利用SSR标记与毛细管电泳对甘蔗属进行的遗传分析

为探讨甘蔗属内不同种之间的遗传多样性,利用SSR标记与毛细管电泳技术,对来自甘蔗属3个不同种的12个材料19对引物进行检测,共检测到229个DNA多态性条带,19对引物扩增的DNA条带范围集中在100～260bp之间。12个甘蔗材料的Jaccard遗传相似度,最小0.09,最大0.65,平均为0.26。通过遗传相似性系数分析,UPGMA聚类图内12个甘蔗材料可分为两个群,三个割手密种材料分为一个亚群,甘蔗栽培品种与甘蔗热带种合为一个亚群。结果表明:热带种比割手密种具有和甘蔗栽培品种更亲近的遗传关系;SSR分子标记与毛细管技术结合,相比别的分子标记技术或电泳技术,具有更准确、简便、自动化等优点。     

SSR标记在毛木耳种质资源遗传多样性研究中的应用

本研究利用基于毛木耳全基因组开发的SSR标记对27份毛木耳菌株（野生14株、栽培13株）的遗传多样性进行分析。首先随机选取3个菌株（2个野生菌株、1个栽培菌株）的DNA为模板,从144对SSR引物中筛选出扩增条带清晰、稳定性强、多态性丰富的引物24对。24对SSR引物共检测到116个多态性SSR片段,每对引物的多态性片段有3-7个,引物平均检测效率为4.83个,Shannon’s遗传多样性指数范围是0.866-1.885,多态性位点比率100%。供试菌株遗传相似系数范围是0.618-0.971,说明毛木耳种质资源具有丰富的遗传多样性。野生菌株与栽培菌株间平均遗传相似系数分别为0.746、0.779,说明毛木耳野生菌株遗传多样性更为丰富。经聚类分析,在遗传相似系数为0.680时,可将供试菌株分为无色（白色）类群Ⅰ和有色（浅黄色到红褐色）类群Ⅱ。遗传相似系数为0.704时,可将供试菌株中栽培菌株和野生菌株明显区分（14株野生菌株均在类群Ⅱ-2中,13株栽培菌株分别在类群Ⅰ和Ⅱ-1中）。本研究表明基于全基因组的SSR标记能从分子水平上揭示各菌株间的遗传差异,丰富毛木耳遗传多样性的研究手段,并为进一步进行毛木耳的品种选育、遗传学研究等提供有力手段。     

应用SSR标记分析中国糯大麦种质的遗传多样性

利用SSR标记对来自中国不同省市的76份糯大麦种质的遗传多样性进行分析,并以遗传相似系数为基础进行聚类分析。SSR标记分析表明,50对大麦SSR引物在76份糯大麦中共扩增出203个等位基因,属于高度多态性位点范畴。当遗传相似系数为0.70时可将76个糯大麦品种划分为5个类群,在一定程度上反映了与材料的地理来源和皮裸性。糯大麦资源平均Shan-non多样性指数显示,来自云南和西藏的糯大麦品种遗传多样性略高。SSR标记分析表明,中国糯大麦具有丰富的遗传多样性,对揭示糯大麦的起源与传播以及对资源的有效利用具有现实意义。     

基于SSR标记和生物学性状进行桃遗传多样性的比较分析

利用生物学性状和SSR分子标记对50个桃品种进行遗传多样性研究,并将两种标记所得结果进行比较.14个生物学性状揭示出品种间的遗传相似系数范围为0～0.9,均值为0.4;而13对SSR引物揭示出遗传相似系数范围为0.52～0.97,均值为0.75.对两种标记进行共表型相关系数检测,结果显示两种结果无明显差异.经Mental检测,两种标记之间相关性较差,这可能与形成机理差异大有关.进行聚类和主成分分析,生物学性状方面品种主要分为3个组且与果肉性状相关,而分子方面品种主要分为2组,与地域相关.     

