Identification and analysis of genetic variation among rose cultivars using random amplified polymorphic DNA

Identified germplasm is an important component for efficient and effective management of plant genetic resources. Traditionally, cultivars or species identification has relied on morphological characters like growth habit or floral morphology like flower colour and other characteristics of the plant. Studies were undertaken for identification and analysis of genetic variation within 34 rose cultivars through random amplified polymorphic DNA (RAPD) markers. Analysis was made by using twenty five decamer primers. Out of twenty five, ten primers were selected and used for identification and analysis of genetic relationships among 34 rose cultivars. A total of 162 distinct DNA fragments ranging from 0.1 to 3.4 kb was amplified by using 10 selected random decamer primers. The genetic similarity was evaluated on the basis of presence or absence of bands. The cluster analysis indicated that the 34 rose cultivars form 9 clusters. The first cluster consists of eight hybrid cultivars, three clusters having five cultivars each, one cluster having four cultivars, two clusters having three cultivars each and two clusters having one cultivar each. The genetic distance was very close within the cultivars. Thus, these RAPD markers have the potential for identification of clusters and characterization of genetic variation within the cultivars. This is also helpful in rose breeding programs and provides a major input into conservation biology.     

Identification of Tinospora cordifolia (Willd.) Miers ex Hook F & Thomas using RAPD markers

Identified germplasm is an important component for efficient and effective management of plant genetic resources. Traditionally, plant identification has relied on morphological characters like growth habit, floral morphology like flower colour and other characteristics of the plant. Studies were undertaken for identification and genetic variation within 15 clones of Tinospora cordifolia through random amplified polymorphic DNA (RAPD) markers. Analysis was made using forty decamer primers. Out of them, 15 primers were selected and used for identification and genetic relationships within 15 clones. A total of 138 distinct DNA fragments ranging from 0.2 to 3.2 kb were amplified using 15 selected random primers. The genetic similarity was evaluated on the basis of presence or absence of bands. The genetic distance was very close within the clones. Thus, these RAPD markers have the potential for identification of species and characterization of genetic variation within the population. This study will be helpful to know the genetic background of the medicinal plants with high commercial value, and also provides a major input into conservation biology.     

Genetic variability and relationships among thirty genotypes of finger millet (Eleusine coracana L. Gaertn.) using RAPD markers

Ragi or finger millet (Eleusine coracana L.) is an important crop used for food, forage, and industrial products. It is distributed in tropical and temperate regions of the world. The germplasm identification and characterization is an important link between the conservation and utilization of plant genetic resources. Traditionally, species or varieties identification has relied on morphological characters like growth habit, leaf architecture or floral morphology. Investigation through RAPD (random amplified polymorphic DNA) markers was undertaken for identification and determination of the genetic variation among thirty genotypes of ragi of the family Poaceae. Thirteen selected decamer primers were used for genetic analysis. A total of 124 distinct DNA fragments ranging from 300-3000 bp was amplified by using selected random RAPD marker. The genetic similarity was evaluated on the basis of the presence or absence of bands. Cluster analysis was made by the similarity coefficient. It indicated that the 30 genotypes of ragi form two major clusters, first, a major cluster having only one genotype, i. e. Dibyasinha and a second major cluster having twenty-nine genotypes. The second major cluster again subdivides into two minor clusters. A first minor cluster has only three varieties, i. e. Neelachal, OEB-56 and Chilika. The genotypes Neelachal and OEB-56 exhibit a 86% similarity with each other and 80% similarity with Chilika. A second minor cluster has 26 genotypes and is divided into two sub-minor clusters. The first sub-minor cluster has only one genotype (VL-322). The second sub-minor cluster again subdivides into two groups. One group has one genotype and the second group again is divided into two sub-groups, one with 13 genotypes and the other with 11 genotypes. The highest similarity coefficient was detected in a genotype collected from southern India and the least from northern India. The genotypes of finger millet collected from diverse agroclimatic regions of India constitute a wide genetic base. This is helpful in breeding programs and a major input into conservation biology of cereal crop.     

