辽宁省稻曲病菌遗传多样性和致病力分析

为有效防治辽宁省稻曲病菌Ustilaginoidea virens,利用重复序列PCR(repetitive elementbased PCR,rep-PCR)分子指纹技术,对2017年自辽宁省8个市8个主产稻区采集的51株稻曲病菌菌株进行遗传多样性和致病力分析。结果显示,在3对引物中,以BOX1/BOX2和ERIC1/ERIC2为引物扩增的DNA指纹图谱的遗传多样性值分别为0.764、0.707,均大于0.7,故选择这2种引物扩增的DNA指纹图谱进行遗传多样性分析;当DNA指纹相似系数为0.78时,以BOX1/BOX2为引物和以ERIC1/ERIC2为引物扩增的DNA指纹图谱分别将供试菌株划分为12个和10个遗传类群;供试菌株致病力可划分为弱致病型、中等致病型和强致病型3个致病型,所占比例分别为33.33%、58.82%和7.85%,强致病型菌株仅在沈阳市、鞍山市和大连市出现;所有优势类群均包含3种致病型菌株。表明辽宁省稻曲病菌遗传结构复杂,不同地理来源的稻曲病菌菌株致病力存在一定差异,相同致病型的稻曲病菌菌株分属于不同的遗传类群,同一遗传类群中包含不同的致病型菌株。     

甘肃省大麦条纹病菌遗传多样性及致病力差异

为了解甘肃省大麦条纹病病原菌Pyrenophora graminea的遗传多样性及致病力差异,运用RAPD分子标记技术对大麦条纹病菌不同菌株进行遗传多样性分析,并采用三明治法进行菌株致病力差异研究。结果表明:17个RAPD标记从45个菌株中扩增出126条带,平均每个标记7.41条带,遗传相似系数范围为0.468 3～0.984 1,平均值为0.830 8,当遗传相似系数为0.723 6时,可将供试菌株划分为4个类群,分别包含41、2、1和1个菌株;致病力测定结果显示菌株QWC较菌株QQ致病力强,两菌株除在品种‘甘啤2号’和‘GP-3’上无致病力外,在其他供试品种上致病力均存在差异。表明大麦条纹病菌不同菌株间存在遗传差异,且菌株QWC和菌株QQ存在致病力差异。     

香蕉枯萎病菌致病力分化与ISSR遗传多样性分析

香蕉枯萎病是一种破坏香蕉维管束的全株性土传病害。本研究旨在探讨香蕉枯萎病菌致病力分化和遗传多样性。以30株采自我国广西的香蕉枯萎病菌,16株分别来自澳大利亚和我国广东、海南、福建、云南等地的香蕉枯萎病菌为对象,采用伤根灌淋法测定香蕉枯萎病菌的致病力,然后用筛选到的ISSR引物对46个香蕉枯萎病菌菌株和4个对照菌株(3个非致病性尖孢镰刀菌和1个茄腐镰刀菌)进行ISSR遗传多样性分析。结果显示,分离到广西香蕉枯萎病菌1号生理小种(FOC1)8株,致病力强、中、弱类型比例分别为62.5%、12.5%和25%;广西香蕉枯萎病菌4号生理小种(FOC4)22株,致病力强、中、弱类型比例分别为18.18%、63.64%和18.18%。14条ISSR引物扩增出237个条带,多态性条带161个,多态性比例为67.93%,遗传相似系数0.76～0.96。聚类分析显示,以遗传距离0.80为阈值时菌株被分为8个类群,所占比例分别为4%、10%、60%、16%、4%、2%、2%、2%。第三类群全部为香蕉枯萎病菌4号生理小种。第一、二、四和五类群总量的70.59%为香蕉枯萎病菌1号生理小种。第八类群为香蕉枯萎病菌3号生理小种。结果表明,在香蕉枯萎病菌与寄主协同进化中,广西的FOC1和FOC4出现明显致病力分化。1号生理小种的遗传多样性比4号生理小种丰富。广西香蕉枯萎病菌4号生理小种与海南、广东的FOC4遗传相似性较高。香蕉枯萎病菌生理小种类型与遗传多样性相关。致病力变异与遗传多样性无相关性。研究结果对香蕉枯萎病菌种群扩张机制探讨、遗传动态分析以及有效防控措施的制定具有一定的指导意义。     

