桂花SRAP—PCR体系的确立及验证

以桂花[Osmanthus fragrans (Thunb. ) Lour. ]品种'早银桂'的总DNA为模板,对SRAP-PCR扩增体系中的模板DNA用量,Mg2+、 dNTPs和引物浓度以及Taq DNA聚合酶用量进行单因子实验, 确立了适合桂花总DNA的 SRAP-PCR反应体系:反应体系总体积10 μL,包括30 ng模板DNA、 2.5 mmol·L-1 Mg2+ 、 0.20 mmol·L-1dNTPs、 0.4 μmol·L-1上下游引物和0.75 U Taq DNA聚合酶及1×PCR buffer.采用SRAP引物组合pm21-em8,以78个桂花品种的总DNA为样品,对优化的SRAP-PCR反应体系进行初步验证,共扩增出632条带,多态性条带百分率75.32%;扩增位点15个,多态性位点百分率为86.67%.运用优化的SRAP-PCR体系,使用筛选出的18对SRAP引物组合对88个桂花品种、1个桂花野生种以及2个外类群[柊树O. heterophyllus (G. Don) P. S. Green和华东木犀O. cooperi Hemsl. ]的总DNA进行扩增,共扩增出296个位点,其中多态性位点248个,多态性位点百分率为83.78%.实验结果显示,运用优化的SRAP-PCR反应体系获得的DNA条带清晰、扩增结果稳定、多态性较丰富;SRAP分子标记可用于桂花遗传多样性、品种资源鉴定、亲缘关系以及系统进化等方面的研究.     

湖南甘薯品种的RAPD分析

目的:采用RAPD技术对湖南境内的甘薯品种进行多样性分析,并与境外的部份品种进行比较分类与鉴定研究.方法:从100个10bp的随机引物中筛选出20个扩增效果较好的引物进行扩增.结果:共产生188条带,其中118条为多态性带,占62.8%,平均每个引物扩增出的DNA多态性带数为5.90条,根据扩增结果构建出反映品种多样的UPGMA聚状图,31个品种可以划分为4大类.结论:从分子水平揭示了湖南境内部分甘薯品种的亲缘关系.     

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。     

中国主要黑芝麻品种的遗传多样性分析

利用SRAP和SSR各23对引物对20个中国主要黑芝麻品种进行了遗传多样性分析。结果显示,23对SRAP引物共扩增出DNA带672条,其中多态性带152条,比率为22.62%,平均每对引物扩增总带数和多态性条带分别为29.22条和6.61条。23对SSR多态性引物共扩增出DNA带92条,每对引物扩增出3~6条,平均4.00条;每对引物扩增出多态性带1~5条,平均3.09条,多态性带比率平均为77.17%。20个黑芝麻品种间的遗传相似系数为0.8547~0.9804,遗传距离为0.0159~0.0921,遗传多样性匮乏,遗传基础狭窄。聚类结果表明,来自主产区江西的11个品种明显聚在一起,且江西黑芝麻品种的遗传相似系数高于其他省份品种,遗传距离低于其他省份品种,与其他省份品种的差异均达到极显著水平。加强资源引进和利用是拓宽中国黑芝麻品种遗传基础的迫切要求。     

枇杷栽培种的随机扩增DNA多态性(RAPD)研究

运用RAPD(Random Amplified Polylnorphic DNA)分析技术,对江苏省常绿果树研究中心16个枇杷(E．japonic Thunb Lindl)品种的基因组DNA进行了分析,从50个随机引物中筛选出19个引物,可从各个品种的基因组DNA扩增出谱带,总数为233个,其中多态性DNA片段176个,公共性DNA片段57个,表明这些枇杷品种间存在着丰富的遗传多样性。根据DNA片段的电泳结果,计算出品种间遗传相似系数及遗传距离,应用UPG—MA方法建立了品种遗传关系的系统树,将16个品种分成5类。从随机引物中筛选出2个随机引物能从各个品种的基因组DNA扩增出DNA片段,在16个枇杷品种中2个引物扩增出19个DNA片段,其中3个为公共,16个为多态性或单态性DNA片段。这些结果可为枇杷品种鉴定、分类、亲缘关系确立及品种选育中杂交组合亲本选配提供一定的依据。     

