Polymorphism and DNA markers for asparagus cultivars identified by random amplified polymorphic DNA

Summary DNA polymorphism among five Asparagus officinalis L. cultivars-Imperial, Snow, Steline, UC-157 and Larac, as detected by random amplified polymorphic DNA (RAPD), is reported. Thirty one decamer primers were tested. and twenty six of them yielded amplification products. Fourteen primers gave products with at least one polymorphic DNA fragment. Among a total of 119 amplified fragments 33 were polymorphic. These RAPD markers enabled the identification of asparagus cultivars. Unique markers for cultivars were: Snow-bands 475 bp, 772 bp, 412 bp, 935 bp and 820 bp amplified by primers D5, OPA-07, OPA-09, OPA-10 and OPA-18, respectively. Steline-bands 645 bp, 680 bp and 997 bp amplified by primers A32, OPA-03 and OPA-09, respectively. A band 903 bp, amplitied by primer OPA-12, is a marker for Imperial, and a band 420 bp, amplified by primer D52, is a marker for Larac. Cultivar UC-157 could be identified by a combination of shared polymorphic bands. The pairwise marker difference between cultivars ranged from 0.08 to 0.17. A phenogram of the genetic relationship based on RAPD fits with the known origin of the cultivars.     

Stability of RAPD markers for determining cultivar specific DNA profiles in rye (Secale cereale L.)

Summary Cultivar specific DNA profiles in rye were revealed by polymerase chain reaction (PCR) using randomly amplified polymorphic DNA (RAPD) sequences. Ten base primers were used for the amplification of genomic DNA of rye cultivars by PCR. RAPD analysis was found to be reproducible among samples between PCR runs. When amplification profiles of different rye cultivars were compared using various primers, the overall profiles were cultivar specific. However, not all primers revealed polymorphisms. These primers appear to amplify conserved sequences in all rye cultivars. Intracultivar studies were conducted on two of the cultivars. In the cultivar Imperial, no polymorphisms were observed among ten plants analyzed with five primers. In the cultivar Balboa, polymorphisms were observed among fifty plants with four of the ten primers analyzed. Despite the small amount of intracultivar variability, RAPD analysis has the potential to be a rapid and reliable method of cultivar identification in this outcrossing species.     

A comparative analysis of the genetic relationships between rye cultivars using RFLP and RAPD markers

Summary The genetic similarities of eight closely related rye cultivars were estimated using two molecular marking techniques: restriction fragment length polymorphism (RFLP) and random amplified polymorphic DNA (RAPD). Cultivars were evaluated for variation by 11 random cDNA and genomic clones used in combination with four restriction enzymes and 40 decamer primers. A total of 53 polymorphic RFLP fragments and 94 polymorphic RAPD fragments were observed. Based on the presence/absence of fragments, two genetic similarity matrices were calculated which were then used in cluster analysis. Differences between pair of cultivars were observed in RFLP and RAPD dendrograms. RFLP analysis produced estimates of genetic relationships more in accordance with the partially known pedigree of the cultivars than did RAPD analysis. The use of bulk samples of DNA in these analyses affected the sensitivity of RAPD assays more strongly. Dendrograms which took into account all fragments produced, either by RFLP or RAPD, reflected better the relationships between cultivars than did dendrograms based on only one type of marker. This reflects the importance of the number of markers used in determining the genetic relationships between genotypes.     

Evidence of gene introgression in apple using RAPD markers

Summary A genomic remnant of Malus floribunda clone 821 introgressed into the cultivated apple M. x domestica Borkh. was identified using randomly amplified polymorphic DNA (RAPD) markers obtained by the polymerase chain reaction (PCR). Using a set of 59 oligonucleotide decamer primers, polymorphic DNA markers were identified among three pooled DNA samples. Based on the presence or absence of bands among bulked apple scab-resistant selections and cultivars, bulked scab-susceptible cultivars, and a M. floribunda clone 821 sample, one primer, A 15, identified amplified fragments in the scab-resistant bulked sample that was also unique to the M. floribunda clone 821. The unique band from M. floribunda clone 821 was amplified in four out of 17 scab-resistant selections/cultivars. This RAPD, designated OA15₉₀₀, identifies an introgressed fragment that has as yet no known function.     