辽宁稻区稻曲病菌生物学特性及遗传多样性分析

为明确采自辽宁省12个稻区稻曲病菌Ustilaginoidea virens的生物学特性、群体遗传多样性与地理区域的关系。本研究采用生物学方法测定稻曲病菌菌株的生长速率和产孢能力,并采用SPSS 20.0分析软件对稻曲病菌菌株的菌丝生长速率和产孢能力进行相关性分析。提取稻曲病菌基因组DNA,采用特异性引物US、交配型引物MAT、遗传多样性引物ERIC对其进行PCR扩增,通过聚类分析进行群体遗传多样性研究。结果显示:157个稻曲病菌菌株的菌丝生长速率与产孢能力相关系数为0.19。采用稻曲病菌特异性引物US进行扩增,157个菌株均为稻曲病菌株;采用交配型引物MAT进行扩增,53个菌株为MATⅠ型,104个菌株为MATⅡ型。采用ERIC引物可扩增出2~7条不等的条带,157个稻曲病菌株被划分为10个基因类群,其中第1类群为优势类型,有44个菌株,占总数的28.0%;第2类群有20个菌株,占总数的12.7%;第3类群1个菌株,占总数的0.6%;第4类群1个菌株,占总数的0.6%;第5类群有21个菌株,占总数的13.4%;第6类群有17个菌株,占总数的10.8%;第7类群有2个菌株,占总数的1.2%;第8类群有5个菌株,占总数的3.2%;第9类群有30个菌株,占总数的19.1%;第10类群有16个菌株,占总数的10.2%。来自辽宁省12个稻区的157个稻曲病菌株菌丝生长速率与菌株产孢量之间没有相关性,产孢量与地域之间有相关性。基于ERIC-PCR扩增的稻曲病菌株基因组DNA指纹图谱的多态性进行划分的基因类群与地理区域之间有相关性,基因类群与生物学特性之间没有相关性。     

安徽省水稻条斑病菌群体遗传结构分析

 水稻条斑病菌是近年来影响安徽水稻生产的主要有害生物。本研究利用rep-PCR指纹技术分析了来自安徽11个不同县市的水稻条斑病菌群体遗传结构。用引物BOX、REP和ERIC分别对94个菌株的基因组DNA进行了PCR扩增,结果表明3组引物共扩增出了49条指纹条带,且所扩增出的DNA条带均为多态带。在群体平均水平上,安徽省水稻条斑病菌群体Nei’s基因多样性指数(H)为 0.32,Shannon 信息指数(I)为 0.49,表明安徽省水稻条斑病菌的遗传多样性丰富,但病菌的遗传多样性在地区间存在差异。UPGMA聚类分析表明,来自毗邻地区的水稻条斑病菌种群大都聚为一类,水稻条斑病菌种群遗传谱系与地理区域分布呈现一定相关性。同时,安徽省水稻条斑病菌群体存在一定的遗传分化,遗传变异主要来源于群体内部。     

陕西省苹果树腐烂病菌基因多态性的ISSR分析

为了从分子水平上揭示苹果树腐烂病菌的群体遗传多样性,采用正交设计对ISSR-PCR体系进行了4因素3水平的筛选,并从47条ISSR引物中筛选出11条多态性较好的引物。对供试的87个分离株进行扩增的结果显示,11条引物在129个位点扩增出稳定的条带,其中多态性位点119个,多态性位点率为92.25%。POPGENE分析显示,病菌种群的遗传多样性和基因多态性丰富,群体间的遗传分化系数(Gst)为0.109,群体内为0.891,群体内多样性大于群体间多样性。两个地理种群间的居群每代迁移数(Nm)为2.046,两者之间存在广泛的基因交流。在遗传相似系数为0.88时,可将21个自然种群划分为9个不同的类群,表明陕西省苹果树腐烂病菌的各个自然种群之间的遗传亲缘关系与其地理来源之间无明显的相关性。     

