西瓜核心种质的AFLP指纹图谱和SCAR标记

西瓜(Citnllus lanatus (Thunb.) Mansf.)种质资源的鉴定与评价是对其有效利用的基础。以往的研究表明,西瓜是一种遗传资源特别狭窄的作物,在用同工酶、RAPD及SSR技术对西瓜种质资源进行鉴定时,发现很难将品种完全区分开来。本研究利用高效可靠的AFLP技术,对30个西瓜核心种质材料进行了遗传分析,最终建立了这30个材料的DNA指纹图谱。在该图谱中,每个材料均有其独特的“指纹”,材料之间可以相互区分开来。为了进一步利用AFLP分子标记,将重要抗病种质材料“P1296341”的AFLP特异带转化成了生产上可以直接利用的SCAR标记。     

红豆杉种质资源遗传多样性的AFLP分析

目的：通过对5份红豆杉种质资源的AFLP分析,探求各种质间的遗传多样性。方法：采用扩增片段长度多态性（AFLP）标记,在DNA水平上进行遗传多样性研究,筛选了32对选择性扩增引物,将扩增出的条带作为原始矩阵,用NTSYS-PC软件计算并分析了红豆杉种质间的相似度,构建了遗传系统进化树。结果：（1）SDS法提取的红豆杉基因组DNA质量较佳,能够满足AFLP分析的要求;（2）从32对选择性扩增引物中,筛选出10对多态性较强、带型较好、分辨率较高的组合;（3）构建了红豆杉AFLP指纹图谱,将5个红豆杉种质全部区分开来;（4）通过构建进化树,把5个种质分成3类。结论：红豆杉种质资源有丰富的遗传多样性。     

用EST-SSR分子标记技术构建大白菜核心种质及其指纹图谱库

利用EST-SSR分子标记对大白菜种质资源基因库中686份样品所代表的1 900份大白菜种质资源进行分析研究.构建大白菜种质资源的核心种质并且形成核心种质的EST-SSR指纹图谱库.结果表明利用4组鉴定白菜品种的EST-SSR的特异性标记组合,获得近158个EST-SSR多态的标记,对大白菜种质资源基因库中686份样品所代表的1 900份大白菜种质资源进行核心种质的构建提供了分析数据.形成的核心种质包括168份样品,占库存资源的8.8%,它的多态位点百分率保持了原群体的100%.所构建的核心种质涵盖了原资源的绝大部分区域来源的品种,包含了早、中、晚熟品种中所有典型的大白菜类型和其相关的特征特性.并进一步进行了核心种质资源遗传多样性分析.核心种质的EST-SSR指纹图谱库中,每一份样品的指纹都是唯一的,为登记、评价、整理、分发、繁殖等种质资源库的管理和育种者对其材料的利用提供了重要的有价值的信息.EST-SSR标记组合是构建中国大白菜核心种质及其指纹图谱的经济、高效的方法.     

应用SRAP标记绘制88份南瓜属种质资源DNA指纹图谱

为了给南瓜属种质资源鉴定和分类提供分子生物学依据,本研究采用SRAP分子标记技术与DNAMAN指纹图谱绘制软件对88份南瓜属种质资源(包含美洲南瓜、中国南瓜、印度南瓜)进行分子指纹图谱绘制。结果表明:35对SRAP多态性引物共扩增出499条清晰条带,其中多态性条带438条,多态性条带比率高达87.8%。根据扩增出的条带成功绘制出88份南瓜属种质资源的DNA指纹图谱,每一份种质都具有其独特的分子身份证,使得每份种质均可被区别开来。其中,多态性最好的引物是E5EM8,可以同时绘制72份南瓜属种质资源的指纹图谱。所有供试材料用5对多态性SRAP引物即可全部区别开来。研究表明,SRAP分子标记技术可成功地绘制南瓜属种质资源DNA指纹图谱。本研究对南瓜属种质资源鉴别、分子数据库构建及品种权保护具有较重要的意义。     

利用AFLP技术鉴定凤凰单丛古茶树种质资源

本文采用AFLP技术对34个凤凰单丛古茶树资源进行了种质鉴定分析.结果显示,筛选出多态性较高的5对引物中,引物组合E41M42、E41M39和E41M33可鉴别出供试的全部资源,鉴别效率为100%;有23份资源具有特异带,占供试材料的67.6%.由此研究表明,AFLP技术可以通过特异带、特异的谱带类型、不同引物提供谱带的组合将风凰单丛古茶树资源区分开来,这对保护凤凰单丛古茶树资源的育种产权、登录新品种、鉴定和检测其种子与苗木的真实性和纯度具有重要的现实意义.     

