大麦抗条纹病基因的定位分析     

司二静  张宇  孟亚雄  李葆春  马小乐  王化俊 《植物保护学报》2019,46(4):723-729

为发掘大麦中抗条纹病的新基因,采用三明治法通过人工接种大麦条纹病菌Pyrenophora graminea强致病力菌株QWC对甘啤2号(免疫)与Alexis(高感)杂交F_1代及F_2代分离群体进行抗性遗传分析,利用群体分离分析法鉴定与抗病基因连锁的SSR标记,并通过QTL IciMapping软件构建遗传连锁图谱完成对抗病基因的定位。结果显示,甘啤2号与Alexis杂交F_1代对大麦条纹病菌强致病力菌株QWC表现为免疫,F_2代表现3∶1抗感分离,表明甘啤2号对菌株QWC的抗性由1个显性抗性基因控制,将该抗病基因暂命名为Rdg3;该基因位于大麦7H染色体上的SSR标记Bmag206和Bmag7之间,与二者的遗传距离分别为1.78 cM和2.86 cM。经与已定位于7H染色体上的抗病基因比较,发现Rdg3是一个新的抗条纹病基因,可作为大麦抗病育种的新种质资源。  相似文献   

我国大麦条纹病菌(Pyrenophora graminea)群体遗传多样性AFLP分析     

李登辉  郭焕强  马丽  马东方  王凤涛  冯晶  蔺瑞明  徐世昌 《植物保护》2016,42(4):71-76

条纹病是重要的种传真菌病害之一,能对大麦生产造成严重产量损失。本研究利用AFLP方法对来自青海、河南等10省份大麦种植区的条纹病菌菌株进行遗传多样性分析,从分子水平上揭示我国不同大麦产区的条纹病菌群体遗传差异。结果显示,利用8对AFLP选择性引物组合对19份大麦条纹病菌进行了全基因组多态性扩增,共获得144条可统计的条带,其中112条具有多态性,多态性条带占77.8%。在相似系数为0.83时,可将19份大麦条纹病菌菌株划分为4个类群,多数菌株聚类在类群Ⅰ和类群Ⅱ中,类群Ⅲ和类群Ⅳ中仅各包含1个菌株,且与其他2个类群中的成员亲缘关系较远。因此,我国大麦条纹病菌群体中存在一定程度的遗传变异。另外,发现菌株间亲缘关系远近与其分布地域无明显规律。  相似文献   

玉米抗南方锈病种质标记基因型鉴定与遗传多样性分析   总被引：1，自引：1，他引：0  

段灿星  江凯  秦子惠  孙素丽  宋凤景  王晓鸣 《植物保护学报》2015,42(6):899-907

为阐明玉米抗南方锈病种质的标记基因型和遗传背景,利用7个与玉米抗南方锈病3个基因连锁的SSR标记鉴定了38份抗病玉米种质的标记基因型,并采用40个多态性SSR标记对39份抗南方锈病的玉米自交系和6个标准测验种进行了遗传多样性研究。结果表明,7个与抗病基因连锁的SSR标记将38份抗病种质鉴定为17种标记基因型,表明可能存在多样的抗性基因组合方式;辽2204等9份种质仅扩增出齐319的标记基因型,沈136和W456仅扩增出W2D的标记基因型;种质LO932未扩增出与齐319、P25和W2D相同的标记,可能携带新的抗南方锈病基因;相近遗传背景的抗性种质分属不同的标记基因型,表明抗病种质可能携带的抗南方锈病基因在育种选择中发生了分离。40对多态性SSR引物在45份自交系中共检测出115个等位基因变异,平均每对引物检测到2.88个等位基因,变异范围为2~4;平均多态性信息含量为0.4649,变化范围为0.1258~0.6951;通过UPGMA聚类分析,39份抗病材料被划分到以标准测验种为代表的6个杂种优势亚群中,与系谱分析基本一致,这为在育种中合理利用抗源提供了信息。  相似文献   

