Assessment of genetic diversity in common bean (Phaseolus vulgaris L.) germplasm using amplified fragment length polymorphism (AFLP)

AFLP technique was applied to assess genetic diversity among 44 common bean accessions that included 6 exotic accessions, 15 Indian land races and 23 released varieties. Eight AFLP primer pairs were used that produced 820 products of which 698 were polymorphic (85.12%). Wide variations were observed among all the accessions for the number of amplification products, percent polymorphism and average polymorphism information content (PIC). The Jaccard's similarity indices (J) based on the AFLP profiles were subjected to UPGMA cluster analysis. The dendrogram generated revealed seven major groups. Seventeen out of 23 released varieties were restricted to clusters VI and VII. The value of r = 0.934 in Mantel's test for cophenetic corrlelation applied to the cluster analysis indicated the high fitness of the accessions to a group. The germplasm used in the present study had narrow genetic base, although moderate to high genetic diversity was observed. The details of diversity analysis and the potential use of Indian common bean accessions in common bean breeding programme are provided in the present study.     

Molecular diversity of Chinese Cucurbita moschata germplasm collections detected by AFLP markers

Cucurbita moschata is an important vegetable crop. Although a total of 1032 landraces of C. moschata are maintained in China, little is known about their genetic diversity. Molecular characterization is needed to facilitate the use of this C. moschata germplasm collection in breeding. Seventy-four Chinese accessions and 15 accessions from other countries were selected for evaluation based upon variation in fruit traits and geographical origin of molecular diversity with AFLP analysis. Nine pairs of EcoRI/MseI primers produced 500 fragments, of which 75.57% were polymorphic, indicating a high degree of diversity. The accessions from China were classified into two clusters, which were clearly differentiated from the accessions originating from Mexico, Guatemala, Honduras, and Ecuador. Chinese group genetically more closely related to other Asian countries group (India and Japan). In general, the accessions from the Americas had a greater number of unique loci than those from China. The differences are probably due to a limited number of introductions and genetic drift. The Americas are the center of origin of C. moschata and therefore more diverse. With AFLP analysis, the accessions did not clearly group according to fruit shape; however, sub-clusters exist in acorn- and dumbbell-shaped accessions. The assessment of genetic distance, along with some unique traits among the different genotypes, could be useful in further genetic studies and the selection of the most adequate accessions for use in breeding programs.     

Genetic relationships in Eriobotrya species as revealed by amplified fragment length polymorphism (AFLP) markers

Although most of the species in Eriobotrya originated in China there are few studies on the genetics and genetic relationship of this genus. The aim of the present study was to clarify genetic relationships among 18 Eriobotrya accessions from China using amplified fragment length polymorphism (AFLP). Two close relatives Raphiolepisindica (L.) Lindl. and Photiniaserrulata Lindl. were used as outgroups. The results showed that 5 selected AFLP primer combinations amplified 297 scorable bands, of which 282 were polymorphic, yielding a polymorphism rate of 95%. Genetic similarity coefficient among Eriobotrya accessions ranged from 0.82 (between E. bengalensis Hook.f. and E. bengalensis forma angustifolia Vidal) to 0.41 (between E. serrate Vidal and E. deflexa Nakai) indicating substantial genetic variations in the Eriobotrya accessions evaluated. The unweighted pair-group method of arithmetic averages (UPGMA) cluster analysis, based on genetic similarity coefficient, produced a dendrogram which grouped 20 accessions into three main clusters. The result of cluster analysis was generally in agreement with the known taxonomic grouping. Furthermore, the clustering of the 18 accessions of Eriobotrya was consistent with systematic classification based on morphological characteristics.     

