-banding. In addition, nine SSR/STS-PCR markers of 3S^sS-specific were developed for marker-assisted selection of the resistant gene. Efforts to reduce potential linkage drag associated with 3S^sS of Ae. searsii are currently under way.     

致病疫霉超级生理小种遗传多样性分析

通过交配型和甲霜灵抗性以及线粒体DNA单倍型、SSR和AFLP基因型分析对40个超级生理小种菌株进行了遗传多样性分析。在被测菌株中发现了A1、A2和自育3种不同类型的交配型。其中,A1和自育型菌株数量多,分别为21株和14株,而A2交配型仅5株。甲霜灵抗性测定检测出高抗菌株26株,敏感菌株14株。线粒体DNA单倍型测定出Ia型和IIa型两种,比例接近1:1。基于5个基因座被测40个超级生理小种菌株共鉴定出了7种SSR基因型。利用6对荧光引物共检测到258条AFLP谱带,其中多态性谱带204条,多态性为79.1%。将供试的40个菌株划分为38个基因型,几乎每个菌株都为1个特有基因型。而且,我国南方和北方超级生理小种群体存在着明显的遗传差异。结果表明我国致病疫霉超级生理小种具有丰富的遗传多样性,可以推断致病疫霉中的任何小种都可在多个抗病基因的强大选择压力下,在短时间内通过与之对应的无毒基因快速突变而成为超级生理小种。当前对致病疫霉生理小种的鉴定及监测对生产上利用抗病品种防控晚疫病的指导意义不大。     

河北省西瓜枯萎病菌致病性分化及其RAMS分析

本文对50个西瓜枯萎病菌株,(其中46个来自河北省石家庄、保定、唐山等12个西瓜种植区的代表菌株)进行了致病性测定、RAMS(Random amplified microsatellites)扩增和致病类型与RAMS类群的相关性分析。根据鉴别寄主对不同菌株的抗感反应,将50个菌株划分为3个不同的生理小种,即0号、1号和2号生理小种,分别占供试菌株的18%、64%和18%;21个RAMS引物对供试菌株扩增出188条带,其中多态性带134条,占总带数的71%。基于RAMS标记聚类分析,50个菌株被划分为3个类群(RAMSGroups,RGs)。RGI包含来自不同地区的41个菌株,以1号生理小种为主(32个),占该类群的78.1%;RGII包括来自保定、唐山和新疆的3个菌株,均为0号生理小种;RGIII包括张家口、石家庄、保定等地的6个2号生理小种菌株。RAMS类群与生理小种之间存在一定相关性,与菌株的地理来源关系不明显。     

Comparative virulence phenotypes and molecular genotypes of Puccinia striiformis f. sp. tritici, the wheat stripe rust pathogen in China and the United States

Stripe rust (yellow rust) of wheat, caused by Puccinia striiformis f. sp. tritici, is one of the most important diseases in both China and the United States. The Chinese and US populations of the stripe rust fungus were compared for their virulence phenotypes on wheat cultivars used to differentiate races of the pathogen in China and the US and molecular genotypes using simple sequence repeat (SSR) markers. From 86 Chinese isolates, 54 races were identified based on reactions on the 17 Chinese differentials and 52 races were identified based on the 20 US differentials. The selected 51 US isolates, representing 50 races based on the US differentials, were identified as 41 races using the Chinese differentials. A total of 132 virulence phenotypes were identified from the 137 isolates based on reactions on both Chinese and US differentials. None of the isolates from the two countries had identical virulence phenotypes on both sets of differentials. From the 137 isolates, SSR markers identified 102 genotypes, of which 71 from China and 31 from the US. The virulence data clustered the 137 isolates into 20 virulence groups (VGs) and the marker data clustered the isolates into seven molecular groups (MGs). Virulence and SSR data had a low (r = 0.34), but significant (P = 0.01) correlation. Principal component analyses using either the virulence data or the SSR data separated the isolates into three groups: group a consisting of only Chinese isolates, group b consisting of both Chinese and US isolates and group c consisting of mostly US isolates. A neighbour-joining tree generated using the molecular data suggested that the P. striiformis f. sp. tritici populations of China and the US in general evolved independently.     