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     

司二静  杨淑莲  李葆春  马小乐  王生荣  王化俊 《植物保护学报》2017,44(1):84-92

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。  相似文献   

华东地区水稻品种条纹叶枯病抗性鉴定     

李金军  陶荣祥  石建尧  郝中娜  高荣村  李林川 《植物保护学报》2011,38(3):221-226

为了丰富水稻条纹叶枯病的抗性资源和加快条纹叶枯病抗性品种培育,对69份来自华东及华南地区的籼粳不同亚种材料,在浙江、江苏两地进行苗期人工接虫和大田自然诱发筛选条纹叶枯病抗性资源.11份材料表现出较好的条纹叶枯病抗性,抗性水平与目前华东地区广泛利用的抗源镇稻88相当,且抗性表现为显性遗传.分子标记鉴定发现,其中3份材料与镇稻88抗性位点一致,而其余材料与镇稻88不同.这些抗性材料育成的后代抗性好、产量高,是培育江浙沪等晚粳稻区条纹叶枯病抗性品种的优质亲本.  相似文献   

基于转录组的小豆SSR分子标记开发及其应用     

徐晓丹  冷淼  张明媛  柯希望  殷丽华  左豫虎 《干旱地区农业研究》2023,(1):13-18

为了开发小豆SSR(Simple Sequence Repeats)分子标记,2019—2020年,利用微卫星识别工具MISA和软件Primer 3搜索小豆资源QH1转录组测序得到的Unigene,获得3 045个SSR分子标记,通过对标记的重复基序特点分析,发现标记的重复基序以单核苷酸重复、二核苷酸重复和三核苷酸重复为主,分别占标记总数的41.2%、26.4%和25.6%。利用可以锚定到小豆基因组并能成功设计引物的标记,构建了包括1 505个SSR分子标记的物理图谱。从以上1 505个标记中,随机选取分布于小豆11条染色体上的132个SSR标记进行有效性验证,发现有效扩增的标记为118个,有效率为89.4%。通过多态性标记筛选,获得6个多态性标记,利用这6个标记对36份小豆品种进行聚类分析,发现供试小豆材料可以分为4个类群。说明开发的SSR分子标记能够分析小豆的遗传背景差异,为小豆种质资源鉴定、遗传多样性分析以及优良性状基因定位研究提供可用的分子标记。  相似文献   

青稞种质资源对条纹病的抗性鉴定          下载免费PDF全文

康胜华  侯璐 《植物保护》2024,50(1):286-294

条纹病是青藏高原青稞生产上的重要种传病害之一, 常采用药剂拌种防治，但培育和推广抗病品种是防控该病害最经济有效的措施。为发掘抗条纹病的优良青稞种质资源, 本研究以田间鉴定和利用2个菌株室内人工接种鉴定相结合的方法, 对231份青稞种质资源进行了抗条纹病评价, 获得免疫性遗传资源材料20份, 高抗类型材料18份, 中抗类型材料44份, 分别占鉴定总资源数的8.7%、7.8%、19.1%;其他149份青稞资源材料对条纹病表现为感病, 其中36份材料为中度感病类型, 113份材料为高度感病类型, 感病材料占总鉴定材料的64.5%。  相似文献   