Genetic diversity and population genetic structure of pomegranate (Punica granatum L.) in Iran using AFLP markers

Pomegranate (Punica granatum L.) is one of the oldest known edible fruits. It is native to Iran and spread from Iran to other areas. In this study amplified fragment length polymorphism (AFLP) was used to detect intra- and inter-population genetic diversity of pomegranate. A group of 67 accessions belonged to 4 populations from Iran was studied using eight primer combinations. A total of 221 scorable bands were amplified, of which, 118 (54.13%) were polymorphic. Resolving power (Rp) ranged from 5.70 to 9.21, and the average of polymorphism information content (PIC) per primer pair was 0.40. According to Nei's gene diversity and allelic statistics, Isfahan population had a highest genetic diversity (H = 0.3646, I = 0.5327, N_e = 1.6467). Coefficient of gene differentiation between populations (GST) was 0.124, indicated that mainly proportion of genetic variation (87.6%), was within populations and the remaining (12.4%) of the variation was among populations that, also supported by analysis of molecular variance (AMOVA). The gene flow (Nm) varied from 0.969 to 10.404 between pair-wise populations and was 3.504 among all of the populations. The Jaccard similarity coefficient between individuals ranged from 0.26 to 0.88. The UPGMA dendrogram clustered all 67 accessions into 6 groups. In some cases accessions from same region were grouped together but in most cases, there was gene exchange. To study the genetic relationships among populations, a principal coordinate analysis (PCoA) based on Nei's genetic distances was performed. Results of this study showed that AFLP marker can be a useful tool for investigating the genetic diversity of pomegranate genotypes.     

Assessment of genetic relationships among 29 introduced and 49 local sweet cherry accessions in Turkey using AFLP and SSR markers

Summary

The characterisation of sweet cherry (Prunus avium L.) genetic resources in Turkey may help to increase their use in breeding programmes worldwide, as Turkey is the centre of origin of sweet cherry. Amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers were therefore used to analyse genetic diversity among a total of 78 local and introduced sweet cherry cultivars. Four AFLP primer combinations, and six SSR primer pairs for sweet cherry were used for genetic diversity analysis. A genetic similarity matrix was calculated using the combined data from AFLP and SSR analyses with simple matching coefficient. Genetic similarities among the sweet cherry genotypes studied were higher than 42%. No two accessions had an identical AFLP and SSR marker profile, indicating that all 78 genotypes were unique. An UPGMA dendrogram, based on the similarity matrix, revealed 18 separate Groups at or above the 70% similarity level. While some Groups consisted of both introduced and local genotypes, other Groups had only local genotypes. This result suggests that there was broad genetic diversity among the local Turkish sweet cherry genotypes, which was not present in the introduced sweet cherry accessions. The genetic variation present in local Turkish sweet cherry genotypes may be useful for future breeding programmes. We found that the use of both SSR and AFLP marker systems was effective for distinguishing between genetically-close sweet cherry genotypes. These marker systems can be used to complement pomological and morphological markers during the characterisation and identification of sweet cherry genotypes.     

Genetic divergence among gerbera accessions evaluated by RAPD

Genetic diversity was evaluated by RAPD markers and morpho-agronomic characters for a total of 42 accessions of Barberton daisy (Gerbera jamesonii) consisting of 29 commercial and 13 wild accessions. A total of 74 polymorphic bands were obtained employing a set of 12 primer pairs. The average genetic similarity coefficient for the 42 accessions, evaluated by Jaccard index was 0.55 ranging from 0.28 to 1.00. The genetic structure found among Barberton daisy accessions was evaluated by hierarchic classification analyses and UPGMA modeling, revealing six clusters of genotypes where two of them include the wild accessions and the remaining four including commercial material, except for wild genotype number 9. Shannon (H′) index was calculated using the molecular markers to investigate the genetic variation among the Gerbera accessions and showed higher values for the commercial cluster in comparison to the values obtained for the individuals from the non-commercial cluster, namely 0.34 versus 0.27, respectively. Therefore, both calculated indices (Jaccard and Shannon) indicated the presence of higher genetic variation among commercial accessions in comparison to the cluster representing non-commercial accessions, suggesting that genetic breeding programs may focus on commercial accessions to recombine interesting genotypes with commercially important and marketing-desired characteristics.     

