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1.
Hidetoshi Ikegami Hitoshi Nogata Keita Hirashima Mitsuo Awamura Takao Nakahara 《Genetic Resources and Crop Evolution》2009,56(2):201-209
Nineteen fig varieties and lines from Europe and Asia have been fingerprinted by ISSR, RAPD, and SSR markers, respectively,
using 13, 19, and 13 primer combinations. All primers produced 258 loci, with the highest number of loci (119) generated by
RAPD (R
p: 48.42). Clustering analysis was applied to the three marker datasets to elucidate the genetic structure and relationships
among these varieties. Mean genetic similarities were 0.787, 0.717, and 0.749, respectively, as determined using ISSR, RAPD,
and SSR. Each marker system produced incompletely separated clusters, although a weak binding group based on race type appeared
in the combined dataset. Comparisons of coefficients revealed no correlation between different similarity matrices; congruence
was observed between similarity matrices and co-phenetic matrices in all markers. Analysis of molecular variance (AMOVA) showed
that most of the total polymorphism was attributable to within-group variance (ISSRs + RAPDs, 97.41%; SSRs, 90.18%). These
results suggest that the genetic diversity of this fig population is low and that multiple marker utilization is critical
to estimate the relatedness of figs at the variety level. Additionally, it was presumed that ‘Houraihi’, the oldest variety
in Japan, was disseminated independently of other foreign varieties in the 17th century or before then. 相似文献
2.
This study characterized the genetic diversity of 18 Tunisian fig cultivars using random amplified polymorphic DNA (RAPD)
and inter simple sequence repeats (ISSR). Both random and ISSR primers tested generated a total of 116 RAPD and 47 ISSR markers.
Considerable genetic variation was observed among fig cultivars sampled from two regional Tunisian collections with an average
diversity of 4.57. RAPD and ISSR banding patterns and genetic distances values reflected the high level of diversity among
the collections and lower variability between the two collections. The correlation between the RAPD and ISSR similarity matrices
computed for the 153 pairwise comparisons among the 18 varieties was lower and significant. An analysis of molecular variance
showed that 92% of the total genetic diversity resided within collections, whereas only 8% between collections. The results
indicated that in the local fig germ plasm the information provided by RAPD and ISSR is not analogous, most likely as a consequence
of the fact that the two classes of markers explore, at least in part, different portions of the genome. 相似文献
3.
Mehboob-ur-Rahman Tahira Yasmin Nabila Tabbasam Ihsan Ullah Muhammad Asif Yusuf Zafar 《Genetic Resources and Crop Evolution》2008,55(3):331-339
Genetic diversity is an area of concern for sustaining crop yield. Information on genetic relatedness/diversity among Gossypium arboreum L. cultivars/genotypes is scanty. We have used random amplified polymorphic DNA (RAPD) analysis to assess the genetic divergence/relationship
among 30 genotypes/cultivars of G. arboreum. Of 45 primers surveyed, 63% were polymorphic. Out of the total number of loci amplified, 36% were polymorphic. The calculated
genetic similarity between the cultivars/genotypes was in the range of 47.05–98.73%. Two genotypes, HK-244 and Entry-17, were
the most distantly related. The average genetic relatedness among all the genotypes was 80.46%. However, most of the cultivated
varieties showed a close genetic relationship, indicating a narrow genetic base in comparison to the non-cultivated germplasm.
The calculated coefficients were used to construct a dendrogram using the unweighted pair group of arithmetic means (UPGMA)
algorithm, which grouped the genotypes/cultivars into two major and three smaller clusters. The study is the first comprehensive
analysis of the genetic diversity of G. arboreum germplasm and identifies cultivars that will be useful in extending the genetic diversity of cultivated varieties and future
genome mapping projects. 相似文献
4.
EST-SSR和RAPD标记检测油菜(Brassica napus)遗传多样性 总被引:3,自引:1,他引:2
亲本选配是杂种优势利用中强优势组合配制的关键环节,遗传距离决定优势强弱。本文采用EST-SSR和RAPD两种分子标记技术检测甘蓝型油菜4份不育系、3份保持系1、0份恢复系和11份常规品种共35个材料的遗传多样性及与杂种优势的关系。结果共检测到399个等位位点,其中130个等位变异,占总检测位点的32.57%。NTSYS软件聚类分析结果表明:35份材料遗传距离范围为0.0280~0.2801,在遗传距离(GD)0.1401下分为6类,3个不育系Ogu、Polima和陕2A聚在第V类,Xin1 CMS(新1号不育系)遗传距离较远;不育系之间的遗传差异比不育系与保持系、恢复系及常规品种之间小,基本反映了品种(系)的遗传基础和系谱来源。 相似文献
5.
