向日葵品种鉴定和纯度分析的AFLP研究

从杂交油葵A15及其亲本的1/2粒干种子中提取基因组DNA,选用17对引物组合进行AFLP分析,构建了它们的指纹图谱,17对引物在A系与R系当中共扩增出1125条扩增产物,其中144条带表现出多态性,平均每对引物扩增66条带。不同引物组合产生的DNA片段数目在50-70之间,大小分布于100bp-500bp,多态性比率为12.8%。从中筛选出的2对引物E-AAC/M-CTC和E-ACG/M-CTG可将亲本和子代区分开;引物对E-AAC/M-CTC在A系中扩增出440bp,190bp,160bp3条特征谱带,在R系中扩增出380bp,350bp,225bp,180bp4条特征谱带,E-ACG/M-CTG在A系中扩增出了2条特征带480bp和265bp,在R系中扩增出490bp,220bp,205bp,125bp4条特征谱带,且上述谱带均在子代中出现,用引物组合E-ACG/M-CTG对A15,双亲以及与A15外型十分相似的10个常用油葵杂交种进行AFLP分析,不仅表现出良好的多态性,并能够清楚地将它们加以区分,以其对50粒A15杂交种子进行纯度鉴定,得到与大田纯度检测一致的结果。说明使用AFLP标记检测油用向日葵的品种和纯度是可行的,对行种子纯度和品种鉴定的方法进行了讨论。     

陕油8号种子纯度的RAPD鉴定研究

从杂交油菜“陕油8号”及其亲本中提取基因组DNA,用100个RAPD随机引物进行扩增,从中筛选出3个可将亲本和子代区分的引物BA208、BA1090、BA497。BA208产生亲本互补的特征带BA208-1050bp、BA2081250bp;BA1090产生母本特征带BA1090-700bp,BA497产生父本特征带BA497-870bp,上述谱带均在子代中出现。以BA208产生的特征谱带作为分子标记对杂交油菜种子纯度鉴定得到了一致的结果,并与大田纯度检测结果一致。BA497可将“陕油8号”与当地4个主栽品种有效区分。此外,还对双引物共同鉴定杂交种子纯度问题进行了初步探讨。     

利用SSR标记鉴定西瓜杂交种纯度的研究

以2个西瓜杂交品种(系)的种子黑公子和04-17及其亲本为材料,用SSR标记技术研究杂种与其双亲之间的扩增谱带多态性,以甄别真假杂种.结果发现,所试验的52对SSR引物中有13对引物分别在2个西瓜杂交种和其双亲之间存在扩增条带的多态性,表现为:多数SSR引物对自交系的扩增只出现1条带,但部分引物在某些自交系中扩增出2条带,杂交种条带均为父母本的互补型,很适合做杂交种纯度鉴定.用引物CMCT134b对黑公子和引物CMGA165对04-17进行了各100粒单种子SSR鉴定,所测纯度分别为96%和100%,与田间纯度95.6%和99.7%非常接近,表明SSR标记技术在西瓜杂交种子纯度室内快速检测中的应用前景.     

大豆种质资源SRAP分子标记中的引物筛选

以113个大豆栽培品种和20个野生品种为材料,从288对引物组合中筛选出12对多态性丰富、条带清晰、可重复性好的SRAP引物组合。用筛选出的12对引物组合对大豆品种进行PCR扩增,获得了带型丰富和清晰可辨的DNA的PAGE指纹图谱;共扩增出251条谱带,其中多态性条带220条,多态性谱带比率为87.6%,平均每个引物扩增出18.3条谱带。结果显示,所筛选出的12对引物组合可以有效的应用于大豆种质资源的SRAP分析。     

猕猴桃AFLP分析体系的建立

从64对AFLP分析引物中随机选取了19对引物组合。经过跑小板的聚丙烯酰胺凝胶,银染显带AFLP条带,从中筛选出可做荧光的8对引物。再从中选取了扩增位点丰富,带型质量好,分辨率较高,条带信号强度一致性好,条带分布均匀,且条带较完整的4对引物：E-AAC＋M-CAC、E-AAG＋M-CTG、E-AAC＋M-CAG、EAAC＋M-CTA进行荧光跑带、读带。共在156个位点上扩增出条带,4对引物共扩增出多态性条带132条,多态性比例平均为84．62％,4对引物对10份猕猴桃材料的区分率达100％。说明该4对引物用于猕猴桃属植物的AFLP分析是可行的。     

棉花2个多标记基因系及其杂交后代AFLP分析

应用AFLP分子标记技术,对陆地棉两个多标记基因系T582和T586及其杂交后代F1等进行了DNA多态性分析。结果表明:在58对EcoRI/MseI引物组合中,筛选出41对引物组合具有多态性,多态性的引物组合占筛选总组合的70.69%。AFLP分子标记具有高度的多态性,非常适于基因组差异较小的(棉花)材料之间的多态性筛选。采用聚丙烯酰胺银染法显带技术,AFLP进行PCR扩增能看到30~80条DNA亮带,且检测灵敏度高,可区别只相差十几个bp甚至几个bp大小的DNA片段。但AFLP标记以显性标记占绝对优势,共显性标记比率极少,故而难以区分种质的杂合和纯合,这是它的惟一不足之处。     