Genetic diversity among elite Bulgarian barley varieties evaluated by RFLP and RAPD markers

Genetic variation among five elite winter barley cultivars (H. vulgare L.) currently grown in Bulgaria was assessed at the molecular level using restriction fragment length polymorphism (RFLP) and randomly amplified polymorphic DNA (RAPD) markers. The present study sampled RFLPs in four well characterized multigene families in barley: the seed storage protein loci; the 18S, 5.8S and 26S ribosomal DNA loci; the loci coding for 5S ribosomal RNA and the loci coding subunit α of ATP-A complex in the mitochondrial genome. RFLPs were detected in three out of five investigated chromosomal loci in the barley cultivars studied. RAPD assay using arbitrary 10-base primers was applied to generate amplified length polymorphic markers in barley. Overall a total of 15 polymorphic phenotypes were found among the studied barley cultivars by using 11 out of 25 tested primers. All RAPDs were considered as dominant genetic markers except for two, where PCR and Southern blot analysis indicated the presence of codominant amplification products. Five RAPD polymorphisms in F₁ and F₂ progenies of the cross between Alpha and Obzor were inherited in Mendelian fashion. The determined values for the genetic variation proved a high genetic similarity among the tested cultivars. Genetic similarity (GS) calculated from RFLP and RAPD data ranged from 0.888 to 0.997 with a mean GS – 0.933. This revised version was published online in July 2006 with corrections to the Cover Date.     

Heterogeneity of random amplified polymorphic DNA sequences in individual seedlings and bulked samples of four cultivars of Brassica napus

Using four different random amplified polymorphic DNA (RAPD) primers, a qualitative and quantitative assessment was made of the level of DNA sequence heterogeneity present in the seedlings of four representative Australian rapeseed cultivars. It was found that, depending upon the primer/cultivar combination, the seedlings diverged from total homogeneity to almost complete heterogeneity. The increase or decrease of sample-specific RAPD sequences was evaluated in proportional mixtures of DNA from individual seedlings. These results were then compared with those obtained from bulked DNA samples containing DNA from all the seedlings of a cultivar. From these comparisons, it was found that for a specific RAPD to be detectable in a bulked sample, the particular polymorphism had to be present in at least 15% of the individual seedlings. Even so, the bulked samples produced cultivar-specific RAPD banding patterns with all four primers, showing that any of these primers could be used to identify the different rapeseed cultivars. In contrast to the cultivars ‘Oscar’, ‘Dunkeld’ and ‘Narendra’, the cultivar ‘Rainbow’ was found to be highly heterogeneous—as shown by a diversity of RAPD combinations rather than the presence of differing length RAPDs—and it is suggested that this heterogeneity may be related to the improved tolerance of this cultivar to blackleg infection.     

Genetic variability of forage grass cultivars: A comparison of Festuca pratensis Huds., Lolium perenne L., and Dactylis glomerata L.

Three widely used cultivars of each of the species Festuca pratensis Huds., Lolium perenne L., and Dactylis glomerata L. were investigated by means of randomly amplified polymorphic DNA (RAPD) markers and vegetative growth traits in order to investigate genetic variability within each cultivar and to compare the level of diversity among cultivars and species. RAPD markers allowed a clear separation of the three species. Genetic variability based on RAPD markers was considerably lower for F. pratensis cultivars than for L. perenne and D. glomerata cultivars which showed similar levels of variability. The proportion of variability due to variation within cultivars, determined by an analysis of molecular variance, was lower in F. pratensis (64.6%) than in L. perenne (82.4%) and D. glomerata (85.1%). A comparison of F. pratensis and L. perenne, based on vegetative growth traits, confirmed the differences in genetic variability within cultivars. F. pratensis showed lower coefficients of genetic variation for eight of ten traits when compared to L. perenne. This study demonstrates considerable differences in genetic variability which may have consequences for the adaptability and persistency of individual cultivars. This revised version was published online in July 2006 with corrections to the Cover Date.     