Genetic Diversity, Aggressiveness and Metalaxyl Sensitivity of Pythium spinosum Infecting Cucumber in Oman

A total of 24 isolates of Pythium spinosum from cucumber obtained from five regions in Oman were characterized for genetic diversity using amplified fragment length polymorphism (AFLP) fingerprinting and three isolates from the Netherlands, South Africa and Japan were included for comparison. Isolates from Oman were also characterized for aggressiveness on cucumber seedlings and sensitivity to metalaxyl. Identity of all isolates was confirmed using sequences of the internal transcribed spacer (ITS) region of the ribosomal DNA (rDNA), which showed more than 99% nucleotide similarity among all isolates. Using six primer‐pair combinations, AFLP fingerprinting resolved 295 AFLP markers of which 193 were polymorphic among isolates from other countries and only six were polymorphic among isolates of P. spinosum from Oman. Seven different AFLP phenotypes of P. spinosum were recovered in Oman; two of them were found to contain over 79% of isolates and one was recovered from all regions in Oman. Phenotypes from Oman showed very high (≥99%) levels of genetic similarity to each other compared to moderate (mean =53%) levels of genetic similarity with phenotypes from other countries. In addition, all isolates from Oman were found to be highly sensitive to metalaxyl and all were aggressive on cucumber seedlings at 25°C. The high genetic similarity among phenotypes of P. spinosum in Oman as well as recovering two major clones across regions may suggest that P. spinosum has been recently introduced in Oman via a common source.     

Protecting South Asian Wheat Production from Stem Rust (Ug99) Epidemic

The Ug99 group of stem rust races (Puccinia graminis Pers. f. sp. tritici Eriks. & E. Henn.) has evolved and migrated. While the original variant overcame the widely deployed gene Sr31, and Sr21 (in Chinese Spring background), but not Sr21 in Einkorn, a new strain of Ug99, virulent on Sr24, was detected in 2006 and caused a severe epidemic in 2007 in Kenya. Forms virulent on Sr36 and Sr21 were identified in 2007. Likewise, an Ug99 variant virulent to both Sr21 and Sr24 was identified in 2008 in Kenya. Simultaneously, the original strain spread to Yemen and Sudan in 2006. Fears of a spread into Asia were confirmed when this race was detected in Iran in 2007. This has raised serious concerns that Ug99 could follow the same migratory route from Africa to Asia as Yr9 and cause major epidemics across the epidemiological region of South Asia. In 2005–06, screening in Kenya and Ethiopia of wheat materials from Asian countries revealed a very low frequency of lines resistant to Ug99 and its variants. Under the umbrella of the Borlaug Global Rust Initiative (BGRI), significant efforts have been made to counter the challenges posed by Ug99 and its derivative races. Diverse sources of resistance to the pathogen have been identified and incorporated in high‐yielding wheat backgrounds. The most promising strategy has been to deploy spring wheat varieties possessing adult plant resistance (APR) in infested and bordering areas to decrease inoculum amounts and slow down the development of new virulence, for example four CIMMYT genotypes with Sr2+ have been released in Afghanistan and their seed is also distributed in region bordering Iran. For an immediate remedy, race‐specific resistance genes can be deployed in combinations using marker‐assisted selection. Several Ug99‐resistant varieties have already been released in South Asian countries (Afghanistan, India, Nepal, Bangladesh and Pakistan), and seed dissemination is underway. The Ug99 risk in the region can be reduced to minimum levels by identifying, releasing and providing seed of high‐yielding and resistant cultivars.     

Phytophthora infestans isolates from Northern China show high virulence diversity but low genotypic diversity

Phenotypic and genotypic characteristics of 48 Phytophthora infestans isolates , collected in five provinces in Northern China between 1997 and 2003, were determined and compared with reference isolates. Characterisation included mating type, virulence, mitochondrial DNA (mtDNA) haplotype and DNA fingerprinting patterns based on simple sequence repeats (SSR) and amplified fragment length polymorphisms (AFLP). All isolates had the A1 mating type, mtDNA haplotype IIa and an identical SSR genotype (designated as SG-01-01) that differed from SSR genotypes found in the reference isolates, including those representing the 'old' US-1 lineage that dominated the P. infestans population worldwide prior to 1980. In contrast, the virulence spectra were highly variable and virulence to all resistance genes present in the standard differential set ( R1 to R11 ) was found. AFLP analysis revealed some diversity; eight different AFLP genotypes were found that could be grouped into two major clusters. This study shows that there is very little genotypic diversity in the P. infestans population in Northern China. The occurrence of many different races within this rather uniform population is discussed in the framework of recent insights into the molecular determinants of avirulence in potato– P. infestans 'gene-for-gene' interactions.     

