稻瘟病菌群体遗传结构的研究进展

稻梨孢引起的稻瘟病是世界水稻生产的最重要病害,严重影响水稻的产量和米质。文中综述了分子标记技术在稻瘟病菌群体遗传结构研究上的应用,分析了病原菌遗传宗谱的特点及其与致病谱的关系,探讨了导致稻瘟病菌群体遗传结构发生变化的相关因素。     

稻瘟病分子生物学研究进展

稻瘟病分子生物学发展迅速,已分子标记定位的稻瘟病主效抗性基因１５个,微效抗性基因３个;水稻抗稻瘟病基因Ｐｉ－ｔａ和Ｐｉ－ｂ已成功克隆。稻瘟病菌系谱与致病型关系可分为简单与复杂两种类型。本文对水稻抗稻瘟病基因的定位和克隆,稻瘟病菌群体遗传结构,致病性遗传、基因组分析、无毒基因克隆、准性生殖等研究进展进行了评述。     

稻瘟病菌群体的分子遗传学研究II.广东省2000年度稻瘟病菌群体遗传结构的时空特性

利用随机扩增多态性DNA技术对广东省2000年度稻瘟病菌群体的遗传结构进行了分析。以相似性系数为0.62阀值时,可将采集于广东省三大生态稻作区、早稻和晚稻生长季节的104个菌株划分为14个遗传宗谱;其中宗谱5和宗谱8的菌株数各占总数的25%,为优势宗谱;宗谱4和12的菌株数各占总数的14.4%和9.6%,为亚优势宗谱;其余的29个菌株,分别归属于其它10个宗谱,其中有5个宗谱是单菌株宗谱。本年度稻瘟病菌群体的遗传结构呈现明显的区域性特性:遗传结构呈由北向南多样化的趋势;各个稻作区甚或亚区有其特异性的宗谱。本年度稻瘟病菌群体的遗传结构也显示分明的生长季节特性:来源于早稻和晚稻生长季节的菌株完全分属于宗谱图的上下两个半区,彼此之间不存在共同的宗谱;而且后者的遗传宗谱要比前者的复杂、多样。研究还表明,虽然稻瘟病菌群体的遗传结构2000年度与1998-1999年度的比较存在较大的差异,但是两者仍然具有良好的相承性和可比性。如何进一步验证和把握稻瘟病菌群体的遗传结构所表现出的时空特性是值得我们进一步探讨的重要课题。     

稻瘟病菌群体的分子遗传学研究Ⅱ.广东省2000年度稻瘟病菌群体遗传结构的时空特性

利用随机扩增多态性DNA技术对广东省2000年度稻瘟病菌群体的遗传结构进行了分析。以相似性系数为0．62阀值时，可将采集于广东省三大生态稻作区、早稻和晚稻生长季节的104个菌株划分为14个遗传宗谱：其中宗谱5和宗谱8的菌株数各占总数的25％，为优势宗谱；宗谱4和12的菌株数各占总数的14．4％和9．6％，为亚优势宗谱；其余的29个菌株，分别归属于其它10个宗谱，其中有5个宗谱是单菌株宗谱。本年度稻瘟病菌群体的遗传结构呈现明显的区域性特性；遗传结构呈由北向南多样化的趋势；各个稻作区甚或亚区有其特异性的宗谱。本文度稻瘟病菌群体的遗传结构也显示分明的生长季节特性：来源于旱稻和晚稻生长季节的菌株完全分属于宗谱图的上下两个半区，彼此之间不存在共同的宗谱；而且后者的遗传宗谱要比前者的复杂、多样。研究还表明，虽然稻瘟病菌群体的遗传结构2000年度与1998－1999年度的比较存在较大的差异，但是两者仍然具有良好的相承性和可比性。如何进一步验证和把握稻瘟病菌群体的遗传结构所表现出的时空特性是值得我们进一步探讨的重要课题。     