L. S. Rao P. Usha Rani P. S. Deshmukh P. A. Kumar S. K. Panguluri 《Genetic Resources and Crop Evolution》2007,54(6):1235-1244
Detection of genetic relationships between 19 chickpea cultivars and five accessions of its wild progenitor Cicer reticulatum Ladizinsky were investigated by using RAPD and ISSR markers. On an average, six bands per primer were observed in RAPD analysis
and 11 bands per primer in ISSR analysis. In RAPD, the wild accessions shared 77.8% polymorphic bands with chickpea cultivars,
whereas they shared 79.6% polymorphic bands in ISSR analysis. In RAPD analysis 51.7% and 50.5% polymorphic bands were observed
among wild accessions and chickpea cultivars, respectively. Similarly, 65.63% and 56.25% polymorphic bands were found in ISSR
analysis. The dendrogram developed by pooling the data of RAPD and ISSR analysis revealed that the wild accessions and the
ICCV lines showed similar pattern with the dendrogram of RAPD analysis. The ISSR analysis clearly indicated that even with
six polymorphic primers, reliable estimation of genetic diversity could be obtained, while nearly 30 primers are required
for RAPD. Moreover, RAPD can cause genotyping errors due to competition in the amplification of all RAPD fragments. The markers
generated by ISSR and RAPD assays can provide practical information for the management of genetic resources. For the selection
of good parental material in breeding programs the genetic data produced through ISSR can be used to correlate with the relationship
measures based on pedigree data and morphological traits to minimize the individual inaccuracies in chickpea. 相似文献
6.
利用SSR和RAPD标记分析中国部分地区晚疫病菌群体遗传多样性 总被引:2,自引:0,他引:2
利用SSR和RAPD对来自福建、黑龙江、河北和内蒙古4个地理群体的80个马铃薯晚疫病菌(phytophthora infestans)株进行了遗传多样性分析。13对SSR引物共扩增出76条谱带,多态性条带比率78.9%,相似系数变化范围0.00~0.42之间;筛选出的14条RAPD引物共扩增出189条谱带,多态性条带比率95.2%,相似系数变化范围0.04~0.66之间。遗传多样性分析表明,在4个群体中,福建群体的多样性更为丰富。遗传相似性分析显示,黑龙江和内蒙古两个群体间的遗传相似性最高,而福建和河北两个群体间的遗传相似性最低。聚类分析显示,来自南方福建的菌株与来自北方黑龙江、河北和内蒙古的菌株亲缘关系较远,且福建群体分布于更多的聚类组,显示出更高的遗传变异度。 相似文献
7.
Wheat breeding in Pakistan started in 1930s before partition in the United India and so far has released more than 68 cultivars, but no systematic analyses of the genetic diversity of Pakistan wheat have been made. Twenty Pakistan wheat cultivars released from 1933 to 2002 were examined for genetic diversity and relationships using random amplified polymorphic DNA (RAPD) markers. Forty-two RAPD primers were applied and 184 polymorphic bands were generated for each cultivar. Most of the cultivars were genetically interrelated, although six of them displayed some genetic distinctness. The RAPD variation observed among these cultivars was low. Only 40.7% of the total scorable bands were polymorphic, and 26.1% of the polymorphic bands were observed most frequently (f = 0.95) among the 20 cultivars. The proportions of polymorphic bands for each cultivar ranged from 0.67 in ‘Yecora’ to 0.84 in ‘C-250’ with an average of 0.76. About 1.4% of the RAPD variation might have been fixed over the 69 years of wheat breeding, but such fixation was not statistically significant. These results are significant for future improvement and conservation of Pakistan wheat. 相似文献
8.