Evaluation of genetic relationships in Dalbergia species using RAPD markers

Conservation of identified germplasm is an important component forefficient and effective management of plant genetic resources. Traditionally,species identification has relied on morphological characters like growth habit,floral morphology like flower colour, and agronomic characteristics of the plant.Dalbergia species are important wind-dispersed tropicaltimber trees which exhibit high intrafruit seed abortion because of intensesibling competition for maternal resources. Studies were undertaken foridentification and genetic relationships in five species ofDalbergia and to evaluate genetic diversity withinpopulations of Dalbergia sisso, D.latifolia, D. paniculata, D.assamica and D. spinosa by using randomamplified polymorphic DNAs (RAPD) markers. Analysis was started by using 30decamer primers that allowed to distinguish five species and to select a reducedset of primers. The selected primers were used for identification and forestablishing a profiling system to estimate genetic relationships and toevaluate the genetic variability among the individuals in a population ofDalbergia species. A total of 120 distinct DNA fragments(bands), ranging from 0.3 to 4.0 kb, were amplified byusing nine selected random decamer primers. The genetic similarity was evaluated onthe basis of presence or absence of bands, which revealed a wide range ofvariability within the species. The cluster analysis indicated that five speciesof Dalbergia formed two major clusters. The first clusterconsisted of D. spinosa, D. latifolia and D.sisso. The second cluster was represented by two species, i.e.D. paniculata and D. assamica.A maximum similarity of 60% was observed in D. paniculata andD. assamica and they formed a minor cluster.Dalbergia latifolia and D. sissoformed another minor cluster with more than 50% similarity. Dalbergiaspinosa shared up to 40% similarity with D.latifolia and D. sisso. All the species sharemore than 20% similarity among themselves. The closest genetic distance existedwithin populations of different Dalbergia species. Thus,these RAPD markers have the potential for conservation of identified clones andcharacterization of genetic relatedness among the species. This is also helpful intree breeding programs and provides an important input into conservation biology.     

Characterization of genetic identities and relationships of Brassica oleracea L. via a random amplified polymorphic DNA assay

Summary Effective conservation and the use of plant genetic resources are essential for future agricultural progress. Critical to this conservation effort is the development of genetic markers which not only distinguish individuals and accessions but also reflect the inherent variation and genetic relationships among collection holdings. We have examined the applicability of the random amplified polymorphic DNA (RAPD) assay for quick, cost-effective, and reliable use in addressing these needs in relation to collection organization and management. Twenty-five decamer oligonucleotide primers were screened individually with a test array composed of individuals representing a range of genetic relationships in Brassica oleracea L. (vegetable and forage cole crops). Over 140 reproducible, polymorphic fragments were generated for study. Each individual of the test array exhibited a unique molecular genotype and composites specific for accessions and botanical varieties could be established. An analysis of similarity based on amplified DNA fragments reflected the known genetic relationships among the selected entries. These results demonstrated that RAPD markers can be of great value in gene bank management for purposes of identification, measurement of variation, and establishment of genetic similarity at the intraspecific level.     

Genetic relationships and discrimination of ten influential Upland cotton varieties using RAPD markers

Influential Upland cotton ( Gossypium hirsutum L.) varieties are those that have the higher genetic contributions to modern Upland cultivars than other germplasms. Our previous research has shown significant differences in general combining ability (GCA) effects for yield, yield components, and fiber properties among ten influential cotton varieties. In this study, we used random amplified polymorphic DNA (RAPD) data to evaluate DNA variation of these ten varieties. Of 86 random decamer primers screened for their capability of amplifying DNA via the polymerase chain reaction (PCR), 63 generated a total of 312 DNA fragments. Forty two bands were polymorphic, which showed a low percentage (13.5%) of DNA variation among these influential varieties. Genetic similarities among the ten varieties based on RAPD data were from 92.7% to 97.6%. All of the varieties were individually identified by variety specific markers in genetic fingerprinting. One primer, UBC-149, amplified a 1,430-bp DNA fragment that was absent in five varieties and present in the other five varieties. This RAPD marker had significant negative relationships with GCA-effect estimates for seed cotton yield, lint yield, number of bolls per plant and micronaire, and significant positive relationships with GCA effects for boll size and seed index. This finding, for the first time, identifies a DNA fragment in cotton that is a potential DNA marker linked to a yield gene(s) or a yield-related gene(s).     