水生实验动物剑尾鱼的DNA指纹图谱构建

目的剑尾鱼是由原良种委员会审定并由农业部公布的水生实验动物,在遗传学研究、水环境污染监测、细菌性疾病研究方面显示出较好的应用前景。为了对剑尾鱼选育系进行种质资源监测、区分选育系与非选育以及鉴定近交系纯度,本研究采用微卫星DNA进行水生实验动物剑尾鱼的指纹图谱构建。方法根据相关报道设计合成了50对微卫星引物,对几个剑尾鱼品系的种质资源进行检测,筛选品系间差异性引物;确立剑尾鱼核心引物,用EXCEL散点图绘制DNA指纹图谱模式图;并将数字化指纹数据输入珠江水产研究所鱼类种质鉴定软件V1.0,形成剑尾鱼标准化指纹图谱鉴定数据库。结果共获得剑尾鱼品系间特异标记5个可用于剑尾鱼近交系鉴定,确立46个微卫星标记为核心引物,构建剑尾鱼选育系RR-B系、RW-H系和非选育的野生品种的DNA指纹图谱。结论本研究筛选出的微卫星标记与构建的指纹图谱,可用于剑尾鱼3个品种间的品种鉴定、纯度检测及遗传监测。     

基于TP-M13-SSR指纹图谱的中国原产苹果属植物分子身份证的建立

利用TP-M13-SSR分子标记方法,构建27份中国原产苹果属植物在12个SSR位点的指纹图谱,运用条码技术生成其分子身份证。12对引物共获得251个等位基因,平均21个。引物多态性好,仅用引物CH05b06即可区分全部供试材料。27份苹果材料在12个SSR位点遗传多样性、多态性信息含量和位点杂合度的变化范围为0.6620～0.9455、0.6327～0.9211和0.6538～0.9319。基于CH05b06位点处获得的指纹谱图即可得到每份供试材料独有的分子身份证。TP-M13-SSR分子标记技术适用于苹果属植物种质资源的指纹图谱构建,利于分子基础数据库的积累。基于苹果种质资源TP-M13-SSR指纹图谱可获得每份苹果种质资源独有的分子身份证。     

武夷山及周边地区黄精植物ISSR分子标记鉴定及HPLC指纹图谱研究

采用ISSR分子标记鉴定方法及HPLC色谱方法对武夷山及周边地区5份黄精植物样本进行DNA分子标记鉴定及指纹图谱分析,并通过聚类分析软件分别探讨其遗传相关聚类图谱。ISSR分子标记法能较好地对5份黄精植物样本进行区分,HPLC指纹图谱分析同样表明5份黄精样本化学成分存在一定的差别。DNA分子标记及HPLC指纹图谱分析的遗传相关聚类分析结果相似,表明武夷山及周边地区的野生黄精种质资源存在明显的差别。     

应用SRAP标记构建山药种质资源DNA指纹图谱

利用30对多态性良好的SRAP引物对90份山药种质资源进行PCR扩增,构建扩增图谱,共扩增到722个位点,多态性位点581个,多态性比例为80.47%,每对引物组合检测多态性位点3~30个,每对引物能鉴别6~51份山药种质资源;采用DNA数据分析软件对扩增出的多态性位点进行分析,构建山药种质资源方框指纹图谱,该图谱清晰地反映出每对引物能扩增的多态位点数、鉴别资源份数及资源具体编号,资源在该引物组合下所能检测得到的多态位点数及所处的具体位置等信息;从10对SRAP引物组合中挑选出的21个多态性位点,根据谱带的有无转化成的1/0字符串编码,形成山药种质资源DNA数字指纹图谱,该图谱可鉴别区分90份山药种质资源中的82份资源。同时这些指纹图谱可为下一步的山药品种鉴定,种质资源评价、利用,分子标记辅助育种及品种权保护提供技术支撑。     