Molecular phylogeny in Indian Citrus L. (Rutaceae) inferred through PCR-RFLP and trnL-trnF sequence data of chloroplast DNA

The taxonomy and phylogeny of Indian Citrus is revisited using PCR-RFLP of the trnD-trnT and rbcL-ORF 106 regions as well as sequence data analysis of the trnL-trnF intergenic spacer region of cpDNA. The study was based on 50 accessions of Citrus genotypes, collected from wild, semi-wild and domesticated stocks. Of the 13 restriction enzymes (RE) used for restriction digestion of the polymerase chain reaction (PCR) amplicons, four (Hinf I, Msp I, Alu I, Hae III) generated 47 restriction fragments, of which 24 (51%) were polymorphic. PCR-RFLP data showed a genetic distance ranging from 0 to 0.79 among 50 accessions of Citrus, and a cluster analysis, based on Neighbor-Joining (NJ) method, placed all the accessions in eight major clusters. Analysis of trnL-trnF sequences from 23 representative accessions of Citrus showed a pair-wise sequence divergence rate in the range of 0–0.064. NJ, minimum evolution (ME) and maximum parsimony (MP) analyses of trnL-trnF sequences produced phylogenetic trees, which placed all the 23 accessions in five clusters. PCR-RFLP analysis resulted in a well resolved phylogenetic tree with branches supported by moderate to high bootstrap values, while the trnL-trnF sequence-based trees showed only moderate to low bootstrap support for the internal tree branches, indicating uncertain origin of some Citrus genotypes. This study shows that the trnL-trnF spacer sequence data can detect genetic variation in Indian Citrus genotypes, but the utility of the data in inferring phylogeny at intra and inter-specific levels is limited probably by factors such as hybridization, bud mutations, apomixis and polyploidy. However, PCR-RFLP and trnL-trnF data supported the recognition of C. maxima, C. medica, and C. reticulata as the basal species of edible Citrus.     

Characterisation of cultivated breeding lines of eggplant (Solanum melongena L.) and related wild Solanum species from India

Immature fruit of cultivated species of eggplant (Solanum melongena L.) are commonly used as a summer vegetable in India. Rich morphological variation exists among the cultivated species of eggplant in different growing regions of the country. We have characterised 24 breeding lines of Solanum spp., including 20 eggplant cultivars and four wild species of eggplant, based on 13 morphological characters using Mahalonabis D² statistics. All 24 breeding lines of Solanum spp., including the 20 eggplant cultivars and four wild species, were grouped into four clusters by agglomerative clustering. Cluster II and Cluster IV contained the most accessions (eight each), while Cluster I and Cluster III had four accessions each. The highest inter-cluster (D²) distance (158.33) was observed between Cluster I and Cluster II, followed by Cluster I and Cluster III (108.48), and Cluster II and Cluster IV (102.96), which indicated that accessions in Cluster I and Cluster II were more divergent than those in the other clusters. The highest intra-cluster distance (5.80) was observed in Cluster IV, with eight genotypes, and the lowest intra-cluster distance (2.21) was observed in Cluster II, also with eight genotypes. The intra-cluster distances in all four clusters were lower than the inter-cluster distances, which indicated that genotypes within the same cluster were closely related. Genotypes in Cluster IV had the maximum number of flowers per cluster (3.63), the highest number of fruit per cluster (3.25), and number of fruit per plant (208.63), which revealed that genotypes could be selected from Cluster IV for these characters. The first three principal components (PC1, PC2, and PC3) accounted 73.99% of the total variation among the 24 genotypes. These phenotypic data increase the feasibility of prioritising breeding lines in a crossing programme based on the uniqueness of their desirable morphological traits.     