水稻与稻瘟病菌相互作用研究进展

作为一种主要粮食作物,水稻的生产影响全球经济的稳步增长。各种生物、非生物胁迫威胁水稻的生长发育过程。稻瘟病菌Magnaporthe oryzae(syn.Pyricularia oryzae)为重要的农业病原微生物,其引起的稻瘟病是世界性水稻重要病害,给水稻生产造成严重产量损失。相对于传统的化学农药防治,培育抗稻瘟病水稻品种是比较环保、有效的病害防治策略,然而田间稻瘟病菌群体复杂多样,小种遗传变异速度很快,抗病水稻品种的种植年限和范围受限。因此,掌握水稻抗病机理和稻瘟病菌致病机制有助于制定更好的防治措施。水稻与稻瘟病菌的相互作用过程涉及了不同层次的植物免疫反应,根据近年来水稻和稻瘟病菌功能基因组学研究上的最新进展,侧重对水稻抗稻瘟病的分子机理和信号传导方面进行了综述,并展望了二者研究所面临的机遇和挑战,以期进一步推进水稻与稻瘟病菌互作的分子机理研究,并为水稻的抗病育种提供借鉴。     

稻瘟病菌AVR-pita等位基因的遗传多样性研究(简报)

由真菌Magnaporthe grisea引起的稻瘟病是我国水稻三大病害之一．也是遍及世界各水稻产区的重要病害．每年均有不同程度的发生．流行年份一般减产10％-20％．严重的达40％-50％．局部田块甚至颗粒无收。稻瘟病菌在进化过程中形成了遗传多样性和毒性易变的特性．是水稻品种抗病性容易丧失的主要原因之一。对稻瘟病系统研究的证据表明．水稻与稻瘟病菌之间的互作．符合“基因对基因”假说。也就是说．水稻有一抗病基因,稻瘟病菌中就会有相对应的无毒基因．     

稻瘟病菌群体的分子遗传学研究III.——广东省2001年度稻瘟病菌群体的遗传结构分析以及两个假说的提出

利用随机扩增多态性DNA技术(randomamplifiedpolymorphicDNA,RAPD)对广东省2001年度稻瘟病菌群体的遗传结构进行了分析。以相似性系数为0.70阈值时,可将采集于广东省三大生态稻作区、早稻和晚稻生长季节的96个菌株划分为12个遗传宗谱;其中宗谱8和9的菌株数各占总数的25%和18.8%,为优势宗谱。从稻作区来看,宗谱3和8为各个稻作区的共同宗谱;而宗谱1和2,7和11,以及9、10和12则依次是粤北、粤中和粤南稻作区的特异性宗谱。从生长季节来看,来源于早、晚季的菌株完全分属于宗谱图的上、下两个半区,彼此之间不存在共同的宗谱;而且两个优势宗谱都集中于晚季供试亚群体。结合前两次实验的结果,作者提出了如下两个假说来解释广东省稻瘟病菌群体所表现的遗传特性:一个地区或生长季节的病原菌群体,其优势宗谱所占的比例越高,该地区或生长季节病害发生就越严重;在长期的水稻栽培历史中,稻瘟病菌群体可能逐步地形成了早季宗谱(小种)和晚季宗谱(小种)的遗传分化。如何进一步验证上述两个假说是值得我们进一步探讨的重要课题。     

水稻稻瘟病抗性基因的克隆、育种利用及稻瘟菌无毒基因研究进展

稻瘟病是世界上影响水稻(Oryza sativa)粮食生产的主要病害之一, 抗病基因的发掘与利用是抗病育种的基础和核心。随着寄主水稻和病原菌稻瘟病菌(Magnaporthe oryzae)基因组测序和基因注释的完成, 水稻和稻瘟病菌的互作体系成为研究植物与真菌互作的模式系统。该文对稻瘟病抗病基因的遗传、定位、克隆及育种利用进行概述, 并通过生物信息学分析方法, 探讨了水稻全基因组中NBS-LRR类抗病基因在水稻12条染色体上的分布情况, 同时对稻瘟病菌无毒基因的鉴定及无毒蛋白与抗病蛋白的互作进行初步分析。最后对稻瘟病抗病基因研究存在的问题进行分析并展望了未来的研究方向, 以期为水稻抗稻瘟病育种发展和抗病机制的深入理解提供参考。     