As an oilseed crop, the cultivation of Ethiopian mustard (Brassica carinata) is restricted only to Ethiopia. Even though geographic diversity is a potent source of allelic diversity, the extent of genetic diversity among germplasm material of Ethiopian mustard from different countries has not been assessed. Forty-three accessions, comprising 29 accessions from eight different geographic regions of Ethiopia and 14 exotic accessions from Australia, Pakistan, Spain, and Zambia were analysed for their genetic diversity using random amplified polymorphic DNA (RAPD) technique. A set of 50 primers yielded a total of 275 polymorphic bands allowing an unequivocal separation of every Ethiopian mustard accession. The usefulness of the 50 RAPD primers in measuring heterozygousity and distinguishing accessions was variable such that polymorphic information content (PIC) varied from 0.05 to 0.40, band informativeness (BI) from 0.05 to 0.65 and primer resolving power (RP) from 0.15 to 6.83. Jaccard's similarity coefficients ranged from 0.44 to 0.87 indicating the presence of a high level of genetic diversity. On the average, Australian and Ethiopian accessions were the most similar while, Spanish and Zambian accessions were the most distant ones. Cluster analysis grouped the 43 accessions into four groups, which has quite a high fit (r = 0.80) to the original similarity matrix. With no prior molecular information, the RAPD technique detected large genetic diversity among the 43 accessions from five different countries and their grouping by dendrogram and principal coordinate analysis (PCoA) was inclined towards geographic differentiation of RAPD markers. Conversely, RAPD differentiation along geographic origin was not apparent within the Ethiopian accessions. 相似文献
9.
Diqiu Liu Xiaoping Guo Zhongxu Lin Yichun Nie Xianlong Zhang 《Genetic Resources and Crop Evolution》2006,53(6):1145-1152
Asian cotton (Gossypium arboreum L.) was once widely cultivated in China. It has also been a valuable source of genetic variation in modern cotton improvement. In this study, the genetic diversity of selected G. arboreum accessions collected from different regions of China was evaluated by microsatellite (simple sequence repeats, SSRs) analysis. Of the 358 microsatellite markers analyzed, 74 primer pairs detected 165 polymorphic DNA fragments among 39 G. arboreum accessions examined. Twelve accessions could be fingerprinted with one or more SSR markers. With the exception of two accessions, DaZiJie and DaZiMian, genetic similarity coefficients among all accessions ranged from 0.58 to 0.87 suggesting high level of genetic variation in the G. arboreum collections. The UPGMA dendrogram constructed from genetic similarity coefficients revealed positive correlation between cluster groupings and geographic distances. In addition, comparison of the microsatellite amplification profiles of the diploid G. arboreum and tetraploid Gossypium hirsutum L. found that size distribution of amplified products in G. arboreum was dispersive and that of G. hirsutum was relatively concentrated. The information on the genetic diversity and SSR fingerprinting from this study is useful for developing mapping populations for constructing diploid cotton genetic linkage map and tagging economically important traits.Diqiu Liu, Xiaoping Guo: These two authors contributed equally to this work. 相似文献
10.
SSR和SRAP标记研究油菜杂交种骨干亲本的遗传多样性 总被引:9,自引:2,他引:7
用SSR和SRAP两种分子标记方法研究51份甘蓝型油菜杂交种亲本系的遗传多样性,并对两种分子标记研究结果进行比较。结果发现,在51份材料中,45对SSR引物共扩增出194条多态性条带,平均每对引物为4.3条,25对SRAP引物共扩增出197条多态性条带,平均每对引物为7.9条。UPGMA聚类分析表明,SSR和SRAP标记都可将51份亲本材料划分为五大类群,本所选育的玻里马细胞质雄性不育系(Polima CMS)的主要保持系和恢复系都聚在同一类群的不同亚群中。根据系谱资料分析发现,SRAP标记划分的类群与系谱资料更为接近,SRAP标记更适用于遗传关系较近材料的遗传多样性分析。SRAP标记揭示的亲本间遗传距离要大于SSR标记揭示的遗传距离。两种不同标记方法揭示出油菜亲本遗传多样性的差异主要是由不同的标记方法揭示的标记位点等位基因变异数不同造成的。 相似文献
11.
Ninety four accessions of the cultivated triploid potatoS. chaucha were analyzed and classified in genotypic groups using 9 isozyme loci and RAPD markers disclosed by 20 arbitrary 10-mer primers.