大麦种质对叶斑病的抗性鉴定与评价   总被引：1，自引：0，他引：1  

姚全杰  郭焕强  陈琳  郎晓威  郭刚刚  刘秀峰  王凤涛  冯晶  徐世昌  蔺瑞明 《植物病理学报》2019,49(1):75-82

 由麦根腐平脐蠕胞菌引起的叶斑病在世界各大麦种植区均有发生,严重影响大麦的产量和品质。选育和应用抗性品种是防控该病害最有效的策略,然而可利用的抗源非常有限。在本研究中对中国233份具有代表性的大麦种质资源进行成株期抗叶斑病田间人工接种鉴定,发现只有垦啤麦5号等10份材料对3个供试菌株都表现抗病,仅占供试材料的4.3%。另外对37份国内外重要的叶斑病抗源材料进行苗期及成株期抗叶斑病鉴定,结果显示成株期抗叶斑病材料所占比例为41%~46%,苗期抗性材料所占比例为50%~64%,其中ND17293等11份材料在苗期和成株期对3个菌株均表现为抗病,可作为抗源继续加以利用;基于上述鉴定结果,进一步分析发现供试大麦苗期对三个菌株的抗病比例均高于成株期抗病比例,说明大麦在不同生育期对叶斑病的抗性存在较大差异。另外发现大麦对B. sorokiniana不同致病类型的抗性也存在明显的专化性。  相似文献   

四川水稻抗稻曲病种质资源筛选和多态性分析     

黄富  李燕  石军  樊晶  李德强  徐永菊  王文明 《植物病理学报》2016,46(2):247-257

 稻曲病近年来逐步上升为世界多个水稻产区的主要病害之一。利用丰富的抗性种质资源进行抗性品种选育是控制稻曲病害的重要手段。通过在四川省进行三年病圃筛选试验,我们从843份水稻材料中鉴定出179份完全不感稻曲病的抗性材料和两份高感材料(病穗率高达50%以上),其余材料的病穗率介于0.1%~48.8%之间,55.1%的病穗只有一个稻曲球,而高感稻曲病的蒲江6号单穗稻曲球高达38粒。然后我们选取36份材料进行多点多期播种,进一步验证其稻曲病抗感性。结果表明,有3份材料在所有试验中都不感稻曲病,18份材料偶发稻曲病呈现高抗,蒲江6号仍然表现为高感。我们用450对SSR引物对其中35份材料与蒲江6号进行多态性分析,发现其中12份材料与蒲江6号的多态性达10%以上,其中最高为ITAT144(16.1%),其次是泸香90-2(14.8%)和Domsia-2(14.4%)。因此,我们选择这些材料与蒲江6号杂交构建基因定位与克隆群体。  相似文献   

大麦条纹病菌致病性分析及抗性种质精细鉴定     

朱靖环  华为  吴宽然  汪军妹  尚毅  杨建明 《植物保护学报》2020,47(3):553-561

为探明大麦条纹病菌Pyrenophora graminea的致病性差异,鉴定筛选抗病大麦种质材料,将15株大麦条纹病菌菌株通过三明治法种子幼芽接种至5个鉴别品种,分析菌株的致病性分化情况;通过在田间孢子喷雾穗部接种和三明治法种子幼芽接种对145个田间种植表现抗病品种进行抗条纹病精细鉴定。结果显示,15株菌株对5个鉴别品种致病性有一定差异,可划分为9个致病类型,其中致病类型Ⅱ、Ⅲ和Ⅳ为优势致病类型,每个致病类型菌株数均占总菌株数的20.0%,其它致病类型的菌株均占总菌株数的6.7%;致病类型Ⅰ菌株致病力最强,对5个鉴别品种表现高感。孢子悬浮液喷雾接种田间试验结果显示,90个大麦品种表现为抗病,占总数的62.1%,其中表现免疫的品种12个、高抗品种26个、中抗品种52个,分别占总数的8.3%、17.9%、35.9%。种子幼芽接种温室条件下发病鉴定结果显示,90个抗病品种接种致病类型ⅢP05菌株,对其表现抗病的品种有28个,占供试品种总数的31.1%,表现免疫的品种10个、高抗品种7个、中抗品种11个,分别占供试品种总数的11.1%、7.8%、12.2%;接种致病类型ⅠP01菌株,对其表现抗病的品种14个,占总数的15.6%,其中表现免疫的品种4个、中抗品种10个,分别占总数的4.4%和11.1%。说明强毒性菌株P01可作为大麦条纹病抗性鉴定接种的常用菌株。  相似文献   