基于SSR分子标记分析云南月季种质资源亲缘关系(英文)

利用简单重复序列SSR(simple sequence repeat)标记技术对48份月季种质资源(包括14份野生种、20份古老月季品种和14份栽培品种)的遗传多样性和亲缘关系进行了分析.结果表明,(1)18对SSR引物在18个SSR位点上共检测到160个等位基因,每一位点的等位基因变幅为6～13个,平均8.9个,材料间遗传相似系数变化范围为0.157 8～0.754 9,表明在分子水平上云南月季种质资源具有丰富的遗传多样性.(2)聚类分析结果显示,在相似系数为0.44处,可将 14个野生种明显分为6个组,这与植物形态学分类结果上基本一致;在遗传相似系数为0.40水平上将48份供试材料分为八大组群.(3)亲缘关系分析结果显示,5个野生种和所有古老月季品种与大多数栽培品种的亲缘关系较近.     

基于SSR标记的谷子遗传多样性研究

用21个分布在谷子9条染色体上的SSR标记,对120份来自于核心种质的谷子材料进行遗传多样性研究。21个标记共检查出305个等位变异,各标记检测出的等位变异数在3～26个之间,平均每个位点检测出的等位变异数为14.5个;21个位点的平均多态信息量(PIC)为0.809。基于21个SSR标记的分子鉴定,计算了120份材料间的遗传相似系数,其变化范围为0.8393～0.9672,平均值为0.8906。根据计算的遗传距离,对120份谷子材料进行UPGMA聚类,在遗传相似系数0.8865处这些材料被划分为4个类群,分类结果与这些谷子来源地生态类型总体上表现一致,分别为西北内陆类群、黄土高原内蒙古高原类群、华北平原类群以及华北平原近年育成种类群。     

SRAP结合SCoT标记分析番木瓜种质的遗传多样性

利用SRAP和SCoT两种分子标记相结合对中国22个番木瓜主要栽培品种(系)进行遗传多样性研究。SCoT标记检测获得的遗传多样性参数值和遗传相似系数范围均高于SRAP标记检测的结果,表明SCoT标记检测多态性的能力高于SRAP标记。基于两种标记数据合并后的UPGMA聚类结果显示,番木瓜种质间的遗传相似系数为0.65~0.90,种质间遗传多样性水平较低;在遗传相似系数为0.82时,将所有参试材料划分为3个类群。应用Mantel检测对SRAP和SCoT及两种标记合并进行相关性分析,表明三者之间具有显著的相关性,且相关性很高。聚类结果从分子水平反映出中国番木瓜主要栽培品种(系)的遗传基础狭窄。     

红麻微卫星DNA标记指纹图谱的构建

DNA指纹图谱对新品种选育、种质资源保存和管理具有重要的意义。然而,利用SSR标记构建红麻DNA指纹图谱的研究仍十分有限。在本研究中,利用课题组开发并筛选出的131对SSR引物,分析不同来源的96份红麻种质资源,包括红麻品种审定的区试对照品种福红952。结果表明,131对引物共扩增出375条带,平均每对引物扩增出2.6条带。以遗传相似系数0.614为切割线时,可以分为2个类群,52个为类群P1,44个为类群P2;以遗传相似系数0.710做切割线,可分为5个亚群。利用这131对引物标记所得的数据成功绘制了一份85个品种独特的指纹图谱,其中福红952可被HcEMS238引物特异识别。其他11份因存在遗传相似性高的现象,未被识别。上述结果为红麻品种的真实性鉴定及遗传多样性分析提供依据。     