新疆枸杞种质资源遗传多样性分析及DNA指纹图谱构建

利用SCoT分子标记对新疆枸杞种质资源进行遗传多样性分析和DNA指纹图谱构建,为杂交育种和种质鉴定提供理论依据。结果显示:9条SCoT引物扩增出条带256条,其中219条为多态性条带,多态性比率达85.62%,多态性信息含量(PIC)值变化范围在0.77~0.91之间,平均值为0.85,观测等位基因数(Na)、有效等位基因数(Ne)、Nei's基因多样性指数(H)和Shannon信息指数(I)的平均值分别为1.8562、1.4350、0.2611、0.3989,聚类分析表明,遗传相似系数变化范围在0.5938~0.8398之间,在遗传相似系数为0.66和0.71处,可将30份材料分别分为2大类和4个亚类,主坐标分析结果和聚类结果基本一致,同时利用5条多态性SCoT引物构建了30份材料的DNA指纹图谱。新疆枸杞种质资源遗传多样性水平较高,且SCoT分子标记适于新疆枸杞种质资源遗传多样性分析和DNA指纹图谱构建,该研究结果为新疆枸杞种质资源评价、鉴定和新品种选育奠定了基础。     

Evaluation of genetic diversity and germ plasm identification of 44 species, clones, and cultivars from 5 sections of the genusPopulus based on amplified fragment length polymorphism analysis

The genusPopulus L. (Salicaceae) can be divided into 5 sections with distribution throughout the world. Accurate identification ofPopulus clones and species is essential for effective selection, breeding, and management of genetic resources. In this study, amplified fragment length polymorphism (AFLP) analysis, which was reported as a reliable technique with high efficiency in detecting polymorphism, was used to conduct analyses of genetic diversity and variety identification of 44 species, clones, and cultivars ofPopulus that represent a wide range of breeding and commercially available germplasms. Cluster analysis of the 44 samples was carried out, and a dendrogram of genetic relatedness was developed on the basis of the AFLP data. DNA fingerprints of the 44 samples were developed from 12 selected bands amplified with 2 primer combinations (M-CAG/E-TA and M-CAG/E-TC). Each sample has its unique fingerprint pattern and can be distinguished from the others. Furthermore, 1 specific AFLP band of the cultivarPopulus canadensis cl. Guariento coming from fragments amplified by primer combination M-CTC/E-AG was successfully converted into a sequence-characterized amplified region (SCAR) marker. The results indicate that AFLP analysis should be considered as the preferred technique for the study of polymorphism inPopulus. This research is the first report concerning the use of AFLP analysis in genetic diversity and germplasm identification among all sections ofPopulus.     

利用AFLP技术分析丹顶鹤的亲缘关系

建立了丹顶鹤(Grus japonensis)AFLP分析体系,经筛选,利用28对选择性扩增引物构建了5对丹顶鹤AFLP亲缘关系分析图谱,共得到1 114个扩增条带,其中多态性条带551条,多态性比例为49.5%。每个引物组合扩增的条带数为20～66条,其中,引物E4M1扩增的条带最多,为66条;引物E6M1扩增的条带数最少,为20条。经统计分析,计算了各样品间的相似性系数在0.71～0.88之间,得到5对丹顶鹤的遗传距离,并构建了UPGMA聚类图,结果1号与2号、3号与4号鹤的亲缘关系较近,其余3对鹤(自然配对)亲缘关系较远。表明丹顶鹤具有识别亲缘关系的行为机制,丰富了丹顶鹤繁殖行为机制的研究内容,并为深入研究建立合理的散养丹顶鹤繁育体系提出了建议。     

Genetic diversity in tetraploid switchgrass revealed by AFLP marker polymorphisms

Switchgrass (Panicum virgatum) is a perennial warm-season grass native to North America that has been identified as a dedicated cellulosic biofuel crop. We quantified genetic diversity in tetraploid switchgrass germplasm collected at Oklahoma State University and characterized genetic relatedness among the collections from distinct regions. Fifty-six tetraploid accessions, including seven upland and 49 lowland genotypes from throughout the US, were examined. The amplified fragment length polymorphism (AFLP) procedure was utilized to generate DNA profiling patterns that were scored visually. Sixteen selective AFLP primer combinations were used to amplify 452 polymorphic bands. The accessions' genetic similarity coefficients, UPGMA (unweighted pair-group method with arithmetic averaging) cluster analysis and principle coordinate analysis, were performed. The upland and lowland accessions clustered according to ecotypes, with one exception (TN104). Genetic similarity coefficients among the accessions ranged from 0.73 to 0.95. Analysis of molecular variance (AMOVA) was performed, showing significant differences between the upland and lowland genotypes. The trnL marker confirmed that TN104 was a lowland genotype, but the trnL marker identification of upland and lowland genotypes was not consistent with the AFLP analysis in two germplasms (Miami and AR4).     