ISSR标记技术在莲藕遗传研究中的运用

利用ISSR技术对 1 2个莲藕品种进行了DNA多态性分析。从 6 5个随机引物中筛选出 7个引物扩增基因组DNA ,共获得 91条带 ,其中 75条为多态性标记 ,每个引物平均提供 1 3个标记信息。由UPMGA方法得到的聚类分析结果表明了1 2个品种间的亲缘关系 ,聚类结果与它们的系谱关系非常吻合     

RAPD分析花椰花不同品种的遗传变异

利用随机扩增多态性DNA（RAPD）方法,对13个花椰花品种的基因组DNA进行多态性分析。选用20个10bp随机引物,共扩增出175条DNA片段,其中多态性片段118例,占67．4％,结果表明,花椰花品种间具有丰富的遗传多样性。依据扩增结果进行遗传相似系数分析,构建聚类分析树状图。初步探讨了各品种间的遗传变异关系及RAPD技术在花椰花种质资源分类鉴定和育种工作中的应用前景。     

烟草RAPD双引物与单引物PCR扩增多态性效率的比较分析

以两个亲缘关系较远的烟草（Nicotiana tabacum）品种台烟7号和白肋21为材料（GS=0.58）,研究了单引物扩增和双引物聚合扩增对RAPD-PCR分子标记多态性的影响。结果显示：双引物反应能够比单引物反应扩增出更多的多态性片段,双引物在白肋21和台烟7号中扩增出的多态性片段总数是单引物反应扩增出的多态性片段总数的6.6倍。因此,双引物RAPD的运用有助于提高烟草多态性分子标记的有效性。     

仙客来(Cyclamen persicum Mill.)的种质资源RAPD分析

利用RAPD技术对20个现今栽培的名优仙客来品种的分类和亲缘关系进行研究,从100个随机引物中筛选出18个用于PCR反应,共在153个位点上扩增出条带,平均每个引物扩增位点8.5个,多态性位点144个,占总带数的94.1%。这种多肽性可以进行品种的鉴定,聚类分析将各品种材料分为4个类群。提出仙客来除目前的观赏性状分类以外,还应具有更科学的以遗传基础为基准的分类方法。也从分子水平揭示了目前栽培的仙客来品种的遗传基础的狭窄性。对RAPD技术在仙客来育种的进一步应用也作了相应的探讨。     

甜樱桃品种及其砧木的RAPD分析

利用RAPD技术,从130个随机引物中筛选出46个引物,对欧洲甜樱桃、欧洲酸樱桃、马哈利樱桃和野生中国樱桃4个类型樱桃种,以及欧洲甜樱桃与中国樱桃的种间杂交种共15个品种的基因组遗传变异进行分析。结果表明,46个随机引物均得到了稳定可重复的RAPD图谱,扩增出的DNA条带大小在100~2625bp之间,多态性位点数517个,多态性位点百分率为98.85%,每个随机引物扩增出的多态性DNA条带数在4~23条。品种间Nei遗传距离在0.166~0.479之间,平均遗传距离0.329;甜樱桃新品种‘秦樱1号’与‘秦岭玛瑙’、‘CDR-1’等10个樱桃砧木之间的遗传距离在0.248~0.376,并且根据遗传距离可以相互区分,所分析的15个樱桃品种均扩增出了特有的DNA条带,每个樱桃特有标记带在2~17个之间,共扩增出149个特有标记,据此可以进行樱桃品种及砧木的RAPD鉴定。研究认为利用RAPD技术可以在分子水平上对甜樱桃品种及其砧木进行快速鉴定。     

桂花品种资源的遗传多样性分析

根据桂花(Osmanthus fragrans)品种的形态特征, 结合AFLP分子标记, 对部分桂花栽培品种进行了遗传多样性分析。结果表明, 桂花品种之间存在着较为丰富的遗传多样性, AFLP分子标记检测到的多态性条带占总扩增条带的57.46%。 根据桂花品种的主要性状特征, 利用数值分类法对其进行分类, 并用UPGMA法对AFLP结果进行聚类分析, 结果均显示桂林地区的桂花品种存在明显的区域性, 花色可以作为重要的分类标准, 同时对桂花品种的分类系统进行了探讨。     