Use of ISSR,SRAP, and RAPD markers to assess genetic diversity in Turkish melons

The genetic relationships among 63 melon (Cucumis melo L.) genotypes collected from various regions of Turkey were determined by comparing their molecular ISSR, SRAP, and RAPD markers with those of 19 foreign melon genotypes to investigate the taxonomic relationships and genetic variation of Turkish melon germplasm. Total 162 polymorphic markers (69, 18, and 75 obtained from ISSR, SRAP, and RAPD primers, respectively) were used to define the genetic similarity among the melon genotypes by dendrogram or two and three dimensional scalings. The average similarity (SM coefficient) between any two pairs of accessions examined as estimated by molecular variation was 0.73 ± 0.48. Within-group genetic similarities ranged between 0.46 and 0.96. Related genotypes or genotypes collected from similar regions were partitioned to similar clusters. Southeastern Anatolian genotypes were distinctly apart from group inodorus and group cantalupensis (sweet) genotypes. This reinforced the position of Turkey in the secondary genetic diversity center of melon. The genetic diversity among Turkish genotypes (H = 0.28 and I = 0.42) was only a little less than that of the world accessions (H = 0.30 and I = 0.45). On the other hand, the percentage of polymorphic loci among Turkish melon genotypes (90.7%) was even higher than that of the world accessions (87.6%).     

黄瓜种质资源遗传多样性及其亲缘关系的AFLP分析

 采用AFLP分子标记技术，对中国黄瓜种质资源遗传多样性及其与外来种质的关系进行了分析， 结果表明8对AFLP引物在70份黄瓜种质中共扩增出425条带，多态性带的比例为66％。供试黄瓜种质的平 均期望杂合度为0．376，中国种质的平均期望杂合度为0．387，明显高于国外种质的n 291。西双版纳黄瓜和印度野生黄瓜具有一些栽培种质没有的特异位点，中国栽培种质的特异位点多于外来栽培种质，后者也有一些中国栽培种质没有的特异位点。聚类分析将70份种质分为三大组群，即西双版纳黄瓜(Cucumis sativus L.vaF．xishuangbannanesis Qi et Yuan)组群，e sativus var．hardwickii野生黄瓜组群和栽培黄瓜组群。西双版纳黄瓜与栽培黄瓜的距离最远，与野生黄瓜次之。按一定的遗传距离可以将中国和外来栽培种质分开。大多数 华南型和华北型种质归属于不同的亚组。这些结果有助于有目的地利用这些变异拓宽育种材料的遗传背景。     

Molecular characterisation of Afghan pistachio accessions by amplified fragment length polymorphisms (AFLPs)

Summary

In Afghanistan, pistachio (Pistacia vera L.) is found mainly in the wild in natural forests. In this study, 17 wild Afghan pistachio accessions and three cultivated genotypes were characterised using amplified fragment length polymorphisms (AFLPs). Material was sampled mainly from the Kunduz and Takhar regions. A total of 288 AFLP fragments were generated using eight AFLP primer combinations. The number of amplified fragments varied from 18 – 48 per primer combination, and 136 bands were polymorphic, with an average of 17 polymorphic bands per primer combination. The percentages of polymorphic bands ranged from 26.2 – 79.2 per primer pair. According to UPGMA clustering of the Nei and Li distance matrix, the 17 wild accessions were grouped according to their region of origin and were distinct from the three cultivars. The AFLP technique was found to be effective for characterising wild P. vera material, which was genetically the closest to cultivated pistachio.     

