Genetic diversity in Apium graveolens and related species revealed by SRAP and SSR markers

Genetic diversity is essential to crop improvement. However, lack of molecular markers prevents the understanding of genetic diversity in celery and related species. In this study, SRAP and SSR markers was firstly used to evaluate genetic variation in 68 accessions of Apium graveolens and related species. A total of 888 bands were generated by 40 primer combinations of SRAP and 32 bands were produced by eight SSR markers. Of the 920 bands, 95.1% were polymorphic between A. graveolens and related species, and 49.2% were polymorphic within A. graveolens. Cluster and structure analysis could distinguish local celery, celery, and related species. These results suggested that both SRAP and SSR technologies can be efficiently used to characterize genetic variation and analyze genetic relationship in celery and related species.     

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.     

Genetic diversity of bitter gourd (Momordica charantia L.) genotypes revealed by RAPD markers and agronomic traits

Bitter gourd or bitter melon (Momordica charantia L.) is considered as minor cucurbitaceous vegetable in spite of having considerable nutritional and medicinal properties. Although some reports on genetic diversity based on morphological characterization are available, no work has been conducted to estimate genetic diversity using molecular markers in this crop. In the present study, 38 genotypes of M. charantia including few commercially cultivars collected from different parts of India based on agro-ecological zones were analysed for diversity study both at morphological and molecular levels. Genomic DNA was extracted from young healthy leaves following the procedure of Doyle and Doyle [Doyle, J.J., Doyle, J.L., 1990. A rapid DNA isolation procedure from small quantity of fresh leaf material. Phytochem. Bull. 119, 11–15]. Pair-wise comparison of genotypes was calculated as per the procedure of Jaccard [Jaccard, P., 1908. Nouvelles recherches sur la distribution florale. Bull. Soc. Vaud. Sci. Nat. 44, 223–270]. Dendrogram was constructed using the unweighted pair group method with arithmetic averages (UPGMA) and the computation for multivariate analysis was done using the computer programme NTSYS-pc Version 2.0 [Rohlf, F.J., 1998. NTSYS-pc Numerical Taxonomy and Multivariate Analysis System, Version 2.01. Exeter Software, Setauket, NY, USA]. Diversity based on yield related traits and molecular analysis was not in consonance with ecological distribution. Among 116 random decamer primers screened 29 were polymorphic and informative enough to analyse these genotypes. A total of 208 markers generated of which 76 (36.50%) were polymorphic and the number of bands per primer was 7.17 out of them 2.62 were polymorphic. Pair-wise genetic distance (GD) based on molecular analysis ranged from 0.07 to 0.50 suggesting a wide genetic base for the genotypes. The clustering pattern based on yield related traits and molecular variation was different.     

Taxonomic revision of Dendrobium moniliforme complex (Orchidaceae)

Taxonomic revision of Dendrobium moniliforme complex is presented. D. moniliforme complex is characterized by the even slim stems, bracts with brownish zone, semi-spherical anther cap and the hairy disc of lip. Dendrobium tosaense, Dendrobium officinale and Dendrobium guangxiense were excluded by having membranous bracts lacking brownish zone, anther cap conical and bifid. Two species are recognized in this complex, i.e., D. moniliforme and Dendrobium wilsonii. D. wilsonii differs from D. moniliforme by having elliptic leaves about 1.3–2 cm wide, dorsal sepal 3.0–4.0 cm long, 0.6–0.9 cm wide, petals elliptic to oblong, 3.0–4.0 cm long, 1.0–1.5 cm wide, lip elliptic to ovate–lanceolate, 2.6–3 cm long, 1.2–1.5 cm wide.     

Genome composition and genetic diversity of Musa germplasm from China revealed by PCR-RFLP and SSR markers

Banana (Musa spp.) is one of the most important crops in the world. In this study, 216 banana accessions, 184 from the National Banana Germplasm Collection of China (NBGCC) and 32 from the International Network for the Improvement of Banana and Plantain (INIBAP), were used to determine the genome composition of banana plants in these collections and to estimate their genetic diversity. The genome composition was examined using PCR-RFLP markers. The molecular data for all but one accession (ITC 1231) from INIBAP were in agreement with the initial records based on phenotypic characteristics. Microsatellite (SSR) markers were used to investigate the genetic variability and relationships among these banana accessions. Ten of the 47 primer pairs tested consistently produced reproducible and discrete fragments. We identified a total of 92 alleles, ranging from 5 to 15 per locus. The genetic similarity between the accessions ranged between 0.1 and 1, when estimated using Jaccard's coefficient. The UPGMA method based on genetic similarities, grouped the NBGCC accessions according to those containing the ‘A’ and ‘B’ genomes. However, this analysis could not separate all the accessions, especially the somatic mutations, using the primers in this study. These data indicated that limited genetic variation exists within these accessions and the collections of NBGCC should include a much wider range of banana plant material.     