桂花品种资源的遗传多样性分析

根据桂花（Osmanthus fragrans）品种的形态特征,结合AFLP分子标记,对部分桂花栽培品种进行了遗传多样性分析。结果表明,桂花品种之间存在着较为丰富的遗传多样性,AFLP分子标记检测到的多态性条带占总扩增条带的57.46%。根据桂花品种的主要性状特征,利用数值分类法对其进行分类,并用UPGMA法对AFLP结果进行聚类分析,结果均显示桂林地区的桂花品种存在明显的区域性,花色可以作为重要的分类标准,同时对桂花品种的分类系统进行了探讨。     

A new strategy employed for identification of sweet orange cultivars with RAPD markers

We optimized RAPD techniques by increasing the length of RAPD primers and performing a strict screening of PCR annealing temperature to distinguish 60 sweet orange cultivars from the Research Institute of Pomology at the Chinese Academy of Agricultural Sciences. A new approach called cultivar identification diagram (CID) was used to improve the efficiency of RAPD markers for cultivar identification. Thirteen effective primers were first screened from 54 RAPD arbitrary 11-mer primers based on their amplification products and amplified polymorphic bands; they were then used for PCR amplification of all 60 cultivars. All cultivars were manually and completely separated by the polymorphic bands appearing in DNA fingerprints from 13 primers; a CID of the 60 sweet orange cultivars was then constructed. This CID separated all the cultivars from each other, based on the polymorphic bands; the corresponding primers were marked in the correct positions on the sweet orange CID. The CID strategy facilitates the identification of fruit cultivars with DNA markers. This CID of sweet orange cultivars will be very useful for the protection of cultivar rights and for early identification of seedlings in the nursery industry.     

Application of RAPD markers for characterization of γ-ray-induced rose mutants and assessment of genetic diversity

Six parent and their 12 gamma ray-induced somatic flower colour mutants of garden rose were characterized to discriminate the mutants from their respective parents and understanding the genetic diversity using Random amplification of polymorphic DNA (RAPD) markers. Out of 20 primers screened, 14 primers yielded completely identical fragments patterns. The other 7 primers gave highly polymorphic banding patterns among the radiomutants. All the cultivars were identified by using only 7 primers. Moreover, individual mutants were also distinguished by unique RAPD marker bands. Based on the presence or absence of the 48 polymorphic bands, the genetic variations within and among the 18 cultivars were measured. Genetic distance between all 18 cultivars varied from 0.40 to 0.91, as revealed by Jaccard’s coefficient matrix. A dendrogram was constructed based on the similarity matrix using the Neighbor Joining Tree method showed three main clusters. The present RAPD analysis can be used not only for estimating genetic diversity present in gamma ray-induced mutants but also for correct identification of mutant/new varieties for their legal protection under plant variety rights.     

Genetic variation detected with RAPD markers among upland and lowland rice cultivars (Oryza sativa L.)

Genetic variation of nine upland and four lowland rice cultivars (Oryza sativa L.) was investigated at the DNA level using the randomly amplified polymorphic DNA (RAPD) method via the polymerase chain reaction (PCR). Forty-two random primers were used to amplify DNA segments and 260 PCR products were obtained. The results of agarosegel electrophoretic analysis of these PCR products indicated that 208 (80%) were polymorphic. All 42 primers used in this experiment were amplified and typically generated one-to-four major bands. Only two primers showed no polymorphisms. In general, a higher level of polymorphism was found between japonica and indica subspecies while fewer polymorphisms were found between upland and lowland cultivars within the indica subspecies. A dendrogram that shows the genetic distances of 13 rice cultivars was constructed based on their DNA polymorphisms. Classification of rice cultivars based on the results from the RAPD analysis was identical to the previous classification based on isozyme analysis. This study demonstrated that RAPD analysis is a useful tool in determining the genetic relationships among rice cultivars.     