西瓜枯萎病菌遗传多样性的相关序列扩增多态性分析

对30个西瓜枯萎病菌Fusarium oxysporum f.sp.niveum菌株基因组DNA进行相关序列扩增多态性(SRAP)分子标记分析,以探究其遗传多样性与地理来源的关系。采用尖孢镰刀菌西瓜专化型Fusarium oxysporumf.sp.niveum0、1、2号生理小种的基因组DNA为模板,对225对SRAP引物进行筛选,筛选出20对多态性、重复性较好且条带清晰的引物,对30个菌株进行PCR扩增,共扩增出386条带,其中多态性条带有371条,多态性比率为96.11%,平均每对引物扩增出19.3个位点和18.55个多态性位点。UPGMA法聚类分析结果显示,供试菌株两两之间的遗传相似系数范围为0.69~0.90,平均为0.79,说明尖孢镰刀菌西瓜专化型的遗传多样性较为丰富。基于SRAP标记聚类分析表明,30个菌株在遗传相似系数为0.70处被划分为3个类群,I类群包含24个菌株,其中18个来自湖南省,Ⅱ类群只包含1个来自黑龙江省哈尔滨市的菌株,它和另一个来自黑龙江地区的菌株被划分到不同的类群,且遗传距离相对较远;Ⅲ类群包含了5个菌株,其中3个来自海南三亚,其余两个来自湖南省。根据菌株的分布情况来看,菌株的聚集与地理来源没有明显的相关性。     

甘肃省大麦条纹病病原菌致病力分化、rDNA-ITS及遗传多样性分析

为明确甘肃省大麦条纹病病原菌麦类核腔菌Pyrenophora garminea的致病力分化、r DNA-ITS序列特征及变异,采用"三明治"法测定甘肃省大麦条纹菌的致病力,通过r DNA-ITS序列分析菌株间变异类型,并对菌株进行ISSR遗传多样性分析。结果表明,共筛选到43株大麦条纹病菌,生长7 d后的菌落直径为2.60~7.93 cm,其中菌株TB生长速度最快,菌株JT生长速度最慢,强、中等和弱致病力菌株分别为2、21和20株;43株菌的核糖体DNA-ITS序列与麦类核腔菌菌株SMCD2015同源性在99%以上;在9个菌株中检测到15个变异位点,共17种变异类型;8个ISSR标记从43个菌株中扩增出41条带,平均每个标记5.13条带,90.24%片段具有多态性,遗传相似系数为0.44~1.00,平均值为0.71,当遗传相似系数为0.68时,可将供试菌株划分为4个类群。表明甘肃省大麦条纹病病原菌存在致病力分化,菌株核糖体DNA-ITS序列变异丰富,且菌株间遗传结构复杂。     

宁夏马铃薯镰刀菌根腐病病原菌的ISSR-PCR标记体系建立及其遗传多样性分析

为明确宁夏马铃薯镰刀菌根腐病病原菌种内的遗传差异与亲缘关系，利用ISSR-PCR技术对影响PCR扩增效果的因素和ISSR引物进行优化和筛选，建立适合马铃薯镰刀菌根腐病病原菌的ISSR-PCR反应体系，并通过ISSR分子标记技术对30株地理来源不同的镰刀菌进行遗传多样性分析。结果显示：马铃薯镰刀菌根腐病病原菌的ISSR-PCR扩增最适引物为807，20 μL反应体系中2×Easy Taq PCR Super Mix为8 μL、引物浓度为0.6 μmol/L、DNA模板浓度为56 ng/μL，循环次数为36次，退火温度为54℃。在选用的18条ISSR引物中有13条对30株镰刀菌扩增出84条条带，大小多分布在250~2 000 bp之间，其中多态性条带为82条，多态性比例平均为98.3%。30株镰刀菌的遗传相似系数在0.349~0.976之间，在0.478水平上可划分为2个类群，其中类群I包括尖孢镰刀菌Fusarium oxysporum、木贼镰刀菌F.equiseti、茄病镰刀菌F.solani和锐顶镰刀菌F.acuminatum；类群II全部为接骨木镰刀菌F.sambucinum；在0.976水平上30株镰刀菌可被全部区分开。ISSR类群划分与菌种分类之间存在一定相关性，同一类群不同菌株之间的遗传相似性与菌株地理来源存在一定的相关性；分离自同一地区的同一菌种，其菌株间也存在一定的遗传差异性。     