Assessing Rosa persica genetic diversity using amplified fragment length polymorphisms analysis

The genetic diversity among 128 Iranian Rosa persica (R. persica) accessions in the different populations was analyzed. Amplified fragment length polymorphisms (AFLP) technique was used to produce 171 polymorphic fragments. The number of polymorphic loci ranged from 101 to 147 and the polymorphism information content (PIC) varied from 0.289 to 0.073, with an average of 0.16. This shows extreme variability and genetic diversity among the studied R. persica populations. An indirect estimate of the number of migrants per generation (Nm = 0.376) indicated that gene flow was relatively low among populations of the species. Cluster analysis using the UPGMA method grouped all accessions into six clusters. The results did not show relative agreement with the genotypes’ region of origin. Based on an analysis of molecular variance, 48% of the genetic variation of R. persica was within population and 52% was among populations. The present analysis revealed that Iranian R. persica genotypes are highly variable and genetically distinct from their origins. The apparent unique nature of the R. persica genotypes revealed by our results supports the case for the implementation of more intense characterization and conservation strategies, and provides useful information to address breeding programmes and germplasm resource management in Rosa spp.     

Genetic diversity of Dimocarpus longan in China revealed by AFLP markers and partial rbcL gene sequences

Amplified fragment length polymorphism (AFLP) and partial rbcL gene sequencing were used to investigate genetic diversity among various longan (Dimocarpus longan Lour) accessions as well as a presumed closely related species Dimocarpus confinis How et Ho and litchi (Litchi chinensis Sonn). No significantly shared AFLP fragment was found between the three species, indicating that D. confinis and litchi are very far in genetic distance from any longan accession studied. Partial rbcL sequences of 501 bp from the first coding site in these species were obtained, which revealed several substitutes. One such DNA base pair substitute resulted in an amino acid difference between longan and litchi. Furthermore, another 4 bp resulted in a two amino acid difference between longan and D. confinis, which was consistent with AFLP results and indicated that D. confinis should be excluded from the longan genus, Dimocarpus. Within the longan species, no DNA substitute was found. Using nine primer combinations, a total of 66 AFLP markers were obtained from 41 longan accessions. One non-Chinese longan accession ‘Miaoqiao’ was distinctly different from all other longan cultivars collected in China, indicating that more genetic resources of longan might be collected also from longan production regions outside of China. AFLP markers might be developed to identify longan cultivars as well as expedite progeny screening in breeding programs of this perennial fruit tree.     

Comparative analysis of genetic diversity in Tunisian apricot germplasm using AFLP and SSR markers

Eighty-one accessions representing apricot germplasm in Tunisia were collected from different areas of cultivation and fingerprinted using amplified fragment length polymorphism (AFLP) and microsatellites (SSR) markers. A total of 339 polymorphic markers were revealed using 5 AFLP primers combinations and 24 SSR loci. AFLP and SSR markers expressed a high level of polymorphism allowing the distinction of the accessions with an efficiency coefficient of discrimination of 100% for AFLP and 97% for SSR markers. Genetic diversity structure was assessed with AFLPs and SSRs markers separately then with combined matrix data by the help of hierarchical clustering elaborated using Wards method based on Nei and Li (1979) distances. Comparison of the obtained dendrograms revealed a phylogeographic structure into two major groups with significant conservation between the observed subgroups in relation with the geographic origin of the accessions. The relative efficiency of the markers in determining the genetic relationships among apricot accessions has been assessed and a combination of AFLPs and SSRs markers was the most effective. In addition, Mantel test based on genetic distances indicated highly significant correlation between AFLP-SSR data and each of the AFLP and SSR ones, with Pearson correlation values of r = 0.873 and r = 0.692, respectively, revealing the higher efficiency of the combination of both molecular techniques (AFLP and SSR) to estimate the levels of genetic variability among apricot germplasm.     

Genetic diversity in Acorus calamus L. as revealed by RAPD markers and its relationship with β-asarone content and ploidy level

β-Asarone content in Acorus calamus is a paramount issue because it limits the usage of plant for medicinal purpose. In the present study A. calamus L. accessions based on RAPD marker, ploidy level and β-asarone content were characterized and correlated on the basis of β-asarone content/ploidy level. Of the 40 random primers used, 6 primers generated polymorphism. Genetic relatedness among accessions evaluated by a similarity matrix based on Dice's coefficient ranged from 0.72 to 0.97. A phenetic dendrogram based on UPGMA analysis grouped accessions into two clusters. A. calamus L. accessions were found to be triploid and tetraploid and their β-asarone content was found in two ranges 6.92–8.0% and 73–88%. The study clustered the accessions as per their ploidy level, β-asarone content and geographical locations. This study would have extensive application in quality control of raw materials.     