稻瘟病菌致病性的分子遗传学研究进展

由稻瘟病菌引起的稻瘟病是水稻生产上危害最为严重的真菌病害,对世界粮食生产造成巨大损失。稻瘟病菌成功侵染寄主包括分生孢子萌发、附着胞形成、侵染钉分化和侵染性菌丝扩展等一系列错综复杂的过程,其中每一环节都是由特定基因控制的。稻瘟病菌与水稻的互作符合经典的基因对基因学说,二者的不亲和互作是无毒基因与抗病基因相互作用的结果。近几十年来,世界各国的科学家对稻瘟病菌致病性的生物学及其遗传的分子机制进行了深入的研究。文章就稻瘟病菌致病性的分子遗传学及其遗传变异机制的研究进行了综述,同时对功能基因的研究方法进行了总结。     

云南稻瘟病菌系谱与致病型的关系

为探究稻瘟病菌无性世代DNA水平的变异,寻找云南稻瘟病菌谱系(genetic lineage,G)和致病型之间的对应关系,根据稻瘟病菌散布的重复序列Pot2(Pyricularia oryzac transposon),对云南水稻主产区稻瘟病菌菌株DNA进行了rep-PCR(repetitive polymerase chain reaction)扩增,获得rep-PCR指纹。聚类分析将134个稻瘟病菌代表菌株划分为G1～G8等8个谱系,揭示云南水稻主产区稻瘟病菌无性系丰富的遗传多样性。进一步接种分析了8个谱系的29个稻瘟病菌菌株对33个云南主产区水稻品种的亲和性,依其毒性谱,采用STATISTICAL5．0软件的UP-GMA程序进行聚类分析,将其划分为P1～P6等6个致病型群(pathotype group)。结果表明同一谱系的稻瘟病菌菌株多数对应2～3个致病型群,少数1个或4个致病型群;但G1～G8等8个谱系中的部分菌株都可对应致病型群P2。因此,云南水稻主产区稻瘟病菌谱系和致病型群之间属于复杂关系类型。此外,33个水稻品种中的合系16和京国92抗全部29个稻瘟病菌株,云粳20和合系30对全部供试菌株表现感病,这对云南水稻主产区品种布局提供了稻瘟病抗性方面的依据。因此,从育种应用和生产实际需要出发,水稻品种抗瘟谱测定仍然必要。     

Maintenance of divergent lineages of the Rice Blast Fungus Pyricularia oryzae through niche separation,loss of sex and post-mating genetic incompatibilities

Many species of fungal plant pathogens coexist as multiple lineages on the same host, but the factors underlying the origin and maintenance of population structure remain largely unknown. The rice blast fungus Pyricularia oryzae is a widespread model plant pathogen displaying population subdivision. However, most studies of natural variation in P. oryzae have been limited in genomic or geographic resolution, and host adaptation is the only factor that has been investigated extensively as a contributor to population subdivision. In an effort to complement previous studies, we analyzed genetic and phenotypic diversity in isolates of the rice blast fungus covering a broad geographical range. Using single-nucleotide polymorphism genotyping data for 886 isolates sampled from 152 sites in 51 countries, we showed that population subdivision of P. oryzae in one recombining and three clonal lineages with broad distributions persisted with deeper sampling. We also extended previous findings by showing further population subdivision of the recombining lineage into one international and three Asian clusters, and by providing evidence that the three clonal lineages of P. oryzae were found in areas with different prevailing environmental conditions, indicating niche separation. Pathogenicity tests and bioinformatic analyses using an extended set of isolates and rice varieties indicated that partial specialization to rice subgroups contributed to niche separation between lineages, and differences in repertoires of putative virulence effectors were consistent with differences in host range. Experimental crosses revealed that female sterility and early post-mating genetic incompatibilities acted as strong additional barriers to gene flow between clonal lineages. Our results demonstrate that the spread of a fungal pathogen across heterogeneous habitats and divergent populations of a crop species can lead to niche separation and reproductive isolation between distinct, widely distributed, lineages.     