我国玉米灰斑病菌遗传多样性的ISSR分析

为明确我国发生的玉米灰斑病菌地理差异及遗传结构,利用简单序列重复区间(ISSR)对玉米灰斑病菌遗传多样性进行了分析,并利用尾孢菌特异引物对分离自四川、云南、湖北、贵州等西南地区的16个玉米灰斑病菌菌株进行了分子鉴定。结果显示,通过ISSR标记筛选出10个扩增多态性好且稳定的通用引物,共扩增出81条DNA条带,均为多态性条带,扩增片段大小在200~2 000 bp之间,菌株遗传相似系数为0.19~1.00。在遗传相似系数为0.19时,供试菌株被聚为2大类群,来自西南地区和东北地区的菌株各自聚为一组,在DNA水平上表现出明显差异,认为是2类不同的致病类群。分子鉴定结果显示引起西南各地区玉米灰斑病的主要致病菌均为玉米尾孢菌Cercospora zeina。表明我国玉米灰斑病菌存在丰富的遗传多样性,ISSR标记可揭示出玉米灰斑病菌株间的亲缘关系及遗传差异性,可用于其遗传多样性研究。     

甘薯茎腐病的研究进展

甘薯茎腐病是由达旦提狄克氏菌Dickeya dadantii Samson et al.引起的细菌性甘薯病害,属于我国新发生病害,其蔓延迅速、防治困难,严重影响甘薯的品质和产量,已成为我国南方甘薯产区主要病害之一。文章对该病症状、病原菌分类、致病机制、全基因组测序概况和防治措施等方面的研究进展进行了综述,并指出了今后的研究方向。     

中国湛江市和哈尔滨市褐家鼠种群遗传结构及其年度变化特征

为探索褐家鼠Rattus norvegicus地理种群的遗传结构及其年度变化特点,本研究以广东省湛江市的褐家鼠指名亚种和黑龙江省哈尔滨市的褐家鼠东北亚种为主要研究对象,结合我国及世界其他褐家鼠种群的D-loop序列分析这2个褐家鼠地理种群间D-loop序列的遗传分化情况及系统进化关系,重点分析2008—2015年褐家鼠湛江种群和哈尔滨种群D-loop单倍型的年度频率变化特点。结果表明,褐家鼠湛江种群和哈尔滨种群共有32种不同的单倍型,其中有11种单倍型是2个种群共有的,有4种单倍型仅在湛江种群中出现,有17种单倍型仅在哈尔滨种群中出现。褐家鼠湛江种群D-loop区的核苷酸多态性为0.005,有27个变异位点,单倍型多态性为0.695,褐家鼠哈尔滨种群D-loop区的核苷酸多态性比湛江种群略高,为0.008,有35个变异位点,单倍型多态性为 0.793。褐家鼠湛江种群和哈尔滨种群没有经历过暴发性的扩增。褐家鼠湛江、哈尔滨和湖北3个地理种群的D-loop序列之间发生了明显的遗传分化,其中湛江种群和哈尔滨种群之间的分化程度最高,遗传分化系数F_st为0.245。褐家鼠湛江种群和哈尔滨种群的单倍型数目和主单倍型频率都发生明显波动,推测主要原因可能是由于灭鼠剂的大量使用或其他灭鼠活动导致种群出现瓶颈或更替的现象。     

中国及欧洲各国的苹果蠹蛾种群遗传多样性分析

为研究不同国家和地区苹果蠹蛾Cydia pomonella种群的遗传多样性,对采自我国新疆维吾尔自治区和黑龙江省,以及德国、法国和西班牙等欧洲国家的11个种群共60个苹果蠹蛾个体进行基因组重测序,有效测序样本数为56个,共获得8 455 843个群体单碱基突变（single nucleotide polymorphism,SNP）位点。利用SNP数据进行了苹果蠹蛾群体遗传进化树的构建、主成分分析以及遗传结构分析。结果显示,入侵我国黑龙江省的苹果蠹蛾与德国BD种群更为接近,我国新疆维吾尔自治区与黑龙江省苹果蠹蛾种群有一定的分化,前者种群遗传多样性更低。表明我国东北地区和西北地区的苹果蠹蛾种群具有不同的遗传多样性特征,入侵我国的苹果蠹蛾种群可能来源于欧洲。     