Eight isozyme loci out of nine were polymorphic. A total of 22 allozymes were analyzed but none of them were specific for
any genotypic group. About half (52%) of the 102 RAPD markers scored, were polymorphic, all of them showing polymorphism among
groups and rarely within groups. Eighteen RAPD markers were specific for certain genotypes. The isozyme markers showed a certain
amount of intra group variation which made classification less reliable than with RAPD markers. A total of 10 triploid genetic
groups were discriminated using both techniques together. A single primer was found to be sufficient to distinguish all 10
groups. All varieties of a single group are considered to have been derived from the same cross and then clonally propagated,
even though there is a high amount of morphological variation within a single genotypic group due probably to somatic mutations.
RAPD markers have been shown to be more reliable in the classification of triploid potato varieties than other genetic markers
like isozymes, proteins and morphological traits. 相似文献
12.
Jinggui Fang Chih-Cheng T. Chao Philip A. Roberts Jeffrey D. Ehlers 《Genetic Resources and Crop Evolution》2007,54(6):1197-1209
Cowpea is an important grain legume and hay crop of many tropical and subtropical regions, especially in the dry savanna region
of West Africa. The cowpea gene pool may be narrow because of a genetic bottleneck during domestication. Genetic variation
within specific breeding programs may be further restricted due to breeding methods, ‘founder effects’ and limited exchange
of germplasm between breeding programs. Genetic relationships among 60 advanced breeding lines from six breeding programs
in West Africa and USA, and 27 landrace accessions from Africa, Asia, and South America were examined using amplified fragment
length polymorphism (AFLP) markers with six near infrared fluorescence labeled EcoRI + 3/1bases/MseI + 3/1bases primer sets. A total of 382 bands were scored among the accessions with 207 polymorphic bands (54.2%). Despite
a diverse origin, the 87 cowpea accessions shared a minimum 86% genetic similarity. Principal coordinates analysis showed
clustering of breeding lines by program origin, indicating lack of genetic diversity compared to potential diversity. Accessions
from Asia and the Americas overlapped and were distinct from West African breeding lines, indicating that germplasm from Asia
and the Americas have common origins outside West Africa. US and Asian breeding programs could increase genetic variability
in their programs substantially by incorporating germplasm from West Africa, while national programs in West Africa should
consider introgression of Asian germplasm and germplasm from other parts of Africa into their programs to ensure long-term
gains from selection. 相似文献
13.
Genetic diversity and relationship between Bradyrhizobium strains isolated from blackgram and cowpea
Lilly M. Saleena P. Loganathan Sunita Rangarajan Sudha Nair 《Biology and Fertility of Soils》2001,34(4):276-281
The genetic diversity of bradyrhizobial strains associated with blackgram and cowpea grown in two different agricultural soils (non-saline and saline) along the coastline of Tamil Nadu has been analysed. Phenotypically indistinguishable isolates were analysed for DNA polymorphism using random amplification of polymorphic DNA (RAPD) and polymerase chain reaction-restriction fragment length polymorphism (PCR-RFLP) of 16S rDNA and nifD. Although these bacteria belong to a group with a broad host range, RAPD analysis showed a considerable level of genetic diversity among the strains isolated from different host plants. Soil pH and salinity seem to have an effect on the selection of natural populations as revealed by PCR-RFLP of 16S rDNA. A combination of PCR-RFLP genotyping with nodulation studies indicates that monocropping of blackgram and the salinity of the soil have made ineffective rhizobia the dominant genotype, thereby creating an ecological burden on their other compatible hosts. A group of strains and a type strain sharing three different 16S PCR-RFLP types were shown to have the same set of symbiotic genes as inferred from the PCR-RFLP pattern of nifD. Another group of cowpea rhizobia that were found to be effective nitrogen fixers and sharing distinct 16S profiles were found to have a different set of symbiotic genes. 相似文献
14.