RAPD analysis of genetic variation in natural populations of Betula alnoides from Guangxi, China

There is an urgent need for the developmentof early identification techniques inolive-trees due to the economic importanceof cultivar identification in periods ofexpansion like now. We have been able toidentify 22 olive-tree cultivars using only10 different, specific, repeatable markers.These markers were designed by the cloningof significant RAPD bands obtained in PCRperformed on bulked DNA to retain thegenetic variability of each cultivar.Clones were partially or totally sequencedand new primers derived from thesesequences were used to obtain SequenceCharacterised Amplified Region (SCAR)fragments. We have demonstrated that theuse of the 10 SCAR markers is enough toprovide a simple, cheap, and reliableprocedure to identify 22 geographicallyrelated olive-tree cultivars.     

Cultivar identification and genetic relationship among selected breeding lines and cultivars in chickpea (Cicer arietinum L.)

Twenty two RAPD and 22 ISSR markers were evaluated for their potential use in determination of genetic relationships in chickpea (Cicer arietinum L.) cultivars and breeding lines. We were able to identify six chickpea cultivars/breeding lines by cultivar-specific markers. All of the cultivars tested displayed a different phenotype generated either by the RAPD or ISSR primers. Though ISSR primers generated less markers than RAPD primers, the ISSR primers produced higher levels of polymorphism (% of polymorphic markers per primer) than RAPD primers. A high level of within cultivar homogeneity was observed in chickpea. Cultivars/breeding lines originating from a common genetic background showed closer genetic relationship. Chickpea lines with similar seed type(kabuli or desi) had a tendency to cluster together. This revised version was published online in August 2006 with corrections to the Cover Date.     

Characterisation of genetic variation between Vitis vinifera cultivars from central Chile using RAPD and Inter Simple Sequence Repeat markers

The origins and authenticity of many grape cultivars (Vitis vinifera) used for wine production around the world is unclear and the subject of some controversy. In this study, DNA fingerprints generated by Randomly Amplified Polymorphic DNA (RAPD) and Inter Simple Sequence Repeat Polymerase Chain Reaction (ISSR-PCR) analyses were used to compare the four most widely planted V. vinifera cultivars in Chile (viz. Cabernet Sauvignon, Cabernet Franc, Merlot and Carmenere). Material obtained from France was used as an external reference. Both techniques were able to distinguish between the cultivars studied although the resolving power of ISSR profiles was higher than that of RAPDs, suggesting that the latter would be more suited for use on a wider range of cultivars. Surprisingly, however, variability was observed between clones of Merlot, the original Chilean clone and the representative clone from France. Furthermore, the high degree of divergence between the two sources (64% similarity) suggests that the French Merlot is not even a close relative of the stock in Chile. Interestingly, the latter was derived directly from the original French founder clones of the Merlot cultivar. No variation was found within the Chilean Merlot clone using either ISSR or RAPD analyses. These results indicate that French and Chilean vines grown for Merlot production represent different genotypes. The history of Merlot cultivation and the implications of these findings are explored. This revised version was published online in August 2006 with corrections to the Cover Date.     

蛇龙珠葡萄品种亲缘关系的RAPD分析

利用随机扩增多态性DNA（RAPD）技术对4个酿酒葡萄品种和11个鲜食葡萄品种的亲缘关系进行了研究。从30个随机引物中筛选出16个扩多态性引物，用于15个样品的正式扩增。共扩增出134条DNA带，其中多态性扩增带99条，占73.9％。根据DNA扩增结果计算出品种的遗传距离，并构建聚类树状图。分析结果表明，红地球、瑞必尔与其它13个品种的遗传距离最远，巨峰系列的葡萄品种间遗传距离值较小，蛇龙珠品种与其它3个酿酒葡萄品种在遗传基因上存在差异，与品丽珠的亲缘关系最近。     