AFLP在橡胶树优异种质研究中的应用

采用377DNA测序仪（P.E.Corp.)用AFLP技术对25种分别具有高产／低产、抗白粉病／感白粉病、抗寒／不抗寒、死皮／不死皮性状的橡胶树（Hevea brasiliensis Mull.Ary)无性系（其中Wickham种质15种,Amazon野生橡胶树种质10种）进行了指纹图谱分析,从64对引物组合中选出2对引物组合构建了所有被研究种质的指纹图谱。2对引物共扩增出518条带,多态性比率超过98．6％。遗传多样性分析表明,橡胶树种质间遗传距离为0．25－0．81,RRIM600种质内遗传距离为0．07－0．17。通过基因分型分析获得一条大小为320bp的抗白粉病种质特有的片段。根据以上的AFLP数据进行了聚类分析,结果表明所有被研究种质几乎是依次聚成一个大类。     

AFLP Fingerprinting Analysis of Elite Hevea brasiliensis Germplasm

There are more than 6 000 clones of Hevea brasiliensis Mull. Ary germplasm in the germplasm garden of Chinese National Key Biotechnology Laboratory for Tropical Crops and some of them are elite germplasm demonstrated by production and previous studies. AFLP (amplified fragment length polymorphism) fingerprinting analysis was performed on 25 clones (15 of Wickham clones and 10 of Amazon wild clones which possess phenotypes with high-yielding/low-yielding, cold-tolerance/cold-sensitivity, oidium-resistance/oidium-sensitivity, tapping panel dryness (TPD)/healthy) respectively through a 377 DNA sequencer (P. E. Corp.) and PAGE electrophoresis results were analyzed by using GeneScanTMand GenotypeTM Analysis software (P.E.Corp.). The fragment profiles of different clones were obtained. Five hundred and eighteen fragments were generated by two primer combinations screened from 64 primer combinations and 511 fragments appeared to be polymorphic (98.6%). Genetic distance ranged from 0.25 to 0.81 between clones and ranged from 0.07 to 0.17 within RRIM600 clone. A specific 320 bp fragment of the oidium-resistant clones was found through genotype analysis. These results showed that AFLP fingerprints were highly reproducible and powerful and can be widely used in germplasm identification and genetic diversity analysis of Hevea brasiliensis. In addition, based on the AFLP data, cluster analysis was performed. Cluster results showed that all the clones studied were almost clustered into a group one by one.      

Characterization of Iberian pig genotypes using AFLP markers

The use of the AFLP (amplified fragment length polymorphism) technique for the characterization of highly inbred Iberian pig breed genotypes and the detection of strain-specific polymorphisms is demonstrated. Twelve different primer combinations were used on individual DNA samples from animals belonging to two black hairless Iberian pig strains, Guadyerbas and Coronado. These amplification reactions allowed the detection of more than 1700 amplification products of which 26 were identified as strain-specific markers, present in all individuals of one strain and absent in the other. Comparison of male and female amplification products within one strain also allowed the identification of 8 male-specific amplified bands. AFLP showed a great power of marker detection due to a high multiplex ratio and high reproducibility. Comparison of similarity and co-ancestry coefficient matrices also showed the usefulness of AFLP markers to estimate genetic relationships between individuals pigs.     