采用RAPD技术探讨花椒的遗传多样性及其与环境的关系

采用RAPD分子标记方法分析11个花椒品种的遗传多样性,以及遗传多样性与环境因素的相关性。从60条随机引物中筛选出10条引物,共扩增出67条带,平均每个引物扩增出6．7条,其中56条具有多态性,多态比例为84％。根据品种间的遗传距离构建的聚类分析树状图,11个花椒品种的相似系数在0．08-0．92之间,可分为2个类群,这种分类与花椒的叶的外形分类结果一致。不同地域种植的同一品种材料遗传距离较大,显示花椒的遗传多样性与地域分布有关系。     

Molecular Characterization of Brinjal (Solanum melongena L) Cultivars using RAPD and ISSR Markers

Molecular characterization of 19 advanced cultivars and landraces of brinjal was carried out using RAPD and ISSR markers. Twenty-nine RAPD primers generated a total of 240 amplified fragments, while 23 anchored and non-anchored ISSR primers produced 299 fragments. Of these, 66 (27.5%) RAPD and 56 (18.73%) ISSR fragments were polymorphic. All the cultivars could be distinguished based on RAPD and/or ISSR profiles. A set of two RAPD primers, OPW 11 and OPX 07, was adequate to distinguish all the 19 cultivars. On the other hand, a minimum of ten ISSR primers were required to achieve the same result. Eleven cultivars could be identified by the unique presence or absence of one to four markers. The correlation between primer Rp and the number of cultivars distinguished by RAPD was r = 0.873, while that for ISSR it was r = 0.327. The correlation between PIC of primer and the number of cultivars distinguished was r = 0.324 for RAPD, while for ISSR primers it was r = ? 0.066. The probability of chance identity between two cultivars for RAPD and ISSR markers was calculated as 8.94×10^?4 and 2.25×10^?2, respectively. The average Jaccard’s similarity coefficient between cultivars based on combined RAPD and ISSR data was estimated to be 0.919. The UPGMA analysis grouped the cultivars into three main clusters with significant bootstrap support. While the cultivars bred at Indian Agricultural Research Institute, New Delhi formed one sub-cluster; others did not show a prominent region-based clustering.     

Partial molecular characterization of some kiwi fruit cultivars by RAPD markers

Molecular variability among seven cultivars of A. deliciosa var. deliciosa was investigated through RAPD markers. Thirty four decamer primers were screened generating polymorphic patterns of amplified DNA for these cultivars. Twenty one selected primers gave clear and reporducible patterns. A total of 430 bands were produced and 29.37% of them were polymorphic. The patterns distinguished between the cultivars and their analysis established an approach to classification within A. deliciosa var. deliciosa based on RAPD markers. The dendrogram clearly differentiated male from female cultivars. While abbot and allison female cultivars were closely related, bruno and abbot female cultivars showed maximum dissimilarity.     

柚类种质资源RAPD标记研究的引物筛选

利用 10 0个 10碱基随机引物 ,对柚类 4个品种酸柚、沙田柚、文旦柚和泰国柚进行了RAPD标记的引物筛选研究 ,结果为无扩增产物的引物 18个 ,在 1、 2、 3个和所有 4个样品中有扩增产物的引物数分别为 2 0、 13、 2 5和 2 4个 ;读取了 12个在所有 4个样品中都有扩增产物的引物的 RAPD带 ,计算了样品间 RAPD多态性位点的百分率为 60 .6% ;计算了样品间的相似系数和遗传距离 ,并对遗传距离进行了 UPGMA聚类分析 ,论证了利用所筛选出的引物对柚类进行 RAPD标记研究的可行性和可靠性     

Optimization of primer screening for evaluation of genetic relationship in rose cultivars

Optimization of primer screening for evaluation of genetic relationship in 34 cultivars of rose through random amplified polymorphic DNA (RAPD) markers was investigated. Four series of decamer primers were used for screening and optimization of RAPD analysis between which A and N series performed good amplification of fragments as compared with other series. The primers OPN-07 and OPN-15 produced maximum number of DNA fragments in Rosa hybrida cv. Anuraag. Some primer either did not produce amplification or produced very poor amplification. Further, ten selected primers were used for genetic analysis of 34 rose cultivars. The primer OPN-15 amplified 21 fragments in all cultivars tested. A total of 162 distinct DNA fragments (bands) ranging from 100 to 3400 base pairs were amplified by using 10 selected random primers. The cluster analysis indicated that these rose cultivars formed nine clusters.