Genetic relationships in cultivars of hop, Humulus lupulus L., determined by RAPD analysis

Random amplified polymorphic DNA (RAPD) was used to evaluate the genetic variability and relationship of 65 hop cultivars from all the major hop-growing regions in the world. Twenty-eight selected random primers used in the RAPD reaction generated an average of 38.6%) polymorphic fragments, which was sufficient to produce 47 different RAPD profiles among the cultivars examined. The level of genetic variability was much higher than previously reported. Genetic similarity was estimated and UPGMA cluster analysis was performed using the RAPD data. Cluster analysis separated the cultivars into genetically related RAPD groups which were compared with pedigree data and grouping of the hop cultivars by essential oil type. The RAPD groups, strongly supported by pedigree data, gave more precise information on the level and distribution of genetic variability within hop cultivars than characterization by essential oils. Cultivars were divided into American and European groups, supporting the distinction between two geo-graphically distinct hop germplasms. Five genetically distinct groups revealed differences within the European germplasm, reflecting past hop breeding practices which have been adopted in different regions. The use of RAPD markers for hop germplasm characterization and genetic diversity study is discussed.     

Genetic diversity of hexaploid wheat cultivars estimated by RAPD markers, morphological traits and coefficients of parentage

Estimates of genetic diversity can be based on different types of data. The aim of this research were to study genetic diversity among Croatian wheat cultivars by random amplified polymorphic DNA (RAPD) markers, morphological traits and pedigree records; to analyse differences between wheat cultivars from two breeding centres; and to evaluate usability of RAPD markers for estimation of genetic diversity among wheat cultivars in comparison with morphological traits and pedigree record data. Studies were conducted on 14 wheat cultivars and breeding lines from two breeding centres in Croatia. For the RAPD analysis 36 primers were screened and the 14 most polymorphic ones yielded 341 polymorphic bands. Twelve morphological traits were used for morphological analysis. Pedigrees were composed of seven generations of ancestors. RAPD markers showed a high level of polymorphism among the cultivars examined and the breeding lines. No significant correlations were observed among the methods tested.     

Random amplified polymorphic DNA variation among German and Dutch asparagus cultivars

DNA polymorphism among nine cultivars of Asparagus officinalis L. was measured using random amplified polymorphic DNA (RAPD). Of 69 reproducible amplification products from 12 arbitrary decamer primers, 49 RAPD markers were polymorphic and could be used to distinguish six German and three Dutch asparagus cultivars. Even with very small sample sizes, genetic similarity measurements based on the RAPD data allowed accurate grouping of the nine cultivars into distinct clusters, with the exception of two individuals which clustered to closely related varieties. Two German cultivars showed high genetic similarity and were distinct from the remaining German varieties. The German and Dutch cultivars were clearly separated by a relatively large genetic distance.     

Genetic diversity in soybean genotypes from north‐eastern China and identification of candidate markers associated with maturity rating

Random amplified polymorphic DNA (RAPD) and simple sequence repeat (SSR) markers were used to estimate the genetic relationships among 101 soybean cultivars developed in north‐eastern China. Fifty‐three fragments of the 100 RAPD markers and 35 SSR markers tested were polymorphic across the 101 soybean cultivars. Similarity values among these soybean cultivars ranged from 45.2% to 100% for RAPD data, and ranged from 36.1% to 100% for SSR data. The similarity matrices for SSR data and RAPD data were moderately correlated (r = 0.31, P < 0.05). Cluster analyses indicated that the cultivars released from the same seed company were mostly grouped together. A principal component analysis, based on the combined RAPD and SSR data, yielded a good separation of soybean varieties with different maturity ratings [represented by soybean Heat Unit (HU)]. The varieties with HU < 2200 were well separated from those with HU > 2200. Four RAPD markers and eight SSR markers were significantly associated with the maturity ratings of soybean.     