Genetic relationships of gladiolus cultivars inferred from fluorescence based AFLP markers

Gladiolus is one of the important commercial flowers with a large number of cultivars. However, genetic relationships among its genotypes have not been reported. This study analyzed genetic relatedness of 54 gladiolus cultivars using amplified fragment length polymorphism (AFLP) markers. A total of 24 AFLP primer pairs with three samples were initially screened, from which 9 primer sets that showed clear scorable and highly polymorphic bands were selected for AFLP reactions. Fluorescence-labeled amplification products were subjected to electrophoresis and then analyzed using an automated sequencer. A dendrogram was constructed by the unweighted pair group method using the arithmetic average (UPGMA). The number of AFLP fragments generated per primer set ranged from 10 to 151 with fragment sizes varying from 50 to 450 bp. A total of 660 AFLP fragments were detected, of which 658 (99.70%) were polymorphic. All the primers except E-AGG/M-CTA displayed 100% polymorphism. All cultivars were clearly differentiated by their AFLP profiles. The AFLP data were compared with previously obtained RAPD data and combined to generate a common dendrogram. The first cluster was dominated with indigenously bred cultivars while the second was dominated with exotic cultivars. This shows that most of the exotic cultivars as well as indigenous cultivars are closely related with each other. However, two indigenous cultivars viz., Pusa Suhagin and Pusa Archana share genetic similarity with exotic cultivars. Among the genotypes selected for the investigation, Pusa Gunjan was identified as the most distinct genotype. The AFLP markers developed will help future Gladiolus cultivar identification, germplasm conservation and new cultivar development. The assessed genetic relationships among gladiolus cultivars may enhance the efficiency of breeding program by selecting desirable parents with reduced breeding cycle.     

Variety identification and comparative analysis of genetic diversity in yardlong bean (Vigna unguiculata spp. sesquipedalis) using morphological characters,SSR and ISSR analysis

Genetic diversity and relatedness of 23 yardlong bean (Vigna unguiculata spp. sesquipedalis) accessions and 7 accessions of a hybrid between cowpea (V. unguiculata spp. unguiculata) and yardlong bean (dwarf yardlong bean) in Thailand were estimated using morphological characters, simple sequence repeat (SSR) and inter-simple sequence repeat (ISSR) markers. In addition, two mungbean (Vignaradiata (L.) Wilczek) and two blackgram (Vigna mungo (L.) Hepper) accessions were also used as outgroup species for molecular analysis. Five morphological characters were diverse among most accessions. However, five groups of 2–3 accessions could not be distinguished from one another based on these morphological characters alone. Unweighted pair-group arithmetic average (UPGMA) analysis of these characters separated these 30 accessions into 2 major groups; the yardlong bean group and the dwarf yardlong bean group. Eleven of the sixteen SSR primers yielded clear SSRs, ten of which were polymorphic (90.91% polymorphism), detecting a total of 54 alleles with an average of 4.91 alleles per locus. These 10 polymorphic SSR markers successfully distinguished 28 yardlong bean and dwarf yardlong bean accessions. The polymorphic information content (PIC) among genotypes varied from 0.251 to 0.752 with an average of 0.597. Among the 16 ISSR primers used, a total of 312 ISSR fragments were amplified for these three Vigna species, revealing the polymorphism percentage of 91.03%. The average ISSR PIC value (0.197) with the range of 0.137–0.276 was lower than that of SSR. Nevertheless, the average marker index of this multilocus marker was 3.495, which was higher than that of SSR (0.669), owing to the differences in the effective multiplex ratio. In addition, Mantel test cophenetic correlation coefficient was higher for ISSR (0.566) than that of SSR (0.198). These results indicated higher efficiency of ISSR for estimating the levels of genetic diversity and relationships among yardlong beans and dwarf yardlong beans in this study. Pair-wise coefficients of SSR- and ISSR-based genetic similarity among all yardlong bean and dwarf yardlong bean accessions averaged 0.87 and 0.91, respectively, suggesting a narrow genetic base that emphasizes the need to broaden genetic diversity to ensure continued breeding success. Clustering of genotypes within groups was not similar when SSR and ISSR derived dendrograms from UPGMA analysis were compared. It appeared that ISSR was the most effective marker system in determining the genetic variability and relationships among yardlong bean and dwarf yardlong bean accessions and differentiating three Vigna species. In addition, ISSR was also most useful for variety identification since all 30 yardlong beans and dwarf yardlong bean accessions can be effectively distinguished by only four ISSR primers with the highest PIC values.     