Comparative studies of genetic diversity in kenaf (Hibiscus cannabinus L.) varieties based on analysis of agronomic and RAPD data

Kenaf (Hibiscus cannabinus L.) is a fiber crop classified in the genus Hibiscus (Malvaceae), and has a great potential for its multipurpose utilization, in addition to its traditional usage. Varietal identification of kenaf is always problematic and knowledge on genetic diversity of kenaf varieties is also limited, which significantly hindered our effective utilization and conservation of the valuable kenaf germplasm. In order to find a proper method for identifying kenaf varieties and studying their variation, morpho-agronomic characters and random amplified polymorphic DNA (RAPD) markers were analyzed among 14 kenaf varieties commonly used in Japan. Data from morphological analysis showed that the included kenaf varieties could be divided into three major groups. The characters, such as middle stem diameter, whole stalk weight, and days to 50% flowering, are highly responsible for the variation of the kenaf varieties, but it is difficult to identify individual varieties merely by the morpho-agronomic characters. On the other hand, clearly separation of the kenaf varieties was achieved based on the RAPD variation patterns. Genetic relationship of the kenaf varieties can also be traced through the analysis of RAPD and morph-agronomic variation. It is concluded from the present study that RAPD analysis is an effective tool in identifying of kenaf varieties and determining their genetic relationships, particularly when combined with the analysis of morpho-agronomic characters.     

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.     

Genomic relations among 31 species of Mammillaria haworth (Cactaceae) using random amplified polymorphic DNA

Thirty-one species of Mammillaria were selected to study the molecular phylogeny using random amplified polymorphic DNA (RAPD) markers. High amount of mucilage (gelling polysaccharides) present in Mammillaria was a major obstacle in isolating good quality genomic DNA. The CTAB (cetyl trimethyl ammonium bromide) method was modified to obtain good quality genomic DNA. Twenty-two random decamer primers resulted in 621 bands, all of which were polymorphic. The similarity matrix value varied from 0.109 to 0.622 indicating wide variability among the studied species. The dendrogram obtained from the unweighted pair group method using arithmetic averages (UPGMA) analysis revealed that some of the species did not follow the conventional classification. The present work shows the usefulness of RAPD markers for genetic characterization to establish phylogenetic relations among Mammillaria species.     

用RAPD分子标记探讨沙拐枣属的种间关系

利用随机扩增多态性DNA（RAPD）技术分析了14种沙拐枣属（Calligonum L.)植物,通过对16个Sangon公司十聚体随机引物进行PCR扩增,3个引物能产生多态性带。对3个引物扩增产生的45条扩增产物,计算单匹配系数,应用UPGMA方法构建亲缘关系树状图。分析结果表明：（1）物种间遗传差异明显,具有丰富的遗传多样性;（2）14种沙拐枣属植物明显聚为4类,与传统的形态学分类结果基本一致。     

大豆灰斑病菌生理小种的RAPD标记*

运用随机扩增多态性DNA（RandomamplifiedpolymorphicDNA,RAPD）技术对发生于中国东北的大豆发斑病菌（Cercosporidiumsojinum）的10个生理小种进行基因组DNA多态性分析。用13个10-核苷酸随机引物共计获得了111个RAPD标记,其中86.5％具有多态性,通过聚类分析确定了供试小种间的亲缘关系。试验证明,RAPD技术分析大豆灰斑病菌遗传变异可提供大量分子标记,综合分析13个随机引物的扩增谱带可将供试菌株清楚分开。RAPD技术是一项操作简单、快速和灵敏的方法,极具对病菌群体遗传分析的潜力。     

大豆灰斑病菌生理小种的RAPD标记

运用随机扩增多态性DNA（RandomamplifiedpolymorphicDNA,RAPD）技术对发生于中国东北的大豆发斑病菌（Cercosporidiumsojinum）的10个生理小种进行基因组DNA多态性分析。用13个10-核苷酸随机引物共计获得了111个RAPD标记,其中86.5％具有多态性,通过聚类分析确定了供试小种间的亲缘关系。试验证明,RAPD技术分析大豆灰斑病菌遗传变异可提供大量分子标记,综合分析13个随机引物的扩增谱带可将供试菌株清楚分开。RAPD技术是一项操作简单、快速和灵敏的方法,极具对病菌群体遗传分析的潜力。     