Molecular Mapping of the rps1.a Recessive Gene for Resistance to Stripe Rust in BBA 2890 Barley     

Yan G  Chen X 《Phytopathology》2007,97(6):668-673

ABSTRACT Stripe rust, caused by Puccinia striiformis f. sp. hordei, is one of the most important diseases of barley in the south-central and western United States. Growing resistant cultivars is the best approach for controlling the disease. The barley genotype BBA 2890 has all-stage resistance against all races of P. striiformis f. sp. hordei (PSH) identified thus far in the United States. The resistance in BBA 2890 is controlled by a single recessive gene, rps1.a. The objectives of this study were to identify resistance gene analog polymorphism (RGAP) markers for the all-stage resistance gene rps1.a, to map the gene on a barley chromosome using chromosome-specific simple sequence repeat (SSR) markers, and to determine the presence or absence of the flanking RGAP markers for the gene in 24 barley genotypes. Seedlings of the parents and 200 F(8) recombinant inbred lines (RILs) were tested for resistance to pathogen races PSH-14, PSH-48, and PSH-54 in the greenhouse in 2005. Genomic DNA was extracted from the parents and 150 F(8) RILs. The RGAP technique was used to identify molecular markers for the rps1.a gene. Twelve primer pairs generating repeatable polymorphic bands were selected for genotyping the 150 F(8) RILs. A genetic linkage group was constructed for the resistance gene with 13 RGAP markers and four chromosome-specific SSR markers. The four SSR markers mapped the gene on the long arm of barley chromosome 3H. The closest RGAP marker for the resistant allele was within a genetic distance of 2.1 centimorgans (cM). The closest marker for the susceptible allele was 6.8 cM away from the locus. The two closest RGAP markers for the resistant allele detected polymorphisms in 67 and 71% of the 24 barley genotypes when used individually, and detected polymorphism in 88% of the genotypes when used in combination. This information should be useful in incorporating the resistance gene into barley cultivars and in pyramiding the gene with other resistance genes for superior stripe rust resistance.  相似文献   

小麦-滨麦易位系M8657-1抗条锈病基因遗传分析和分子标记   总被引：3，自引：0，他引：3  

宋晓贺  侯璐  杨敏娜  贺苗苗  严引娣  井金学 《植物病理学报》2008,38(6):652-655

 M8657-1, one of the wheat translocation lines derived from Leymus mollis Trin. Hara, is possessed of effective resistance at all stages to Su-ll and other dominant races of Puccinia striiformis f. sp. tritici in China. Seedlings of the parents, F₁, and F₂ progeny derived from the cross of M8657-1 (resistant) Mingxian169 (susceptible) were inoculated with Su-ll in greenhouse to identify and map the probable new stripe rust resistance gene. The results suggested that the stripe rust resistance in M8657-1 was conferred by a pair of recessive genes. Simple sequence repeat (SSR) technique was used to detect molecular marker associated with the resistance gene:208 pairs of wheat SSR primers were used to screen the two parents, as well as resistant and susceptible bulks and then three SSR markers were selected for genotyping the F₂ population. The geue, temporarily designated as YrLml, was found to be located on the chromosome 7DL and flanked by three SSR markers GDM67, WMC150 and WMC671, with the genetic distance of 5.0, 9.7 and 11.8cM, respectively.  相似文献   

小麦抗条锈品种遗传多样性的SSR分析     

刘文涛  程登发  康晓慧  孙京瑞  张云慧  罗宵凤  张梅  张利  张娜 《植物保护》2011,37(3):72-75

［目的］ 利用SSR标记分析我国几大小麦产区主栽品种中抗锈品种的遗传多样性,为小麦抗条锈育种亲本材料的选择提供参考。［方法］ 以当前条锈菌优势小种接种成株期小麦,从几大小麦产区主栽品种中筛选出抗条锈品种。然后利用SSR标记对筛选出的抗锈品种的遗传多样性进行分析。［结果］ 27对SSR引物在上述抗锈品种中共检测到104个等位变异,平均为3.85个;引物的多态信息含量（PIC）在0.210~0.712之间,平均为0.455;抗锈品种间遗传相似系数平均为0.723,表明筛选出的抗锈品种遗传多样性较低,亲缘较近。［结论］ 聚类分析的结果将抗锈品种分为了4个类群,类群的分布与亲缘的远近和品种的地域有一定的相关性。  相似文献   