西双版纳自然保护区球孢白僵菌的遗传多样性

为了解西双版纳自然保护区球孢白僵菌Beauveria bassiana的遗传多样性,采用SSR分子标记技术对西双版纳自然保护区的240株球孢白僵菌的遗传结构、基因流、菌株分化以及遗传变异相关性进行了测定和分析。结果表明,9条引物扩增240株球孢白僵菌菌株多态位点数为77个,多态位点比率为97.40%。采集的240株球孢白僵菌的总体等位基因数、有效等位基因数、Nei’s基因多样性指数和Shannon信息多样性指数分别为1.97、1.31、0.18和0.29。从寄主居群来看,鞘翅目昆虫球孢白僵菌群体遗传多样性最高,螳螂目最低,其Nei’s基因多样性指数和Shannon信息多样性指数分别为0.20和0.30、0和0;总遗传变异的29.27%存在于寄主居群间。从生境水平来看,五十五生境中球孢白僵菌群体遗传多样性最高,丫口寨生境中最低,其Nei’s基因多样性指数和Shannon信息多样性指数最高分别为0.19和0.31、0.06和0.09;总遗传变异的14.92%存在于生境居群间。从季节水平来看,球孢白僵菌秋季居群的遗传多样性最高,夏季最低,其Nei’s基因多样性指数和Shannon信息多样性指数分别为0.20和0.32、0.17和0.26;总遗传变异的3.45%存在于季节居群间。表明西双版纳自然保护区球孢白僵菌在寄主昆虫、生境分布和季节间存在明显的遗传多样性,与寄主昆虫类群的关系密切。     

Genetic Structure of Mycosphaerella graminicola Populations from Iran, Argentina and Australia

Restriction fragment length polymorphism (RFLP) markers were used to assess the genetic structure of populations of Mycosphaerella graminicola collected from wheat fields. A total of 585 isolates representing 10 field populations were sampled from Iran, Argentina and Australia. The genetic structure of M. graminicola populations from Iran and Argentina is described for the first time. Results were compared to previously investigated populations from Israel, Uruguay and Australia. Populations from Iran exhibited high clonality and low gene diversity, suggesting an inoculation event. Populations from uninoculated fields in Argentina had gene and genotype diversities similar to previously described European and North American populations. Genotype diversity was high for populations from Australia and tests for multilocus associations were consistent with sexual recombination in these populations. Gene diversity was low and fixed alleles were found for several loci. These findings are consistent with a relatively small founding population for Australia. These 10 new populations were integrated into a genetic distance comparison with 13 global populations that were characterized earlier.     

Genetic structure of populations of Rhizoctonia solani AG‐4 from five provinces in Iran

Rhizoctonia solani anastomosis group 4 (AG‐4) is a serious pathogen causing damping off and root rot in many important crop plants. A total of 190 isolates of R. solani AG‐4 HG‐I were collected from host fields in five provinces of Iran. The genetic structure of this pathogen was evaluated using seven microsatellite loci, focusing particularly on geographic differentiation. Most of the multilocus genotypes (MLGTs) were unique, with few MLGTs shared among populations. High to moderate levels of gene flow among populations was indicated by low to moderate differentiation between pairs of populations based on the fixation index (F_ST). Gametic equilibrium of most pairs of microsatellite loci and moderate genotypic diversity were found for two out of five populations, indicating that these populations were sexually recombining in structure. High genotypic diversity, moderate clonal fractions and site‐specific genotypes were consistent with mixed reproductive systems for the remaining populations. The findings of departures from Hardy–Weinberg (HW) equilibrium, gametic disequilibrium and a significant excess of homozygotes in half or more than half of the loci were probably caused by the presence of null alleles and the Wahlund effect. This is the first study to consider the population genetics of the root and crown rot pathogen R. solani AG‐4.     