Genetic diversity in mainland and island populations of the endangered Pancratium maritimum L. (Amaryllidaceae) in Tunisia

Tunisian Pancratium maritimum L. populations are at present endangered and represented by scattered individuals as a result of coastal habitat destruction caused by urbanization and overharvesting for its significant ornamental interest. Nineteen populations growing in mainland and island habitats were sampled for allozyme diversity to assess their genetic diversity and structuration using seven isozymes revealed by starch gel electrophoresis. The species exhibited relatively high levels of genetic diversity (the mean A_p = 1.37, P = 37.4%, and H_e = 0.100), indicates a preferentially outcrossing mating system.     

Genetic characterization of different demes in Prunus persica revealed by RAPD markers

DNAs of 180 accessions in 10 demes in Prunus persica were amplified with twenty-two, 10-base primers selected from 200 arbitrary primers using Randomly Amplified Polymorphic DNA (RAPD) technology. One hundred and eighty loci were observed and recorded. With statistical analyses of the data from the study, genetic diversity of the demes was expressed as follow: yellow peach group > honey peach group > flat peach group > red leaf peach group > crisp peach group > bitao group and juicy peach group > nectarine group > shouxingtao group > weeping peach group. Genetic variations among and within groups by AMOVA analyses were 11.9, 88.1%, respectively. Demes clustered by UPGMA modified from NEIGHBOR procedure of PHYLIP Version 3.5, the edible peaches of which were combined as a section, while the ornamental species were classified into separate sections. Through analyses of genetic diversity and genetic structure, the results could provide molecular biological evidence for conservation and utilization of P. persica germplasm.     

Genetic diversity and population's structure in Tunisian strawberry tree (Arbutus unedo L.)

A growing interest in the use of the Strawberry tree (Arbutus unedo L., Ericaceae) has been recently reported for industrial, pharmaceutical and chemical fields. However, the bulk material comes from natural populations because of the lack of selection of interesting cultivars. In Tunisia, A. unedo populations are severely destroyed due to deforestation and over-collecting. The species occurs in small scattered populations decreasing progressively in size. Yet, no conservation or improvement programs are attempted to preserve and promote the potential value of this resource. In this work, we assessed the genetic diversity of nine Tunisian populations of A. unedo L. from different bioclimates, using 65 polymorphic RAPD loci. The analysis of the genetic variation within and among populations is primordial to elaborate conservation and improvement programs. A low genetic diversity within a population estimated by both Nei's (He) and Shannon's diversity (H′) indices (0.155 < He < 0.248; 0.229 < H′ < 0.364) was observed due to genetic drift and selfing. At the species level, the amount of the within population variation estimated by Shannon's index (H_POP/H_SP = 0.686) and the molecular variance (80.67%) was higher than that among populations. A moderate genetic differentiation among populations (Φ_ST = 0.193 and G_ST = 0.314) which could be attributed to the long seed distance dispersal was detected. The UPGMA dendrogram based on Φ_ST values showed three clusters each including populations without relationship to bioclimatic or geographical origin indicating that differentiation occurs at a local space scale. The in situ protection measures should be made appropriately according to a population within bioclimates. The ex situ conservation and the selection of genotypes should involve extensive collection of seeds or cuttings from the within populations rather than among them.     

Comparative analysis of genetic diversity in Prunus L. as revealed by RAPD and SSR markers

RAPD and SSR markers were used for genetic diversity evaluations among 15 genotypes selected from the genus Prunus L. Altogether 40 RAPD primers and 21 primer pairs designated for microsatellite loci were applied on the whole group of genotypes.     

Development of novel chloroplast microsatellite markers for Dendrobium officinale, and cross-amplification in other Dendrobium species (Orchidaceae)

Nine pairs of polymorphic chloroplast microsatellite primers were developed for Dendrobium officinale Kimura et Migo, an endangered herb. Levels of polymorphism were tested across a total of 55 individuals from four natural populations (12–15 individuals per population). Allele numbers varied from two to four per locus, while the number of haplotypes ranged from four to six per population. Transferability of the nine polymorphic chloroplast microsatellite primers was checked on an additional set of 51 Dendrobium individuals (belonging to 17 different species). Three markers could be transferable to all the species tested, while the remaining six markers successfully cross-amplified in most species tested. Moreover, polymorphism of the nine chloroplast microsatellite primers was tested across Dendrobium moniliforme (L.) Sw. and Dendrobium loddigesii Rolfe. All of them were polymorphic in D. moniliforme, while seven of which were polymorphic in D. loddigesii. These polymorphic chloroplast microsatellite primers developed for D. officinale will be a useful tool for the study of genetic diversity, population genetic structure, evolution of D. officinale and establishment of effective conservation strategies.     