Toan Duc Pham Tri Minh Bui Gun Werlemark Tuyen Cach Bui Arnulf Merker Anders S. Carlsson 《Genetic Resources and Crop Evolution》2009,56(5):679-690
Sesame (Sesamum indicum L.) is a traditional oil crop cultivated throughout South East Asia. To estimate the genetic diversity of this crop in parts
at the region, 22 sesame accessions collected in Vietnam and Cambodia were analyzed using 10 RAPD markers. The 10 primers
generated 107 amplification products of which 88 were polymorphic fragments (83%). Genetic diversity of all populations was
Ht = 0.34 when estimated by Nei’s genetic diversity and species diversity was H′sp = 0.513 when estimated by Shannon diversity index. Genetic distance ranged from 0.03 to 0.43, with a mean genetic distance
of 0.23. The unweighted pair group method with arithmetic averages (UPGMA) cluster analysis for the 22 accessions divided
the material in four groups. The dendrogram revealed a clear division among the sesame accessions based on their geographical
region. Interestingly, some geographically distant accessions clustered in the same group, which might indicate the human
factor involved in the spreading of sesame varieties. The high level of polymorphism shown suggests that RAPD techniques can
also be useful for the selection of parents in sesame (Sesamum indicum L.) breeding program and for cultivar differentiation. 相似文献
15.
T. Ganino D. Beghè S. Valenti R. Nisi A. Fabbri 《Genetic Resources and Crop Evolution》2007,54(7):1531-1540
The Emilia region (Northern Italy) is characterised by the occurrence of microclimates that permit olive growing. The presence
of the species, albeit sporadic, in these territories for several centuries as a fruit crop is well documented, by both archaeological
and written testimony, and by a large number of plants well over a century old, located in particular sites, favourable for
growth and development of the tree.
Olive genetic diversity was studied using RAPD and SSR techniques, on plants growing in the Emilia territory (Reggio Emilia
and Parma provinces). For genotype identification comparisons were made with 8 cultivars, some of which from Central Italy.
Screening was obtained analysing patterns produced by 20 RAPD primers and 3 SSR primers, developed by other authors; the primers
and we were able to discriminate olive cultivars with a sufficient degree of reliability. The dendrograms obtained from the
analysis show the genetic relationship among accessions present in the Parma-Reggio Emilia district. Our results demonstrated
the reliability of RAPDs and SSRs to identify all studied olive cultivars and to reveal the degree of their relatedness to
each other. The analysis also reveals the presence of an interesting amount of genetic diversity among the studied individuals. 相似文献
16.
Surrinder K. Lattoo Rekha S. Dhar Shabnam Khan S. Bamotra Maharaj K. Bhan Autar K. Dhar Kuldip K. Gupta 《Genetic Resources and Crop Evolution》2008,55(1):33-43
Andrographis paniculata is a medicinal plant of immense therapeutic value. The present study was aimed to elucidate its genetic diversity based on
morphochemical and RAPD markers from 53 accessions belonging to 5 eco-geographic regions. Analysis of variance and D
2 statistics revealed significant differences in all the metric traits and sufficient inter-cluster distances indicating considerable
diversity among the accessions. The complementary approach of RAPD was used to evaluate the genetic dissimilarities among
all the accessions using 6 highly polymorphic primers. The average proportion of polymorphic loci across primers was 96.28%.
The molecular genetic diversity based on Shannon index per primer averaged 5.585 with values ranging from 3.08 to 8.70 indicating
towards wide genetic base. RAPD based UPGMA and D
2 cluster analysis also revealed that various accessions available in different eco-geographic regions might have originated
from native places of wild abundance. Similarity matrices were generated for molecular markers and morphometric data to determine
the degree of congruence between the two. A highly significant but low correlation (r = 0.547, P < 0.001) was obtained thus implying the correspondence between the two. The species is hermaphroditic and a habitual inbreeder.
The present study yielded a typical triangular congruence between its breeding system, morphometric traits and RAPD markers
thus elucidating the usefulness of complementary approaches to make diversity analysis more explanatory and purposeful for
optimum genetic amelioration and effective conservation of its genotypic variability. 相似文献
17.
The present study, using RAPD analysis, was undertaken to characterize genetic variation in domesticated cowpea and its wild progenitor, as well as their relationships. The materials used consisted of 26 domesticated accessions, including accessions from each of the five cultivar-group, and 30 wild/weedy accessions, including accessions from West, East and southern Africa. A total of 28 primers generated 202 RAPD bands. One hundred and eight bands were polymorphic among the domesticated compared to 181 among wild/weedy cowpea accessions. Wild accessions were more diverse in East Africa, which is the likely area of origin of V. unguiculata var. spontanea. Var. spontanea is supposed to have spread westward and southward, with a loss of variability, loss counterbalanceed in southern Africa by introgressions with local perennial subspecies. Although the variabilty of domesticated cowpea was the highest ever recorded, cultivar-groups were poorly resolved, and several results obtained with isozyme data were not confirmed here. However primitive cultivars were more diverse than evolved cultivars, which still suggests two consecutive bottlenecks within domesticated cowpea evolution. As isozymes and AFLP markers, although with a larger number of markers, RAPD data confirmed the single domestication hypothesis, the gap between wild and domesticated cowpea, and the widespread introgression phenomena between wild and domesticated cowpea. 相似文献
18.