陇南越夏区自生麦苗条形柄锈菌毒性表型及分子基因型分析

为了解陇南地区越夏自生麦苗上条形柄锈菌的毒性组成及群体遗传结构,将采自天水、陇南及定西的自生麦苗上的39个单孢子堆菌系采用中、美鉴别寄主毒性分析法和TP-M13-SSR荧光标记技术,进行毒性鉴定并对其基因组DNA进行SSR标记分析。结果显示：在中国鉴别寄主上供试菌系被区分为9个致病类型,在美国鉴别寄主上则得到24个毒性类型,在中美鉴别寄主上共得到30个毒性表型。通过中国鉴别寄主鉴定的CYR32、CYR33为优势小种,毒性比率分别达到35.9%和30.8%。SSR标记将这些菌系划分为36个基因型,毒性分析与     

Inheritance of resistance to Ug99 stem rust in wheat cultivar Norin 40 and genetic mapping of Sr42

Stem rust, caused by Puccinia graminis f. sp. tritici, is a devastating disease of wheat. The emergence of race TTKSK (Ug99) and new variants in Africa threatens wheat production worldwide. The best method of controlling stem rust is to deploy effective resistance genes in wheat cultivars. Few stem rust resistance (Sr) genes derived from the primary gene pool of wheat confer resistance to TTKSK. Norin 40, which carries Sr42, is resistant to TTKSK and variants TTKST and TTTSK. The goal of this study was to elucidate the inheritance of resistance to Ug99 in Norin 40 and map the Sr gene(s). A doubled haploid (DH) population of LMPG-6/Norin 40 was evaluated for resistance to the race TTKST. Segregation of 248 DH lines fitted a 1:1 ratio (χ (2) 1:1= 0.58, p = 0.45), indicating a single gene in Norin 40 conditioned resistance to Ug99. This was confirmed by an independent F(2:3) population also derived from the cross LMPG-6/Norin 40 where a 1:2:1 ratio (χ (2)1:2:1 = 0.69, p = 0.71) was observed following the inoculation with race TTKSK. Mapping with DNA markers located this gene to chromosome 6DS, the known location of Sr42. PCR marker FSD_RSA co-segregated with Sr42, and simple sequence repeat (SSR) marker BARC183 was closely linked (0.5 cM) to Sr42. A previous study found close linkage between FSD_RSA and SrCad, a temporarily designated gene that also confers resistance to Ug99, thus Sr42 may be the same gene or allelic. Marker FSD_RSA is suitable for marker-assisted selection (MAS) in wheat breeding programs to improve stem rust resistance, including Ug99.     

Genetic Variability of Fusarium oxysporum f.sp. ciceris Population Affecting Chickpea in the Sudan

Fusarium wilt caused by Fusarium oxysporum f.sp. ciceris (Foc) is the most important soilborne disease of chickpea in the Sudan and many other countries. A total of 76 Foc isolates from six different chickpea‐growing states in the Sudan have been collected in this study to investigate the genetic diversity of Sudanese Foc isolates. Additional 14 Foc isolates from Syria and Lebanon were included in this study. All isolates were characterized using four random amplified polymorphic DNA (RAPD), three simple sequence repeats (SSR), five sequence‐characterized amplified region (SCAR) primers and three specific Foc genome primers. Based on the similarity coefficient, the results indicated two major clusters included seven subclusters. The isolates from the Sudan were grouped as identified as races 0, 2 and unknown races. The isolates from Syria and Lebanon were grouped together as they identified as races 1B/C and 6, respectively. This study identified a new race Foc (race 0) in the Sudan. The results of this study will be useful for breeders to design effective resistance breeding program in chickpea in the Sudan.     

Identification and mapping in spring wheat of genetic factors controlling stem rust resistance and the study of their epistatic interactions across multiple environments

Stem rust (Puccinia graminis f. sp. tritici) is responsible for major production losses in hexaploid wheat (Triticum aestivum L.) around the world. The spread of stem rust race Ug99 and variants is a threat to worldwide wheat production and efforts are ongoing to identify and incorporate resistance. The objectives of this research were to identify quantitative trait loci (QTL) and to study their epistatic interactions for stem rust resistance in a population derived from the Canadian wheat cultivars AC Cadillac and Carberry. A doubled haploid (DH) population was developed and genotyped with DArT^® and SSR markers. The parents and DH lines were phenotyped for stem rust severity and infection response to Ug99 and variant races in 2009, 2010 and 2011 in field rust nurseries near Njoro, Kenya, and to North American races in 2011 and 2012 near Swift Current, SK, Canada. Seedling infection type to race TTKSK was assessed in a bio-containment facility in 2009 and 2012 near Morden, MB. Eight QTL for stem rust resistance and three QTL for pseudo-black chaff on nine wheat chromosomes were identified. The phenotypic variance (PV) explained by the stem rust resistance QTL ranged from 2.4 to 48.8 %. AC Cadillac contributed stem rust resistance QTL on chromosomes 2B, 3B, 5B, 6D, 7B and 7D. Carberry contributed resistance QTL on 4B and 5A. Epistatic interactions were observed between loci on 4B and 5B, 4B and 7B, 6D and 3B, 6D and 5B, and 6D and 7B. The stem rust resistance locus on 6D interacted synergistically with 5B to improve the disease resistance through both crossover and non-crossover interactions depending on the environment. Results from this study will assist in planning breeding for stem rust resistance by maximizing QTL main effects and epistatic interactions.     