Evaluation of genetic relationship in Typhonium species through random amplified polymorphic DNA markers

Studies were undertaken to identify genetic relationships in three species of Typhonium and to evaluate the genetic variance within populations of Typhonium trilobatum, Typhonium roxburghii and Typhonium flagelliforme by using random amplified polymorphic DNA (RAPD) markers. A total of 193 distinct DNA fragments ranging from 0.2 to 3.2 kb, were amplified using 22 selected random decamer primers. The cluster analysis indicated that the three species of Typhonium formed two clusters: the first one consisted of T. trilobatum and T. roxburghii, the second one was represented by T. flagelliforme. A maximum similarity of 63 % was observed in T. trilobatum and T. roxburghii. T. flagelliforme shared up to 43 % similarity with T. trilobatum and T. roxburghii. The closest genetic distance was obtained within populations of different Typhonium species.     

中国棉花枯萎菌生理小种的RAPD分析

利用随机扩增多态性ＤＮＡ（ＲＡＰＤ）分子标记方法对我国棉花枯萎菌３个生理小种（３、７、８号）进行遗传多样性分析,以筛选出的１０个随机引物对采自我国１１个省（自治区）的２６个代表菌株及国外３个不同生理小种对照菌株进行ＲＡＰＤ－ＰＣＲ增,共产生了１４０个ＲＡＰＤ分子标记,其中８７．８％具有多态性。通过聚类分析确定了供试小种间的亲缘关系,并寻找到了我国３、７、８号小种的特异条带,为确立我国棉花枯萎菌生理小种在国际上的分类地位提供了可靠的分子证据。     

DNA fingerprinting of jute germplasm by RAPD

The genotype characteristic of cultivars was investigated, along with varieties of both of the jute species, Corchorus olitorius and Corchorus capsularis, in the germplasm collection at the Bangladesh Jute Research Institute (BJRI). DNA fingerprinting was generated for 9 different varieties and 12 accessions of jute cultivars by using random amplified polymorphic DNA (RAPD). A total of 29 arbitrary oligonucleotide primers were screened. Seven primers gave polymorphism within the varieties, and 6 primers detected polymorphism within the accessions that were tested. A dendrogram was engendered from these data, and this gave a distinct clustering of the cultivated species of jute. Therefore, we generated RAPD markers, which are species-specific. These primers can distinguish between C. olitorius and C. capsularis. From the dendrogram that we generated between the various members of these two species, we found the existing genetic classification that agrees with our molecular marking data. A different dendrogram showed that jute accessions could be clustered into three groups. These data will be invaluable in the conservation and utilization of the genetic pool in the germplasm collection.     

中国棉花枯萎菌生理小种的RAPD分析*

利用随机扩增多态性ＤＮＡ（ＲＡＰＤ）分子标记方法对我国棉花枯萎菌３个生理小种（３、７、８号）进行遗传多样性分析,以筛选出的１０个随机引物对采自我国１１个省（自治区）的２６个代表菌株及国外３个不同生理小种对照菌株进行ＲＡＰＤ－ＰＣＲ增,共产生了１４０个ＲＡＰＤ分子标记,其中８７．８％具有多态性。通过聚类分析确定了供试小种间的亲缘关系,并寻找到了我国３、７、８号小种的特异条带,为确立我国棉花枯萎菌生理小种在国际上的分类地位提供了可靠的分子证据。     

Use of RAPD and ISSR Markers in Detection of Genetic Variation and Population Structure among Fusarium oxysporum f. sp. ciceris Isolates on Chickpea in Turkey

Genetic variation among the isolates of Fusarium oxysporum f. sp. ciceris, the causal agent of chickpea wilt worldwide, was analysed using pathogenicity tests and molecular markers – random amplified polymorphic DNA (RAPD) and inter‐simple sequence repeat (ISSR) polymorphism. Hundred and eight isolates were obtained from diseased chickpea plants in 13 different provinces of Turkey, out of which 74 isolates were assessed using 30 arbitrary decamer primers and 20 ISSR primers. Unweighted pair‐grouped method by arithmetic average cluster analysis of RAPD, ISSR and RAPD + ISSR datasets provided a substantially similar discrimination among Turkish isolates and divided into three major groups. Group 1, 2 and 3 consisted of 41, 18 and 15 isolates, respectively. These methods revealed a considerable genetic variation among Turkish isolates, but no correlation with regard to the clustering of isolates from different geographic regions. Analysis of molecular variance confirmed that most genetic variability resulted from the differences among isolates within regions. Our results also indicated that the low‐genetic differentiation (F_ST) and high gene flow (Nm) among populations had a significant effect on the emergence and evolutionary development of F. oxysporum f. sp. ciceris. This is the first report on genetic diversity and population structure of F. oxysporum isolates on chickpea in Turkey.     