Twenty-one apple accessions were characterised and classified taxonomically with randomly amplified polymorphic DNA (RAPD). The results were compared with morphological and isoenzymatic classifications of the same material by calculating the congruence between similarity matrices. The results confirmed the greater discrimination capacity of RAPD compared with isoenzymes, although the taxonomic clusters obtained with both types of markers were congruent. The genetic relationships calculated using RAPD and isoenzymes showed little congruence with the morphological relationships among accessions. Isoenzymatic markers are useful in germplasm banks to evaluate the diversity of newly introduced accessions. The use of RAPD markers are especially beneficial to discriminate between material that is genetically similar, to evaluate genetic variability within a collection and to choose the components of the core collection. 相似文献
19.
Ilaria Marotti Alessandra Bonetti Maurizio Minelli Pietro Catizone Giovenni Dinelli 《Genetic Resources and Crop Evolution》2007,54(1):175-188
Randomly amplified polymorphic DNA (RAPD), inter-simple sequence repeat (ISSR) and a semi-random PCR system were used to analyze
the genetic diversity of 16 Italian common bean landraces and their relationship to four commercial cultivars. Of the primers
tested, 8 ISSR, 6 RAPD and 7 semi-random primers produced polymorphic and reproducible DNA fragments. A higher proportion
of polymorphic bands were observed using ISSR (85%) and semi-random (90%) primers than RAPD (69%) method. The combination
of any two semi-random markers allowed the identification of all 20 bean genotypes. In contrast ISSR (except for primer (CAC)3GC) and RAPD markers appeared to be less informative as more than two markers were necessary to achieve the same diagnostic
level. Moreover, 7 ISSR, 2 RAPD and 8 semi-random exclusive bands were identified as putative population-specific markers.
Semi-random and ISSR derived dendrograms showed similar tendencies in terms of genetic relatedness, whereas clustering of
genotypes within groups was not similar when compared with the RAPD technique. Despite the different ability to resolve genetic
variation among the investigated landraces, two major clusters with less than 60% (ISSR) and 40% (RAPD and semi-random) genetic
similarity were formed with all three marker systems. The two groups were correlated with the phaseolin patterns and seed
size of the landraces. The analysis showed that the cultivar ȁ8Lingua di Fuocoȁ9 and most of the landraces (13 out of 16)
collected in Italy belong to the Andean gene pool, whereas only the three populations from Pratomagno belong to the Middle
American gene pool. 相似文献
20.
Analysis of genetic diversity in Turkish sesame (Sesamum indicum L.) populations using RAPD markers⋆
The genetic diversity of 38 cultivated populations of Sesamum indicum L. from four different regions of Turkey was estimated at the DNA level with the random amplified polymorphic DNA (RAPD) technique. Sixty-one bands were obtained for all populations 78% of which were polymorphic. Analysis of molecular variance (AMOVA) was used to investigate the genetic diversity of the populations which yielded highly significant differences among populations within regions (91.9% of the total genetic diversity). According to AMOVA and Shannon's index that were performed separately for each region, the highest value of genetic variation was observed among Northwest region populations (CV = 7.7; H0 = 0.304) and lowest in the Southeast regions' populations (CV = 2.6; H0 = 0.068). Nei and Li's similarity index was calculated and phylogenetic tree was established using the neighbor-joining algorithm. This phenetic analysis grouped 35 of 38 accessions in six groups leaving three highly diverse accessions outside. Wagner phylogenetic method was used to assess the phylogenetic relationships among the populations. In the majority-rule consensus tree, only 7 of the 32 forks showed above 60% occurrence. Using Principal Coordinate Analysis (PCO) of the RAPD data set, the groups were clearly separated along the first three axis. These results indicate that RAPD technique is useful for sesame systematics, and should be valuable for the maintenance of germplasm banks and the efficient choice of parents in breeding programs. 相似文献