羊草种质基因组DNA的AFLP多态性研究

羊草是禾本科牧草之王 ,在当前我国西部生态建设和草原畜牧业发展中发挥着重要作用。用AFLP方法对2 7份我国不同地区分布的羊草 (Leymuschinensis (Trin .)Tzvel)材料进行了基因组DNA多态性分析 ,8对AFLP引物组合在 2 7个不同羊草基因型中共扩增出 5 37条带 ,产生出的DNA片段大小分布在 75bp - 5 30bp之间。其中单态性带 89条 ,占 16 .6 % ,多态性带 32 9条 ,占 6 1.3%。平均每对引物组合扩增的DNA带数为 6 6 .13,总的多态性比率为 78.84%。AFLP多态信息含量PIC值分布于 0 .0 - 0 .5之间 ,平均PIC值为 0 .2 16 ,出现的PIC最大值 (0 .5 )约占AFLP标记的 8.5 % ,说明羊草基因组DNA的多态性比较丰富。以 5 37个AFLP标记为原始数据 ,根据Nei和Li的方法对 2 7份羊草材料进行遗传变异和聚类分析的结果表明 :羊草种内有高频率的遗传变异发生 ,且与地理分布和生态环境密切相关 ;2 7份羊草不同基因型被划分为四大类群 ,不同类群相互间的遗传距离相对较大 ,在树状图中表现为较远的亲缘关系。对羊草种内遗传变异发生的原因和品种的形成进行了初步讨论。     

Identification and Characterization of Malaysian River Catfish, Mystus nemurus (C&V): RAPD and AFLP Analysis

This work represents the first application of the amplified fragment length polymorphism (AFLP) technique and the random amplified polymorphic DNA (RAPD) technique in the study of genetic variation within and among five geographical populations of M. nemurus. Four AFLP primer combinations and nine RAPD primers detected a total of 158 and 42 polymorphic markers, respectively. The results of AFLP and RAPD analysis provide similar conclusions as far as the population clustering analysis is concerned. The Sarawak population, which is located on Borneo Island, clustered by itself and was thus isolated from the rest of the populations located in Peninsular Malaysia. Both marker systems revealed high genetic variability within the Universiti Putra Malaysia (UPM) and Sarawak populations. Three subgroups each from the Kedah, Perak, and Sarawak populations were detected by AFLP but not by RAPD. Unique AFLP fingerprints were also observed in some unusual genotypes sampled in Sarawak. This indicates that AFLP may be a more efficient marker system than RAPD for identifying genotypes within populations.     

Characterisation of Chinese elite cultivars and genetic resources of chestnut by AFLP

We selected a informative set of twelve amplified fragment length polymorphism (AFLP) primer pairs suitable for evaluation of Chinese chestnut (Castanea mollissima Blume) genotypes. Cluster analysis based on 198 polymorphic AFLP amplified by these 12 primer pairs clearly divided investigated genotypes according to their place of origin. We showed, that genetic basis of modern genotypes is narrow also in the case of this species.     

中国食用向日葵种质资源遗传变异的RAPD及AFLP分析

本研究采用RAPD和AFLP方法对23个中国不同地区的食用向日葵（Helianthus annuus L.)骨干品种进行了遗传变异分析,同时对两种标记系统进行了比较。26个RAPD引物产生了总计192条DNA条带,大小分布 于0.26kb-1.98kb之间,其中165条（86．12％）具有多态性,每条引物产生DNA条带的平均数为7．38。8对AFLP引物组合共产生了576条带,分布于100bp-500bp之间,其中的341条具有多态性,多态百分率为76．00％,每对引物组合产生DNA条带的平均数为72。RAPD方法检测的每位点有效等位基因数（1．76）大于AFLP（1．65）,AFLP标记位点的平均多态性信息量（PIC）（0．38）低于RAPD标记位点PIC（0．41）,但AFLP标记具有很高的多态性检测效率（Ai=38．52）。用RAPD标记分析23个食用向日葵材料的亲缘关系,Nei氏相似性系数分布在47．84％－82．06％,平均相似性系数为0．6495,而采用AFLP的Nei氏相似性系数分布在54．15％－83．52％,平均相似性系数为0．6884。RAPD数据的标准差为0．13,而AFLP数据的标准差为0．08。因此,采用RAPD和AFLP方法分析食用向日葵遗传变异,RAPD标记具有较低相似性系数和较高方差而AFLP则相反。源于两种不同标记的遗传相似矩阵的相关系数为0．51,说明采用RAPD和AFLP系统分析食用向日葵遗传变异得到的结果有一定的相关性,无论采用RAPD还是AFLP标记进行聚类分析,都将23个不同基因型的食用向日葵材料分成了三个类群。