Pathogenicity variation and DNA polymorphism of Bipolaris sorokiniana infecting winter wheat in the Huanghuai floodplain of China

Wheat root rot, caused by Bipolaris sorokiniana, has led to severe losses of wheat products worldwide. To evaluate the pathogenicity and genetic variation of B. sorokiniana, diseased wheat samples were collected from 97 locations in the Huanghuai floodplain of China in 2014 and 2015 for analysis. A total of 673 isolates were obtained, 262 of which were identified as B. sorokiniana. Pathogenicity analysis of the isolates revealed variation in pathogenicity, which was not directly correlated with geographic region. Large variations in pathogenicity were also found within geographic groups. To determine the genetic structure of the populations, PCR was performed with universal rice primers (URP). Cluster analysis based on amplification patterns showed that the classified groups were correlated with geographical regions. Thus, analysis of the genetic diversity of the population indicated a negative correlation with geographic origin, that is, the greater the distance between sites, the lower the genetic variation similarity coefficient. Identification of wheat germplasm resistance showed that resistant cultivars accounted for a low percentage, while susceptible and highly susceptible cultivars were in the majority. Overall, these results are meaningful for developing strategies to prevent and control wheat root rot.     

Identification of fungal pathogens and analysis of genetic diversity of Fusarium tricinctum causing root rots of alfalfa in north-east China

Alfalfa root rot is a devastating disease complex found worldwide. Population structure and genetic diversity of fungal pathogens causing alfalfa root rot in north-east China are not well understood. In this study, 480 fungal isolates were collected from six major alfalfa-growing regions in Heilongjiang province, China. They were identified as Fusarium tricinctum, F. oxysporum, F. acuminatum, F. solani, F. equiseti, Phoma medicaginis, Plectosphaerella cucumerina, Alternaria alternata, and Chaetomium globosum and caused root rot on alfalfa in greenhouse studies. F. tricinctum was the predominant species among the isolates, and P. medicaginis and C. globosum had not previously been reported causing alfalfa root rot in north-east China. Of the 73 F. tricinctum isolates identified, the majority were moderately or highly aggressive on alfalfa. No isolate of F. tricinctum was sensitive to carbendazim (1 and 10 μg/ml), indicating that, although commonly used, it is not suitable for management of the disease in this area. F. tricinctum isolates were analysed using AFLP markers and divided into eight genetic groups with 28 pairs of primers. Analysis of molecular variance indicated significant correlation between genetic groups of F. tricinctum isolates and their geographical locations or aggressiveness. Pairwise comparison and STRUCTURE analysis also indicated that geographical locations and aggressiveness of isolates had a significant effect on population differentiation. This study provides insight into the genetic diversity and reproductive biology of F. tricinctum, enhances understanding of the population diversity of alfalfa root rot pathogens in north-east China, and facilitates development of effective strategies for managing this destructive disease complex.     

Genetic Variability and Population Structure of the Wheat Foot Rot Fungus, Fusarium culmorum, in Tunisia

The random amplified polymorphic DNA (RAPD) method was used to investigate the genetic variability and population structure of Fusarium culmorum isolated from wheat stem bases. A total of 108 isolates, representing seven geographically distinct populations, was collected from five climatic regions in Tunisia. Pseudo-allelic frequencies were estimated at each of the 25 putative RAPD loci analyzed by scoring for the presence or absence of amplified fragments; 92 haplotypes were found among the 108 strains. The analysis of the population structure did not reveal any trend with regard to geographic origin. Total gene diversity (H_T ^* = 0.318) was mostly attributable to diversity within populations (H_S ^* = 0.308). Analysis of molecular variance confirmed that most of the genetic variability was within populations. Genetic differentiation among populations was low to moderate (G_ST ^* ranged from 0 to 0.190 and averaged 0.041 over all loci). Cluster analysis with UPGMA using genetic distances did not reveal any spatial clustering of the isolates collected from the different geographic regions. Based on these results, we conclude that the F. culmorum isolates recovered from different regions in Tunisia might be part of a single population pool.