Genetic structure of Buxus sinica var. parvifolia, a rare and endangered plant

Buxus sinica var. parvifolia, a rare and endangered tree species in some semitropics alpine areas of China, plays an important role in the maintenance of the landscape and ecosystem. In this study, RAPD and ISSR markers were used to investigate the genetic diversity and structure of five natural populations and one tamed population of B. sinica var. parvifolia. 21 RAPD primers amplified 209 bands with 167 (79.90%) polymorphic and 21 ISSR primers amplified 518 bands with 467 (90.15%) polymorphic. The genetic diversity, estimated by Shannon’ index, was 0.4343 (by RAPDs) and 0.3661 (by ISSRs). Both RAPD and ISSR analyses revealed a high level of genetic diversity in natural populations of B. sinica var. parvifolia. Furthermore, analysis of molecular variance (AMOVA) was used to apportion the variation within and between populations. The proportion of variation attributable to within-population differences was very high (69.2% by RAPDs; 84.51% by ISSRs). Moderate differentiation was detected among populations using RAPDs (30.80%), while only a small amount of variation (15.49%) was detected among populations using ISSRs. We suggest that the present genetic structure is due to high levels of environmental variability and gene flow, which still need further study to confirm. Conservation measures are suggested, including in situ and ex situ strategies, based on the observed population genetic information.     

Genetic relatedness (diversity) and cultivar identification by randomly amplified polymorphic DNA (RAPD) markers in teasle gourd (Momordica dioica Roxb.)

Genetic relationship and variation of 29 accessions of teasle gourd (Momordica dioica Roxb.) and 1 accession of Momordica cochinchinensis Spreng. (wild relatives of teasle gourd) were examined by RAPD analysis using 44 dodecamer oligonucleotide primers. A total of 496 fragments were produced by 44 primers of which 95% bands were polymorphic. Using presence or absence of specific RAPD markers or combination of primers, 23 out of 30 accessions were identified. The genetic relatedness or genetic distance based on Nei and Li's genetic similarity varied from 0.86 to 0.65 with an average of 0.74 among 29 M. dioica accessions (when M. cochinchinensis excluded). In the phenetic dendrogram developed from cluster analysis using UPGMA method, M. cochinchinensis was out grouped as single accession, while others showing relatively weak grouping formed four groups. Clustering pattern did not demonstrate any relationship between geographical origin and genetic diversity. A DNA extraction method has been standardized. This is the first report of using RAPD techniques in teasle gourd. It was concluded that RAPD analysis is a useful tool for genotypic identification and estimation of genetic similarity in teasle gourd.     

Genetic diversity in local Tunisian pears (Pyrus communis L.) studied with SSR markers

Few records are available about local Tunisian pear cultivars characterized by low chilling requirements and adaptation to dry conditions. In this work, seven SSRs derived from apple were successfully transferred to 25 local Tunisian pear genotypes and 6 common varieties of Pyrus communis cultivated in Europe. The 7 SSRs used amplified a total of 36 fragments. All the microsatellites except one seem to amplify more than one locus in some of the genotypes studied. Only 12 different fingerprinting patterns could be distinguished among the 25 Tunisian cultivars studied indicating a high number of synonymies. The mean expected and observed heterozygosities in the 25 Tunisian cultivars analyzed averaged 0.71 indicating a high level of genetic diversity among the local Tunisian pear germplasm. These markers will be useful to optimize the conservation of this highly threatened germplasm.     

Genetic diversity of Chinese natural bermudagrass (Cynodon dactylon) germplasm using ISSR markers

Bermudagrass (Cynodon dactylon L.) is an important warm-season turfgrass. Although it is widely distributed in China, studies on the genetic variation and relationship among the large-scale indigenous bermudagrass were relatively insufficient, especially at molecular level. The purpose of this study was to assess the molecular variation and relationship among one commercial cultivar ‘Tift3’ and 95 wild bermudagrass accessions collected from 11 provinces in China by ISSR marker technique. The results indicated that 29 ISSR primers generated a total of 248 bands among which 242 (97.6%) were polymorphic bands. The genetic similarity coefficients among accessions ranged from 0.51 to 0.97 with an average of 0.74. All accessions could be clustered into 11 groups with UPGMA method. Accessions from the same or adjacent regions generally were clustered into the same group or subgroups. A few accessions, however, were greatly different from the majority of all accessions. The results suggested that ISSR marker is an effective tool for the study of genetic variation in Chinese natural bermudagrass.     