Identification and assessment of genetic relationships in three <Emphasis Type="Italic">Chlorophytum</Emphasis> species and two high yielding genotypes of <Emphasis Type="Italic">C. borivilianum</Emphasis> through RAPD markers

Conservation of identified germplasm is an important component for efficient and effective management of plant genetic resources. Since Chlorophytum species are important medicinal plants, studies were carried out for identification and establish genetic relationships in three species of Chlorophytum and two high yielding genotypes of Chlorophtum borivilianum using RAPD markers. Out of one hundred primers tested, 47 decamers amplified a total of 454 distinct bands ranging from 0.25–3.0 kbp to identify and to evaluate genetic relationships between and among three species of Chlorophytum and two genotypes of Chlorophtum borivilianum. The cluster analysis indicated that three species of Chlorophytum and two genotypes (NRCCB-1 and NRCCB-2) of C. borivilianum formed two major clusters. The first major cluster constituted C. arundinaceum and C. tuberosum, and the second major cluster composed of two subclusters; the first subcluster represented NRCB-1 and NRCB-2 where as the second subcluster represented C. borivilianum. Thus, the RAPD markers have the potential for identification and characterization of genetic relatedness among the species and genotypes. C. borivilianum along with two genotypes also showed similar banding patterns which could be chosen as candidate markers for differentiating the other two species such as C. arundinaceum and C. tuberosum. This would helpful for breeding programmes and provides an important input in conservation biology.     

Genetic distance detected with RAPD markers among selected Australian commercial varieties and boron-tolerant exotic germplasm of pea (Pisum sativum L.)

The optimisation of polymerase chain reaction (PCR) for random amplified polymorphic DNA (RAPD) analysis in pea was investigated and the results were applied to an analysis of five representative Australian varieties and five selected boron-tolerant accessions derived from different geographical regions. Genotypes were compared using 34 random primers (Operon Technologies, Alameda, CA) which generated 180 polymorphic bands. Genetic similarity among genotypes was estimated on the basis of the percentage of common bands between genotypes and a dendrogram was constructed by the unweighted pair grouping method. A pattern of RAPD reaction corresponding to two main groups was discerned. The genetic divergence between Australian varieties and the boron-tolerant accessions suggests an intensive back-crossing programme would be required to transfer boron tolerance to a locally adapted genetic background. Our results show RAPD to be useful for clarifying phylogenic relationships within a species and also to provide useful genetic markers for varietal identification in pea.     

Genetic variation of wild and hatchery populations of the catla Indian major carp (Catla catla Hamilton 1822: Cypriniformes, Cyprinidae) revealed by RAPD markers

Genetic variation is a key component for improving a stock through selective breeding programs. Randomly amplified polymorphic DNA (RAPD) markers were used to assess genetic variation in three wild population of the catla carp (Catla catla Hamilton 1822) in the Halda, Jamuna and Padma rivers and one hatchery population in Bangladesh. Five decamer random primers were used to amplify RAPD markers from 30 fish from each population. Thirty of the 55 scorable bands were polymorphic, indicating some degree of genetic variation in all the populations. The proportion of polymorphic loci and gene diversity values reflected a relatively higher level of genetic variation in the Halda population. Sixteen of the 30 polymorphic loci showed a significant (p < 0.05, p < 0.01, p < 0.001) departure from homogeneity and the F(ST) values in the different populations indicated some degree of genetic differentiation in the population pairs. Estimated genetic distances between populations were directly correlated with geographical distances. The unweighted pair group method with averages (UPGMA) dendrogram showed two clusters, the Halda population forming one cluster and the other populations the second cluster. Genetic variation of C. catla is a useful trait for developing a good management strategy for maintaining genetic quality of the species.