Association mapping and gene-gene interaction for stem rust resistance in CIMMYT spring wheat germplasm

The recent emergence of wheat stem rust Ug99 and evolution of new races within the lineage threatens global wheat production because they overcome widely deployed stem rust resistance (Sr) genes that had been effective for many years. To identify loci conferring adult plant resistance to races of Ug99 in wheat, we employed an association mapping approach for 276 current spring wheat breeding lines from the International Maize and Wheat Improvement Center (CIMMYT). Breeding lines were genotyped with Diversity Array Technology (DArT) and microsatellite markers. Phenotypic data was collected on these lines for stem rust race Ug99 resistance at the adult plant stage in the stem rust resistance screening nursery in Njoro, Kenya in seasons 2008, 2009 and 2010. Fifteen marker loci were found to be significantly associated with stem rust resistance. Several markers appeared to be linked to known Sr genes, while other significant markers were located in chromosome regions where no Sr genes have been previously reported. Most of these new loci colocalized with QTLs identified recently in different biparental populations. Using the same data and Q?+?K covariate matrices, we investigated the interactions among marker loci using linear regression models to calculate P values for pairwise marker interactions. Resistance marker loci including the Sr2 locus on 3BS and the wPt1859 locus on 7DL had significant interaction effects with other loci in the same chromosome arm and with markers on chromosome 6B. Other resistance marker loci had significant pairwise interactions with markers on different chromosomes. Based on these results, we propose that a complex network of gene-gene interactions is, in part, responsible for resistance to Ug99. Further investigation may provide insight for understanding mechanisms that contribute to this resistance gene network.     

Genetic mapping of the stem rust (Puccinia graminis f. sp. tritici Eriks. & E. Henn) resistance gene Sr13 in wheat (Triticum aestivum L.)

Puccinia graminis f. sp. tritici, the causative agent of stem rust in wheat, is known for its high virulence variability and ability to evolve new virulence to resistance genes. Thus, pyramiding of several resistance genes in a single line is the best strategy for a sustainable control of wheat stem rust. Sr13 is one of the few resistance genes that are effective against wide ranging P. graminis f. sp. tritici races, including the pestilent race Ug99. Its effectiveness to Ug99 makes it a valuable source for resistance to stem rust. Molecular markers play a pivotal role in the genetic characterization of the new sources of resistance as well as in stacking two or more resistance genes in a single line. Therefore, the aim of this study was to develop molecular markers for Sr13 facilitating efficient pyramiding of Sr genes. Based on the 158 F₂ individuals derived from a cross of Khapstein/9*LMPG × Morocco and SSR analyses, the Sr13 locus was mapped on chromosome 6A of wheat, and a genetic map comprising about 90 cM was constructed with the closest marker barc37 being located 4.0 cM distally of Sr13. Of the nine mapped markers, barc37 amplified an allele specific for the presence of Sr13 as shown by testing different cultivars and breeding lines. These newly developed markers will increase the efficiency of incorporating Sr13 into cultivars that are widely adopted, but susceptible to hazardous Ug99 and/or assist for the development of new elite lines that are resistant to Ug99.     

Differentiation of Physiologic Races of the Rice Blast Fungus, Pyricularia oryzae Cav. by PAGE-electrophoresis

Eighty-three isolates of the rice blast fungus (Pyricularia oryzae) were tested with respect to genetic diversity and the possibility of race differentiation by electrophoresis. The fungus was genetically very heterogeneous. The isolates were differentiated into 6 races by pathogenicity on race differential varieties. There was little correlation between pathogenicity and zymogram types of one particular enzyme such as esterase, phosphatase or catalase. The isolates were divided into 14 groups by the combination of the zymogram types of the three enzymes. The isolates in the same group showed similar pathogenicity. A new method is proposed which differentiates the blast fungus races by the combination of zymogram type of enzymes. The details, are discussed.