不同倍性黄瓜遗传差异的AFLP分析

采用AFLP(Amplified fragment length polymorphism)技术对黄瓜(Cucumis sativusL.)品种‘津绿4号’的单倍体、二倍体和四倍体进行基因组DNA多态性比较。结果表明:(1)从35对引物扩增获得2 188条60~500 bp的条带,多态性位点仅有20个,占0.92%,其中22对引物组合扩增的不同倍性材料的AFLP指纹没有明显差异;(2)在多态性位点表现中,以二倍体的条带存在,单倍体和(或)四倍体的条带丢失为主,在四倍体中扩增出1条特异带;(3)与相应的二倍体相比,单倍体和四倍体有特异片段的消失和增加。     

部分两用桃品种(系)指纹图谱的建立

以近亲个体'顺10-16'、'青北10-7'和'贺春'为材料建立了两用桃AFLP研究体系,从64对引物组合中筛选出了E-AAT/M-ACT、E-AAT/M-CTG、E-ACA/M-CTG和E-ACA/M-CTT等4个多态性好、分辨率高的引物组合;应用该体系对'锦春'等23个两用桃品种(系)进行AFLP分析,结果共扩增出127条带,其中多态性带62条,多态性百分率48.8%,以其中特异性较高的23个多态性条带构建了这23个两用桃品系的指纹图谱,为两用桃品种鉴定及保护奠定了基础.     

青花菜细胞质雄性不育系线粒体DNA的提取与RAPD分析

利用分子生物学方法提取青花菜不育系及其保持系线粒体的DNA,经琼脂糖凝胶电泳表明所提取的线粒体DNA纯度较高。通过40个引物进行随机引物多态性扩增,结果表明,由引物S66扩增出一条1 000 bp左右的特异条带BMS1000,该条带是不育系m tDNA所特有的,初步推断该特异条带可能与不育性相关。     

大白菜杂交种''冠春''杂交率的RAPD分析

从春大白菜品种‘冠春’及其亲本中提取基因组DNA,用320个随机引物进行RAPD扩增,从中筛选出5 个可将亲本和子代区分的引物S4、S47、S73、S134和S194。S4产生父本特征带S4-370;S47和S134产生母本特征带S47-700 和S134-1200;S73和S494产生亲本互补的特征带S73-660、S73-730和S494-400、S494-1770,上述谱带均在子代中出现。以这5个引物产生的特征谱带建立杂交种‘冠春’及其亲本的RAPD特异指纹。通过对134个‘冠春’的种子进行纯度鉴定,结果表明2个父本和4个母本与大田检测结果完全一致。进一步验证了4种鉴定大白菜杂交种方法的可行性。     

AFLP标记技术在鉴定甘蓝种子真实性及品种纯度中的应用

利用AFLP方法对在农业生产上大面积推广使用的5个甘蓝杂交组合及其10个亲本共15个材料进行了分析研究,得到了清晰的DNA扩增指纹图谱.在AFLP分析中,共采用了32个EcoRI+3/MseI+3引物组合,每个引物组合扩增出的条带数在43～62条之间,平均为54.5条.并从这32个引物组合中筛选出一个引物组合,能够用来对供试5个甘蓝杂交种进行真实性及品种纯度鉴定.从而证明了AFLP技术在甘蓝种子真实性及品种纯度鉴定中的可行性.该技术应用于甘蓝种子真实性及品种纯度鉴定在国内尚属首次,其稳定性重复性好,检测分辨率高,很适合甘蓝种子真实性及品种纯度鉴定.是今后种子真实性及品种纯度鉴定的发展方向,应加大其研究力度.     

转基因抗虫棉SSR和AFLP遗传变异研究

利用SSR和AFLP两种分子标记技术,分析了52份转基因抗虫棉品种（系）的遗传多样性。结果表明：在61对SSR引物中,有4对引物在供试材料中表现出多态性,共扩增出102个标记,其中多态性标记25个,多态性百分率为24．51％,每对引物的扩增带数变化在17～30之间;在100对AFLP引物中,有9对引物在供试材料中产生多态性,共扩增出618个标记,多态性标记33个,占总数的5．34％,每对引物组合扩增的标记数分布于47～81之间。成对品种的欧式距离变化在2．00～5．57之间,平均值为4．21,单一品种欧氏距离的平均值分布在3．73～4．75之间,表明不同品种之间遗传差异不大。基于SSRs和AFLPs多态性数据的聚类分析,可以将供试材料划分为3个类群（SAGs）,但类群划分与品种地理来源不十分吻合。     

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。     

Amplified fragment length polymorphisms as a tool for DNA fingerprinting sunflower germplasm: genetic diversity among oilseed inbred lines