我国陆地棉品种的遗传多样性研究初报

选用１８个随机引物，对２１个陆地棉品种作ＲＡＰＤ分析，并对各品种的指纹图谱进行了聚类和相似性分析。结果表明大部分品种与其系谱吻合。研究结果充分展示了ＲＡＰＤ技术可以作为棉花品种分类和遗传多样性研究的可行方法。     

Genetic variation among cultivars of red clover (Trifolium pratense L.) detected by RAPD markers amplified from bulk genomic DNA

Summary The use of random amplified polymorphic DNA (RAPD) markers obtained from bulked samples was investigated for cultivar identification in red clover. Pooled samples were examined in order to minimize variation within cultivars. To determine the appropriate number of individuals to include in the bulked samples representing each cultivar, DNA samples from two, three, four, five, ten and twenty individuals were pooled. Twenty was found to be an appropriate number of red clover individuals per bulk in order to amplify only the DNA sequences shared among most individuals in each cultivar. Fourteen 10-mer primers were used to amplify genomic DNA from combined leaf samples of 15 red clover cultivars from European, Japanese and North American origins. A total of 79 amplified products, of which 55 were polymorphic, was obtained. Cultivar-specific bands were observed with 13 primers. The amplification patterns obtained from two primers could distinguish all 15 red clover cultivars. Rogers' genetic distances for all 105 pairwise comparisons were calculated to evaluate relationships among these cultivars. Cluster analysis based on these genetic distances separated these 15 cultivars into three groups, with two of the groups consisting of a single Japanese cultivar each, while the third group included cultivars from European, North American, and Japanese origins.     

Genetic variation within and between two cultivars of red clover (Trifolium pratense L.): Comparisons of morphological,isozyme, and RAPD markers

Summary Morphological, isozyme and random amplified polymorphic DNA (RAPD) markers were used to estimate genetic variation within and between cultivars of red clover (Trifolium pratense L.), an important temperate forage legume. Two cultivars of red clover, Essi from Europe and Ottawa from Canada, were evaluated. Six monogenic morphological characters were observed for 80 plants from each of these two cultivars. All six morphological loci were polymorphic in the cultivar Essi whereas only four loci were polymorphic in the cultivar Ottawa. Forty plants from each cultivar were assayed for isozyme markers. A total of 21 enzyme-coding loci with 43 alleles was detected using twelve enzyme systems. Thirteen and nine of these loci were polymorphic in Essi and Ottawa, respectively. The mean number of alleles per locus was 1.81 in Essi and 1.67 in Ottawa. Seventeen random 10-mer primers were screened for RAPD markers. Nine primers which gave clear and consistent amplified products were used to assay 20 individuals from each cultivar. Each primer gave from 7 to 20 amplified bands with an average of 14.8 bands per primer. One hundred and eight of 116 putative loci were polymorphic in Essi and 90 of 98 loci were polymorphic in Ottawa. High within-cultivar variation was observed in both cultivars using both isozyme and RAPD markers. This high polymorphism makes these markers useful for germplasm characterization and genetic studies in red clover.     

Genetic variability measures among Bromus catharticus Vahl. populations and cultivars with RAPD and AFLP markers

The objectives of this study were to optimize RAPD and AFLP techniques in B. catharticus, and to determine the genetic variability of populations and commercial prairie grass cultivars with the aforementioned molecular markers. Two populations with contrasting morphological characteristics were evaluated from individual and bulked DNA samples using RAPD markers. Both analyses showed a similar information about inter population variability. Each accession was sampled by a single leaf bulk of 10 plants. Accession similarities were established with 276 RAPD and 714 AFLP bands using Jaccard similarity coefficient. The dendrogram of the accessions using RAPD markers showed that they shared high similarity values (>94%). A similar result was obtained with AFLP markers (similarity values >98%), revealing a narrow genetic basis in the analyzed accessions. Consequently, molecular characterization of germplasm should be considered in addition to morphological criteria, to choose the parental genotypes for breeding programs of this forage crop. The AFLP technique was more efficient to detect DNA polymorphism in our experiments and unique fingerprints were detected for all the accessions. RAPD is a simple and non expensive technique, suitable to estimate genetic similarity. This revised version was published online in August 2006 with corrections to the Cover Date.