黑龙江省近年审定水稻品种基于SSR标记的遗传多样性分析

为评估黑龙江省水稻品种的遗传基础,利用24个用于水稻DNA指纹图谱构建的SSR标记以及其他均匀分布于水稻12条染色体的38个SSR标记,对黑龙江省近年审定的73个水稻常规稻品种进行遗传多样性分析。结果表明,在62个SSR标记位点中,共检测到142个等位基因,平均每个标记2.3个,多态性比率平均为71.0%,多态性频率变幅为0~0.775,平均值为0.246。供试品种间两两遗传相似系数的平均值为0.759,变幅为0.622~0.966,且96.4%的品种间遗传相似系数在0.66~0.86之间,表明供试的73个品种亲缘关系较近。通过SSR标记基因型聚类分析将这些品种划分为6个类群,与系谱分析趋势一致,类群间的差异主要表现在生育期和米质方面。综上所述,黑龙江省近年审定的水稻品种遗传基础狭窄,在育种中需要导入新的种质资源,加强种质资源创新,以期丰富水稻品种的遗传多样性,进一步提高水稻产量和抗性。     

宁夏60份粳稻种质资源遗传多样性分析

试验用SSR分子标记对60份宁夏粳稻种质资源进行遗传多样性分析。103对SSR引物表现多态性的有58对,共扩增出212条多态性条带,等位变异范围为2～9,平均每对引物3.7个;多态性信息含量(PIC)变幅为0.032～0.788,平均为0.403;高多态性位点主要发生在3号、6号和11号染色体上,而无多态性或低多态性位点主要发生在1号和10号染色体上;成对供试材料的遗传相似系数GS值变幅为0.642～0.958,平均为0.790,单个供试材料的平均GS值变幅为0.710～0.816,平均为0.781,亲缘关系较近;UPGMA聚类表明,在遗传相似系数约0.785处,供试材料可被分为11类,大部分材料被聚在一类中。     

中俄茄子种质资源遗传多样性研究

利用25对SSR分子标记和24个表型性状对105份中俄茄子材料进行遗传多样性分析。表型变异分析结果表明:24个表型性状在中俄材料间均表现出了不同程度的多样性,但是同一性状在中俄材料中多样性不同;主成分分析可将24个表型性状概括为果形因子、颜色因子、果实外观因子、叶片形态因子、果萼刺和花药条纹6个指标,其中果实特征占主要成分;利用UPGMA法进行聚类,遗传相似系数在0.4~0.8之间,平均值0.6。25对多态性SSR标记,扩增出122个条带,含有等位基因82个,其中有效等位数24.8个,PIC值为0.3~0.7。分子聚类的遗传相似系数在0.5~1之间,平均值是0.7。表型聚类和分子标记聚类的结果相似,105份茄子种质资源间的类群划分与地理来源之间没有直接关系,但与茄子的果实性状有一定的相关性。     

Genetic diversity analysis of 60 ginger germplasm core accessions using ISSR and SSR markers

Molecular techniques play a critical role in studies of phylogeny and, thus, have been applied to understand the distribution and extent of genetic variation within and between species. In the present study, a genetic analysis was undertaken using molecular markers (9 ISSR and 13 SSR) on 60 ginger cultivars from different regions of the eastern coast of India (Odisha). The data obtained with 22 polymorphic markers revealed moderate to high diversity in the collection. Both ISSR and SSR markers were efficient in distinguishing all the 60 ginger cultivars. A total of 42 and 160 polymorphic bands were observed with ISSR and SSR markers, respectively. However, SSR markers were observed to be better at displaying average polymorphism (63.29%) than ISSR markers (55%). Analysis of molecular variance results showed that 52 and 66% of the variation occurred among different ginger populations, whereas 48 and 34% of the variation was found within populations, respectively, using ISSR and SSR markers, indicating that ginger cultivars display significant genetic diversity at the population level. Principal coordinates analysis and the dendrogram constructed out of combined data of both markers showed grouping of ginger accessions to their respective area of collection, indicating geographical closeness due to genetic similarity irrespective of the relationship that exists at the morphological level.     