Genetic characterization of asparagus doubled haploids collection and wild relatives

The genus Asparagus is very large consisting of around 150 species found as herbaceous perennials, tender woody shrubs and vines. The cultivated species (Asparagus officinalis L., diploid) is a highly prized vegetable, grown in different environments ranging from cool temperate zones to deserts, Mediterranean climates and tropical areas. As a consequence, Asparagus breeders have developed different cultivars that differ for their morpho-agronomic traits, habit and ploidic status (few triploid and tetraploid cultivars are used). Several breeding methods are used for developing cultivars, among which a well developed in vitro anther culture technique produces homozygous clones useful for F₁ hybrids constitution. A fluorescent based AFLP (amplified fragment length polymorphism) technique were applied with the aim to assess genetic diversity among a collection of 173 doubled haploid (DH) androgenetic clones, five Asparagus wild species and interspecific hybrids obtained among the cultivated species and two wild relatives. The average number of AFLP fragments generated per primer set was 105, varying in size from 50 to 550 bp. A total of 1054 AFLP fragments were detected, 20% of which were polymorphic. Genetic similarity based on DNA polymorphisms, showed that a few number of AFLP primer combinations are able to distinguish the cultivated DH clones from the wild species. Indeed, from one DH clone for each anther donors and the wild species were used to construct a dendrogram using Dice's coefficient and the unweighted pair group method with the arithmetic mean (UPGMA). Genetic distances among all DH clones were calculated using the C.S. Chord distance; and a neighbour-joining (NJ) consensus tree was constructed in order to support the breeder for parental genotype choice for asparagus hybrid constitution.     

Comparative analysis of genetic diversity in Indian bitter gourd (Momordica charantia L.) using RAPD and ISSR markers for developing crop improvement strategies

A genetic analysis of 38 diverse Indian bitter gourd (Momordicacharantia var. charantia, and var. muricata) accessions was performed using 29 RAPD and 15 ISSR markers. RAPD primers yielded 208 amplicons of which 76 (36.5%) were polymorphic providing an average of 2.6 amplicons per primer. RAPD amplicons per primer ranged from 3 (OPE-19, OPW-09) to 15 (OPW-05), and varied in size from 200 bp to 3000 bp. Fifteen ISSR primers provided a total of 125 bands of which 94 (74.7%) were polymorphic. Polymorphic ISSR markers ranged from 0 (UBC-841) to 12 (UBC-890) providing a mean of 6.3 amplicons per primer that ranged in size from 150 bp to 2700 bp. Nevertheless, the concordance among bitter gourd accession groupings after cluster analysis was relatively high (r = 0.77), indicating that RAPD- and ISSR-based diversity assessments in this germplasm array were generally consistent. The M.charantia var. charantia (domesticated) and var. muricata (wild, free-living) accessions examined were genetically distinct, and these differences provided for the development of strategies for genetic analyses and crop improvement in this species.