Genetic Structure of Pyricularia grisea (Cooke) Sacc. Isolates from Italian Paddy Fields

Rice blast disease, caused by the fungus Pyricularia grisea (Cooke) Sacc., is responsible for considerable damages in rice crops in Italy and in other parts of the world. This study was conducted in order to investigate the genetic structure of a P. grisea population in the Po area, the largest rice area in Italy. Rice leaves showing blast symptoms were collected in three successive years (1998–2000) and 43 P. grisea monoconidial culture samples were isolated from infected rice leaves. Fungal DNAs were obtained from mycelia. Moreover, six additional P. grisea DNA samples representative for the five characterized European lineages were also investigated. All 49 DNAs were fingerprinted using the Pot2‐based repetitive polymerase chain reaction specific for the blast pathogen. Unweighted pair‐group method with arithmetic averages cluster analysis shows the presence of three main Italian lineages. Within lineages, similarity was higher than 80%. Samples representative of the three of five known European lineages grouped within these three Italian lineages confirming the presence of three European lineages in Italy. Furthermore, cluster analysis shows the presence of two new haplotypes never found before in the Italian lineage.     

稻瘟病菌群体的分子遗传学研究I.广东省1998~1999年稻瘟病菌的遗传多样性

从80个随机引物中筛选到带型清晰、多态性及重复性均好的10个引物,对采自广东省1998-1999年四个自然生态稻作区的101个稻瘟病菌菌株进行随机扩增多态性DNA (Random Amplified Polymorphic DNA, RAPD) 指纹分析。10个引物共扩增出113条多态性带,表明广东省稻瘟病菌具有丰富的遗传多样性;RAPD分析可为该菌的遗传多样性分析提供大量的分子标记。对菌株间相似性系数和应用加权算术平均组对法 (Unweighted Pair Group Method using Arithmetic Average, UPGMA) 构建的聚类树状图进行分析,以相似性系数为0.62阀值时,可将101个菌株划分为14个遗传宗谱;其中宗谱1及宗谱2的菌株数占总数的80.2%,为优势宗谱; 其余的20个菌株分别归属于其他12个宗谱,由此说明广东省的稻瘟病病原菌群体既存在很突出的优势宗谱,又存在较多具遗传多样性的小宗谱。分析不同稻作生态区的菌株发现,每个稻作生态区既有共同的宗谱,又有其特异的宗谱;广东省稻瘟病菌群体遗传多样性的组成在不同生态稻作区是相对地比较稳定的。分析不同年份和早晚稻生长季节采集的菌株发现,广东省稻瘟病菌群体遗传多样性在年份和早晚稻生长季节之间也存在一定的特异性。     

Magnaporthe oryzae Populations Adapted to Finger Millet and Rice Exhibit Distinctive Patterns of Genetic Diversity, Sexuality and Host Interaction

In this study, host-specific forms of the blast pathogen Magnaporthe oryzae in sub-Saharan Africa (SSA) were characterised from distinct cropping locations using a combination of molecular and biological assays. Finger millet blast populations in East Africa revealed a continuous genetic variation pattern and lack of clonal lineages, with a wide range of haplotypes. M. oryzae populations lacked the grasshopper (grh) element (96%) and appeared distinct to those in Asia. An overall near equal distribution (47-53%) of the mating types MAT1-1 and MAT1-2, high fertility status (84-89%) and the dominance of hermaphrodites (64%) suggest a strong sexual reproductive potential. Differences in pathogen aggressiveness and lack of cultivar incompatibility suggest the importance of quantitative resistance. Rice blast populations in West Africa showed a typical lineage-based structure. Among the nine lineages identified, three comprised ~90% of the isolates. Skewed distribution of the mating types MAT1-1 (29%) and MAT1-2 (71%) was accompanied by low fertility. Clear differences in cultivar compatibility within and between lineages suggest R gene-mediated interactions. Distinctive patterns of genetic diversity, sexual reproductive potential and pathogenicity suggest adaptive divergence of host-specific forms of M. oryzae populations linked to crop domestication and agricultural intensification.     