Use of simple sequence repeat markers for DNA fingerprinting and diversity analysis of sugarcane (Saccharum spp) cultivars resistant and susceptible to red rot

Red rod is an economically important disease of sugarcane caused by the fungus Colletotrichum falcatum. We used a simple sequence repeat (SSR)-based marker system to identify and analyze genetic relationships of red rot resistant and susceptible sugarcane cultivars grown in Pakistan. Twenty-one highly polymorphic SSR markers were used for DNA fingerprinting and genetic diversity analysis of 20 sugarcane cultivars. These SSR markers were found to be highly robust; we identified 144 alleles, with 3-11 alleles per marker and a mean of 6.8. Three SSR markers were able to identify all 20 cultivars. DNAMAN(?)-generated homology tree was used to analyze genetic diversity among these cultivars; all cultivars shared 58% or more similarity. We correlated polymorphism information content and resolving power values with marker effectiveness in the process of sugarcane cultivar identification. We concluded that a small number of SSR-derived DNA markers will allow breeders to identify red rot resistant and susceptible cultivars.     

Characterization of Indian bred rose cultivars using morphological and molecular markers for conservation and sustainable management

Rose (Rosa × hybrid L.) is one of the most important commercial ornamental crops cultivated worldwide for its beauty, fragrance and nutraceutical values. Characterization of rose germplasm provides precise information about the extent of diversity present among the cultivars. It also helps in cultivar identification, intellectual property right protection, variety improvement and genetic diversity conservation. In the present study, 109 Indian bred rose cultivars were characterized using 59 morphological and 48 SSR markers. Out of 48 SSRs used, 31 markers exhibited polymorphism and 96 alleles were identified with an average of 3.9 alleles per locus. Nei’s expected heterozygosity value of each locus ranged from 0.08 (with SSR ABRII/RPU32) to 0.78 (SSR Rh58). The similarity coefficient values ranged from 0.42 to 0.90 which indicated presence of moderated diversity among Indian cultivars. The neighbor-joining tree based on morphological data grouped the cultivars into two major clusters and several minor clusters based on their morphological resemblance. However, UPGMA dendrogram constructed using matching coefficient values grouped the cultivars into eight different clusters. Interpopulation analysis revealed higher genetic similarities between Hybrid Tea and Floribunda cultivars. An analysis for presence of population sub-structure grouped the Indian cultivars into eight different genetic groups. Analysis of molecular variance revealed apportioning of 97.59% of the variation to within subgroup diversity and 3.07% to between the cultivar groups. We have demonstrated here successful utilization of robust SSR to distinguish cultivars and assess genetic diversity among Indian bred rose cultivars. The information provided here is useful for cultivar identification and protection, cultivar improvement and genetic diversity conservation.     

花生表型及SSR遗传多样性的研究

对山西省农业科学院经济作物研究所保存的75份花生材料(包括28个已审定的花生品种和47个地方品种)进行了包括株型、茸毛的有无、叶色、粒形、叶形、生长习性、开花习性、粒大小、粒色等表型性状的Shannon-Weaver遗传多样性指数(简称SWI)和Simpson遗传多样性指数(简称SI)分析。结果表明:参试的75份花生品种遗传多样性指数分别为SWI=0.924,SI=0.500,其中以开花习性最低(SWI=0.139,SI=0.014),而Shannon-Weaver指数以粒色最高为1.841,Simpson指数为0.712。利用48对SSR引物对这些材料进行了遗传多样性分析,结果如下:(1)在48对花生的SSR引物中,有35对(占所用引物总数的72.9%)具有多态性,共检测到215条多态性条带,平均每对引物可扩增6条多态性带。(2)根据SSR扩增结果对75份材料的聚类分析结果表明,这些材料的相似系数(GS)为0.25～0.85,平均GS值为0.55。28个审定品种的相似系数为0.39～0.85,平均为0.60。     

Microsatellite marker-based identification and genetic relationships of olive cultivars from the Extremadura region of Spain