青海青稞主栽品种(系)对条纹病和云纹病的抗性鉴定     

闫佳会  姚强  陈海民 《植物保护》2016,42(3):212-214

本研究旨在明确青海青稞主栽品种和后备品种对条纹病和云纹病的抗性,以期为抗病育种及田间病害防治提供理论依据。试验采用田间自然病圃法,对青海主栽的30个青稞品种(系)进行了条纹病和云纹病田间抗性鉴定。结果表明,供试青稞品种(系)对2种病害的抗性存在显著差异,但缺乏免疫品种。对条纹病表现高抗的有13个品种(系),占鉴定总数的43.3%,其中主栽品种有3个,即‘门农1号’、‘昆仑13号’、‘巴青1号’。品系17发病率最低。对云纹病表现高抗的有品系1、品系2、品系6、品系17、品系28、RQKQ-3、RQKQ-5、RQKQ-6、RQKQ-7、RQKQ-8、‘门农1号’、‘互青2号’、‘北青6号’和‘昆仑10号’,共14个,其病情指数均在10以下;表现中抗的共有8个,分别为品系5、品系11、RQKQ-1、RQKQ-9、‘巴青1号’、‘北青3号’、‘北青7号’和‘昆仑13号’。  相似文献   

Quantification of <Emphasis Type="Italic">Pyrenophora graminea</Emphasis> in barley seed using real-time PCR     

Annemarie Fejer Justesen  Henrik Jørskov Hansen  Hans O. Pinnschmidt 《European journal of plant pathology / European Foundation for Plant Pathology》2008,122(2):253-263

A real-time PCR assay was designed to quantify seed-borne infection of Pyrenophora graminea in barley (Hordeum vulgare). Conventional tests such as the freezing blotter method cannot distinguish P. graminea from the closely related P. teres. The seed infection threshold for P. graminea is lower than the one for P. teres and is therefore applied for both species although P. graminea may be absent. This results in unnecessary rejections of seed lots. PCR primers and a TaqMan probe were designed to target a P. graminea-specific DNA sequence. The potential of the real-time PCR assay for quantifying seed-borne infection of P. graminea was investigated by examining seed lots harvested from P. graminea-infected fields. The major part (84%) of the variation in the amount of P. graminea DNA measured by real-time PCR could be attributed to variation between seed lots while only about 8% was due to variation within seed lots. DNA quantities of P. graminea were positively correlated with seed infection incidence detected by the freezing blotter method as well as with the infection incidence of plants examined in the greenhouse. Both correlations were highly significant (P < 0.001) but the DNA quantities accounted only for 59% (R ² = 0.59) and 56% (R ² = 0.56), respectively, of the variation in the results obtained by the two conventional methods. Seed lots of varieties resistant to P. graminea contained considerable amounts of P. graminea DNA but showed no or only few leaf symptoms in the greenhouse test suggesting that the recommended seed infection thresholds could be raised for resistant varieties.  相似文献   