Assessment of diversity in Podophyllum hexandrum by genetic and phytochemical markers

For successful conservation and domestication of a species, evaluation of its genetic diversity by different markers is important. Morphological characteristics, phytochemical variation and random amplified polymorphic DNA (RAPD) profiles were generated in different accessions of Podophyllum hexandrum in order to determine the genetic diversity. Random amplified polymorphic DNA (RAPD) analysis revealed a high degree of genetic diversity among the accessions used in the study. There was also high diversity in the concentration of marker compounds in the collected samples as revealed by HPLC analysis. It is shown that the approaches used in the work successfully discriminate between the accessions of this species and thus they constitute interesting tools to analyze molecular, biochemical and phenotypic diversity within this species. Similarity measurement using UPGMA followed by cluster analysis resulted in formation of many groups based on geographical distribution that generally reflected expected trends between the genotypes. There were also some important exceptions like PW-S, an accession from Wastoorwan, Khrew showing close resemblance to PG-S and PG-B collected from Gulmarg but grown at two different gene banks at Srinagar and Bonera. Further an accession PSH-B from Keller was significantly diverse from the rest of the native genotypes phytochemically, morphologically and at molecular level. RAPD data analysis was found to be significant predictor of phytochemical markers in cultivated P. hexandrum germplasm. Twelve accessions grown in gene bank repository were subjected to RAPD analysis and were assessed for content of podophyllotoxin and podophyllotoxin β-d-glycoside by HPLC. Individual regressions of podophyllotoxin and podophyllotoxin β-d-glycoside by RAPD analysis against HPLC has been found to determine linear values. Strong correlation and a strong association of values of the phytochemical variables and the DNA polymorphism data has been recorded.     

Genetic diversity and phylogenetic relationships of Prunus microcarpa C.A. Mey. subsp. tortusa analyzed by simple sequence repeats (SSRs)

Prunus microcarpa C.A. Mey. subsp. tortusa is a deciduous shrub well adapted to severe winter and dry-hot summer conditions. As the first step to explore the genetic and horticultural potential of P. microcarpa C.A. Mey. subsp. tortusa, we used SSRs to elucidate the genetic variation within its populations dispersed in upper Mesopotamia. We also investigated its phylogenetic relationship with economically important Prunus species; almond, apricot, sweet cherry, peach and plums. Using 47 amplifying SSR primer pairs, 63 P. microcarpa C.A. Mey. subsp. tortusa genotypes sampled from five locations and 15 cultivars belonging to other Prunus species were assayed. The cross-species transportability of SSRs was 96% indicating a high degree of homology between P. microcarpa C.A. Mey. subsp. tortusa and the other Prunus species. The genetic distance between P. microcarpa C.A. Mey. subsp. tortusa genotypes belonging to a particular geographic site was lower than that between genotypes of different geographic origins. Cluster analysis differentiated P. microcarpa C.A. Mey. subsp. tortusa genotypes according to their geographic sites and separated them from the other Prunus species. P. microcarpa C.A. Mey. subsp. tortusa and sweet cherry, the subgenus Cerasus, were located in the same major cluster, the other Prunus species, belonging to the subgenera Amygdalus and Prunus, were located in another one. The analysis of molecular variance (AMOVA) revealed that genetic variation among individuals within populations (59.10%) was much higher than among Prunus groups (29.28%) and among P. microcarpa C.A. Mey. subsp. tortusa populations of different geographic sites (11.61%). The results indicate a substantial genetic diversity in P. microcarpa C.A. Mey. subsp. tortusa and the need of exploring a wider area to increase the chance of finding a particular genotype.     