Congruent population genetic structures and divergence histories in anther‐smut fungi and their host plants Silene italica and the Silene nutans species complex

Study of the congruence of population genetic structure between hosts and pathogens gives important insights into their shared phylogeographical and coevolutionary histories. We studied the population genetic structure of castrating anther‐smut fungi (genus Microbotryum) and of their host plants, the Silene nutans species complex, and the morphologically and genetically closely related Silene italica, which can be found in sympatry. Phylogeographical population genetic structure related to persistence in separate glacial refugia has been recently revealed in the S. nutans plant species complex across Western Europe, identifying several distinct lineages. We genotyped 171 associated plant–pathogen pairs of anther‐smut fungi and their host plant individuals using microsatellite markers and plant chloroplastic single nucleotide polymorphisms. We found clear differentiation between fungal populations parasitizing S. nutans and S. italica plants. The population genetic structure of fungal strains parasitizing the S. nutans plant species complex mirrored the host plant genetic structure, suggesting that the pathogen was isolated in glacial refugia together with its host and/or that it has specialized on the plant genetic lineages. Using random forest approximate Bayesian computation (ABC‐RF), we found that the divergence history of the fungal lineages on S. nutans was congruent with that previously inferred for the host plant and probably occurred with ancient but no recent gene flow. Genome sequences confirmed the genetic structure and the absence of recent gene flow between fungal genetic lineages. Our analyses of individual host–pathogen pairs contribute to a better understanding of co‐evolutionary histories between hosts and pathogens in natural ecosystems, in which such studies remain scarce.     

Assessment of Genetic Diversity in Thai Isolates of Pyricularia grisea by Random Amplification of Polymorphic DNA

One hundred and seventy‐four isolates of Pyricularia grisea were collected from various hosts such as barley, rice, weed and wild rice in Thailand. Seven arbitrary decamer primers from the set of University of British Columbia were employed and nine lineages were classified. Lineages B, C and H were predominant, contributing up to 70% of total pathogens in this study. Analysis showed that the distribution of each lineage differs from the predominant lineages across Thailand in such that other lineages were restricted in particular area. For instance, lineage A was limited only in southern Thailand, whereas wide distribution of lineages B and C reflected an influence of both biological and physical effects on pathogen variation. Principal component analysis resulted in a total of four groups of blast pathogen with small distinctions between barley‐, rice‐, weed‐ and wild rice‐infected blast. Bridging relationships occurred among border isolates of weed and rice blast suggesting a chance of migrations between hosts. Higher diversity was observed in northern, north‐eastern and central Thailand while eastern and southern parts were rather low. Genetic diversity indices elucidated an abundance of pathogen lineages existing in northern Thailand suggesting that it should be the centre of diversity.     

Population structure and diversity in sexual and asexual populations of the pathogenic fungus Melampsora lini

Many pathogens undergo both sexual and asexual reproduction to varying degrees, yet the ecological, genetic and evolutionary consequences of different reproductive strategies remain poorly understood. Here we investigate the population genetic structure of wild populations of the plant pathogen Melampsora lini on its host Linum marginale , using amplified fragment length polymorphism (AFLP) markers, two genes underlying pathogen virulence, and phenotypic variation in virulence. In Australia, M. lini occurs as two genetically and geographically divergent lineages (AA and AB), one of which is completely asexual (AB), and the other able to reproduce both clonally and sexually (AA). To quantify the genetic and evolutionary consequences of these different life histories, we sampled five populations in each of two biogeographical regions. Analysis of AFLP data obtained for 275 isolates revealed largely disjunct geographical distributions for the two different lineages, low genetic diversity within lineages, and strong genetic structure among populations within each region. We also detected significant divergence among populations for both Avr genes and virulence phenotypes, although generally these values were lower than those obtained with AFLP markers. Furthermore, isolates belonging to lineage AA collectively harboured significantly higher genotypic and phenotypic diversity than lineage AB isolates. Together these results illustrate the important roles of reproductive modes and geographical structure in the generation and maintenance of virulence diversity in populations of M. lini .