 Amplified fragment length polymorphism (AFLP) analysis is a rapid and efficient method for producing DNA fingerprints. The AFLP diversity of sunflower has not been described, and much of the public germ plasm of sunflower has not yet been fingerprinted. Our objectives were to: (1) estimate genetic similarities, polymorphism rates, and polymorphic information contents (PICs) for AFLP markers among elite public oilseed inbred lines, and (2) assess the genetic diversity of inbred lines using genetic similarities estimated from AFLP fingerprints. We produced fingerprints for 24 public inbred lines of sunflower (Helianthus annuus L.) using six AFLP primer combinations. These primers produced a total of 359 AFLP markers or about 60 markers per primer combination. Genetic similarities ranged from 0.70 to 0.91, polymorphism rates ranged from 7 to 24%, and PICs ranged from 0.0 to 0.5. Genetic similarities were lower overall for maintainer (B)×restorer (R) crosses than for B×B or R×R crosses. Principal-coordinate and cluster analyses separated lines into two groups, one for B-lines and another for R-lines. These groupings illustrate the breeding history and basic heterotic pattern (B×R) of sunflower and the widespread practice of using B×B and R×R crosses to develop new lines. There were, nevertheless, distinct subgroups within these groups. These subgroups may represent unique heterotic groups and create a basis for formally describing heterotic patterns in sunflower. Received: 10 June 1996 / Accepted: 4 April 1997     

Comparative Evaluation of RAPD and AFLP Based Genetic Diversity in Brinjal (Solanum melongena)

The present investigation was carried out with an objective of evaluating genetic diversity in brinjal (Solanum melongena) using DNA markers. A total of 38 brinjal accessions including one wild-species, Solanum sisymbrifolium were characterized using random amplified polymorphic DNA (RAP D) and amplified fragment length polymorphism (AFLP) techniques. Out of 45 primers employed to generate RAPD profiles, reproducible patterns were obtained with 32 primers and 30 (93.7%) of these detected polymorphism. A total of 149 bands were obtained, out of which 108 (72.4%) were polymorphic. AFLP analysis was carried out using four primer combinations. Each of these primers was highly polymorphic. Out of 253 fragments amplified from these four primer combinations, 237 (93.6%) were polymorphic. The extent of pair-wise similarity ranged from 0.264 to 0.946 with a mean of 0.787 in RAPD, in contrast to a range of 0.103 to 0.847 with a mean of 0.434 in AFLP. The wild species clustered separately from the brinjal genotypes. In the dendrogram constructed separately using RAPD and AFLP markers, the brinjal genotypes were grouped into clusters and sub-clusters, and the varieties released by IARI remained together on both the dendrograms. All the 30 RAPD primers in combination and each of the four primer pairs in AFLP could distinguish the brinjal accessions from each other. AFLP was thus found to be more efficient than RAPD in estimation of genetic diversity and differentiation of varieties in brinjal.     

利用向日葵重组自交系构建遗传图谱

以向日葵自选系K55为母本、K58为父本杂交组合,通过单粒传得到的187个F_5：6代重组自交系群体为作图材料,联合应用SSR和AFLP标记构建遗传连锁图谱。经过78对SSR引物和48对AFLP引物组合选择性扩增,分别得到341和1119条带,共1460条,分别获得多态性条带184条和393条,共577条多态性条带,占所有条带的39.52%。SSR和AFLP标记各有84个和108个多态性标记偏离孟德尔分离比例(P=0.05),共192个偏分离标记。采用JoinMap4.0软件进行连锁分析,构建了1张总长度为2759.4 cM、包含17个连锁群、连锁495个多态性标记的遗传图谱,其中偏分离标记170个,标记间的平均图距为5.57 cM。每个连锁群上分布有5~72个标记,长68.88~250.17 cM。本图谱为向日葵永久性图谱,为向日葵重要性状QTL定位和基因克隆奠定基础。     

Development of AFLP markers in barley

To investigate the application of amplified fragment length polymorphism (AFLP) markers in barley, 96 primer combinations were used to generate AFLP patterns with two barley lines, L94 and Vada. With seven primer combinations, only a few intense bands were obtained, probably derived from repeated sequences. With the majority of the remaining 89 primer combinations, on average about 120 amplification products were generated, and the polymorphism rate between the two lines was generally over 18%. Based on the number of amplified products and the polymorphism rate, the 48 best primer combinations were selected and tested on 16 barley lines, again including L94 and Vada. Using a subset of 24 primer combinations 2188 clearly visible bands within the range from 80 to 510 bp were generated; 55% of these showed some degree of polymorphism among the 16 lines. L94 versus Vada showed the highest polymorphism rate (29%) and Proctor versus Nudinka yielded the lowest (12%). The polymorphism rates per primer combination showed little dependence on the barley lines used. Hence the most efficient and informative primer combinations identified for a given pair of lines turned out to be highly efficient when applied to others. Generally, more than 100 common markers (possibly locus specific) among populations or crosses were easily identified by comparing 48 AFLP profiles of the parent lines. The existence of such a large number of markers common to populations will facilitate the merging of molecular marker data and other genetic data into one integrated genetic map of barley. Received: 28 October 1996 / Accepted: 27 November 1996