Use of ISSR markers to assess genetic diversity of African edible seeded Citrullus lanatus landraces

We used the twenty primers to evaluate the genetic variability of 80 individuals belonging to four accessions of edible seeded Citrullus lanatus originated from Côte d’Ivoire. Edible seeded C. lanatus, named “egusi” or “pistachio”, had a great importance in nutrition in West Africa. Nevertheless, due to its neglected status no study to our knowledge has been devoted to its genetic variability using DNA markers. The twenty ISSR primers generated 258 bands among which 252 were polymorphic (97.67%). On the whole, the bands generated revealed three types of profile sharply distinct from each other with minor differences within each type. One profile (P1) was most frequent with 65 individuals. Three accessions (NI084, NI127 and NI145) generated the three types of profile and had medium values of genetic diversity (GD = 0.246–0.275, respectively). On the opposite, the accession NI076 only contained individuals of the most represented type of profile (P1) and had the lowest genetic diversity (GD = 0.055 ± 0.017). The pairwise genetic distance between the 80 individuals varied from 0 to 0.61. The Factorial Component Analysis and the dendrogram clearly separated the 80 individuals into three clusters corresponding to the three types of profile. The results showed that clusters were well separated from each other whereas accessions were not. Our results suggest that high number of individuals should be taken into account for sampling missions and conservation strategies because accessions were not well differentiated from each other. Local agricultural practices consisting of frequent seeds exchanges between farmers and the conservation of harvested seeds for next year culture could be one explanation.     

Genetic variation in tomato populations from four breeding programs revealed by single nucleotide polymorphism and simple sequence repeat markers

Genetic variability in modern crops is limited due to domestication and breeding. To investigate genetic variation in different populations, 216 tomato (Solanum lycopersicum L.) cultivars, hybrids, and elite breeding lines from four breeding programs were genotyped using single nucleotide polymorphism and simple sequence repeat markers. Of 47 markers analyzed, 72.3% were polymorphic in the whole collection of 216 genotypes and 51.06–59.57% showed polymorphisms in individual populations. However, genetic variation was narrow in all four populations. Nei's genetic distance varied from 0.0422 to 0.1135 between populations and from 0.0085 to 0.3187 between lines in individual populations. Cluster and principal coordinate analysis indicated that the four populations could be grouped into three clades. Lines from Shenyang Agricultural University and China Agricultural University population formed the first clade, lines from Beijing Vegetable Research Center were in the second clade, and lines from Nunhems were in the third clade. This was further supported by population structure analysis using STRUCTURE2.2, and suggested that a lack of germplasm exchange might exist among breeding programs. It might be the reason that the progress of developing new varieties with significant improvement of horticultural traits in China is slow in recent years.     

Assessment of genetic diversity among mango (Mangifera indica L.) genotypes using RAPD markers

Knowledge about the extent of genetic diversity/relatedness in mango germplasm is vital for developing coherent strategies for future gains in productivity. The genetic diversity/relatedness among mango cultivars/genotypes developed in Pakistan has not been investigated previously. We have assessed the genetic diversity among 25 mango genotypes/cultivars using randomly amplified polymorphic DNA (RAPD). Sixty random ten-mer primers were surveyed, out of which 45 yielded amplicons in all the genotypes. Genetic similarity between genotypes/cultivars was in the range of 64–89% with an average of 74%. Similarly, the genetic relatedness among all variants derived from a mango cultivar Chaunsa was in the range of 81.18–88.63%. These coefficients were utilized to construct a dendrogram using the unweighted pair group of arithmetic means (UPGMA). The genotypes were grouped into three (A, B, C) clusters. Generally, genotypes originating from Pakistan were grouped in cluster ‘A’ while cluster ‘B’ primarily composed of southern India as well as Florida cultivars. Kensington Pride was the most distantly related genotype which grouped with Maya and Yakta, forming a distinct cluster ‘C’.     

Assessment of genetic diversity of Latvian and Swedish sweet cherry (Prunus avium L.) genetic resources collections by using SSR (microsatellite) markers

Three previously described highly polymorphic SSR (microsatellite) primer pairs were tested on 126 sweet cherry (Prunus avium L.) accessions to adapt a fast, reliable method for preliminary screening of sweet cherry germplasm collections and to compare two sweet cherry germplasm collections: at the Latvia State Institute of Fruit-Growing, Dobele (LIFG-Dobele) and at the Division of Horticultural Genetics and Plant Breeding at Balsgård, Department of Crop Sciences, Swedish University of Agricultural Sciences (SLU-Balsgård). The SSR loci were highly polymorphic with 4–10 different alleles and 5–18 genotypes. Heterozygosity values ranged from 0.431 to 0.809, gene diversity (PIC) values ranged from 0.400 to 0.753, and the discriminating power of each locus varied from 0.631 to 0.894. The combined discriminating power of all loci was highly effective (0.996). Sixteen identical accession groups with the same allele profile were discovered in both collections. This study demonstrated that SSR fingerprinting with the three primer pairs tested, can be used for preliminary characterization of sweet cherry germplasm collections.