22份中国小麦生产主栽品种抗条锈病基因解析     

徐晓丹  王明玉  冯晶  蔺瑞明  王凤涛  徐世昌 《植物保护学报》2018,45(1):37-45

为挖掘新的小麦抗条锈病基因,掌握小麦生产主栽品种的抗条锈病基因携带情况,有效防控小麦条锈病,采用抗性鉴定、基因推导分析和分子标记技术对22份小麦生产上主栽品种进行了研究,通过抗性鉴定比较22份小麦主栽品种与已知基因载体品种的抗谱。结果显示,共推测出14份供试品种携带已知抗条锈基因,8份供试品种携带未知抗条锈基因,是新的抗锈基因资源;聚类分析结果显示,供试22份小麦品种可分为2个大类6个亚类;利用SSR分子标记检测抗条锈病基因Yr1、Yr10和Yr24的携带情况发现,11份品种携带Yr1基因,2份品种携带Yr10基因,22份品种均不携带Yr24基因。部分生产主栽品种携带新的抗条锈病基因,表明小麦品种选育中避免了抗性基因单一化,并加强了未知基因的利用。  相似文献   

Inheritance and molecular mapping of barley genes conferring resistance to wheat stripe rust     

Pahalawatta V  Chen X 《Phytopathology》2005,95(8):884-889

ABSTRACT Most barley cultivars are resistant to stripe rust of wheat that is caused by Puccinia striiformis f. sp. tritici. The barley cv. Steptoe is susceptible to all identified races of P. striiformis f. sp. hordei (PSH), the barley stripe rust pathogen, but is resistant to most P. striiformis f. sp. tritici races. To determine inheritance of the Steptoe resistance to P. striiformis f. sp. tritici, a cross was made between Steptoe and Russell, a barley cultivar susceptible to some P. striiformis f. sp. tritici races and all tested P. striiformis f. sp. hordei races. Seedlings of parents and F(1), BC(1), F(2), and F(3) progeny from the barley cross were tested with P. striiformis f. sp. tritici races PST-41 and PST-45 under controlled greenhouse conditions. Genetic analyses of infection type data showed that Steptoe had one dominant gene and one recessive gene (provisionally designated as RpstS1 and rpstS2, respectively) for resistance to races PST-41 and PST-45. Genomic DNA was extracted from the parents and 150 F(2) plants that were tested for rust reaction and grown for seed of F(3) lines. The infection type data and polymorphic markers identified using the resistance gene analog polymorphism (RGAP) technique were analyzed with the Mapmaker computer program to map the resistance genes. The dominant resistance gene in Steptoe for resistance to P. striiformis f. sp. tritici races was mapped on barley chromosome 4H using a linked microsatellite marker, HVM68. A linkage group for the dominant gene was constructed with 12 RGAP markers and the microsatellite marker. The results show that resistance in barley to the wheat stripe rust pathogen is qualitatively inherited. These genes might provide useful resistance against wheat stripe rust when introgressed into wheat from barley.  相似文献   

小麦品系中梁93444的抗条锈性遗传分析与分子作图     

王岭岭  侯冬媛  王文立  周新力  宋建荣  井金学 《植物保护学报》2011,38(2):109-115

为明确抗锈品种中梁93444抗条锈基因及遗传特点,用CYR30、CYR31、CYR32对该品种、铭贤169及杂交组合进行遗传分析,用SSR技术对分离家系F_3-3进行PCR扩增和电泳分析。结果显示,中梁93444对CYR30、CYR31的抗病性均由1对显性和1对隐性基因控制,对CYR32由2对显性互补基因控制;F_3-3分离家系对CYR32的抗病性由1对显性基因控制,该基因暂命名为Yr93444。对F_3-3分离群体进行SSR标记,建立了与该基因连锁的8个标记Xgwm122、Xwmc702、Xwmc644、Xwmc794、Xgwm328、Xwmc455、Xgwm372、Xwmc819,遗传距离分别为38.1、30.7、22.9、15.6、10.0、6.9、3.5和2.8 cM。 应用SSR标记、中国春及缺四体将Yr93444定位于2AL上。系谱分析和SSR分子标记检测表明,该基因是来自中间偃麦草的新抗条锈基因。用与该基因紧密连锁的SSR标记Xgwm372和Xwmc819检测中梁品种和黄淮麦区主栽品种,发现89%中梁品种含该抗病基因,而86%黄淮麦区主栽品种不含该抗病基因,表明该基因应用潜力很大。  相似文献