Seventy-seven olive accessions corresponding to 25 cultivars from the Extremadura region of Spain were studied using four microsatellite or SSR markers in order to fingerprint them, and evaluate genetic similarity and relationships between local and introduced olive cultivars. The number of alleles per locus ranged from 4 to 8, with a mean of 6.25 alleles per primer pair (a total of 25 alleles). The observed heterozygosity ranged from 0.58 to 0.95, while the expected heterozygosity varied between 0.68 and 0.83. The polymorphism information content values ranged from 0.63 to 0.79. The mean polymorphism information content value of 0.70 for the SSR loci provided sufficient discriminating ability to evaluate the genetic diversity among the cultivars. The SSR data allowed unequivocal identification of all the cultivars; a combination of three SSR markers was sufficient to discriminate all 25 olive cultivars. A dendrogram was prepared, using the unweighted pair-group method with arithmetic mean clustering algorithm; it depicted the pattern of relationships between the cultivars. Most of the local cultivars grouped according to their geographic origin. No clear clustering trends were observed when the morphological traits of fruit endocarps or fruit use of cultivars were employed as analysis criteria. We conclude that there is a high level of variability among local olive cultivars from the Extremadura region at both the morphological and molecular levels; these data should be useful for identifying and distinguishing local germplasm.     

中国桑树选育品种ISSR指纹图谱的构建及遗传多样性分析

利用ISSR标记构建了24个选育桑品种的指纹图谱,用3种独立的方法（特殊的标记;特异的谱带类型;不同引物提供的谱带类型组合）可以有效地鉴别桑树选育品种,证明ISSR标记在桑树品种的鉴别方面是一个有效的工具和方法。17个ISSR引物共扩增出80条带,40条带具有多态性,占50．0％。24份选育桑树品种间平均遗传相似系数、Nei’S基因多样性（gene diversity）和Shannon’S信息指数分别为0．8731,0．1210和0．1942。桑树选育品种间的遗传多样性较低,说明中国选育桑品种间遗传距离较小,亲缘关系较近,。遗传基础较狭窄。UPGMA法聚类和PCA分析都清楚地显示了24个桑树选育品种的亲缘关系,聚类结果与桑树品种的系谱基本一致。     

茄子种质遗传多样性及群体结构的SRAP分析

采用SRAP标记法对183份茄子(Solanum melongena)种质资源的遗传关系和群体结构进行分析。结果表明, 33对多态性SRAP引物组合共扩增出215条清晰稳定的多态性条带, 平均每对引物组合产生7条多态性条带。183份茄子种质的遗传相似系数介于0.276-0.813之间, 平均值为0.623, 表明茄子种质资源间遗传背景存在一定的差异。在遗传距离为0.345 6处可将183份茄子种质分为4组。通过群体结构分析可将种质划分为4个群体, 不同群体间的界限十分明显, 且群体间的基因渗透较高。     

Construction of Fingerprinting and Genetic Diversity of Mulberry Cultivars in China by ISSR Markers

The ISSR fingerprintings of 24 mulberry cultivars were constructed. Totally 80 bands were produced using 17 primers selected from 20 primers. Of them, 40 bands showed polymorphism. From the bands amplified, there were three independent ways to identify the mulberry varieties, such as unique ISSR markers, unique band patterns and a combination of the band patterns provided by different primers. ISSRs were very effective in differentiating the mulberry varieties. The mean genetic similarity coefficient, the mean Nei's gene diversity (h), and the mean Shannon's Information index (I) of mulberry cultivars were 0.8731, 0.1210, and 0.1942, respectively. This suggests that the genetic diversity of mulberry cultivars was low and the genetic base was narrow. Both UPGMA cluster and PCA (Principal Coordinates Analysis) analysis showed clear genetic relationships among the 24 mulberry cultivars. The major clusters were related to known pedigree relationships.     

梨砧木种质资源的SSR遗传多样性分析

用9对SSR特异性引物对74份梨砧木种质资源进行遗传多样性分析,结果表明：9对SSR引物扩增得到57个等位基因,平均6.33个,可以区分除K11、K12、杜梨-13和杜梨-15以外的70份梨资源样本。聚类分析结果显示,74份样本的相似系数的变化范围为0.41~1.00,表现出较高的遗传多样性。供试品种在相似系数0.67处被分为7大类群,与品种的系谱来源和地理分布基本吻合。