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 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.     

Inter- and intra-specific genetic diversity among cyclamen accessions investigated by RAPD markers

Random amplified polymorphic DNA (RAPD) analysis was used to characterize genetic diversity of 26 Cyclamen persicum and Cyclamen com accessions. Eighty-four arbitrary primers tested, among which nine primers showed reliable polymorphic banding patterns and yielded 104 polymorphic markers. Jaccard's similarity coefficient among accessions ranged from 0.99 to 0.08. At a similarity of 68%, accessions were divided into three clusters. The cophenetic correlation coefficient between the similarity matrix and the dendrogram was relatively high (r = 0.9) showing the goodness of fit of the dendrogram. The RAPD analysis offered a rapid and reliable tool for the estimation of inter- and intra-specific variability in cyclamens. The wide genetic variation observed for cyclamens within Iran guarantees a promising future of breeding.     

Genetic diversity and classification of Nelumbo germplasm of different origins by RAPD and ISSR analysis

In this study, RAPD and ISSR markers were used to investigate the genetic diversity and genetic relationships among different germplasm of Nelumbo including 70 Chinese ornamental cultivars, 7 wild Thai genotypes, 2 Nelumbo lutea genotypes and 8 hybrids of Nelumbo nucifera and N. lutea. High genetic diversities of 96.4% and 91.2% respectively were detected in the Nelumbo accessions using RAPD and ISSR markers. A dendrogram based on both RAPD and ISSR clustering data indicated that: (1) the genotypes of N. nucifera and N. lutea from different geographical origins were clustered into different groups. This indicated significant genetic differentiation attributed to extensive periods of geographical isolation and lack of gene exchange; (2) the Thai wild genotypes were separated from Chinese genotypes. This indicated genetic divergence between germplasm from Southeast Asia and that from China. Geographical location appears to have affected genetic diversity due to adaptation of the plants to the different environments. A new Southeastern Asia Lotus category is suggested as an addition to the current lotus cultivars classification system; (3) data on three morphological traits (namely: plant size, petal shape and flower color), showed that only the data on plant size was consistent with the dendrogram constructed from molecular data. This finding suggests that using data on genetic relationships in combination with morphological characteristics would serve to improve the classification system of lotus cultivars currently in use. The finding of previously unknown germplasm in this study indicated the potential of RAPD and ISSR techniques in identifying and managing lotus resources. Both marker techniques are potentially useful in improving the current strategies in breeding and germplasm conservation to enhance the ornamental and economic value of lotus.     

Morphological and molecular analysis of genetic diversity in jackfruit

Summary

RAPD markers were used to estimate genetic diversity in 12 high-yielding jackfruit (Artocarpus heterophyllus Lamk.) accessions obtained from different locations in southern India. Marker data were compared with morphological data obtained over three successive seasons. PCR-amplifiable DNA was isolated using the CTAB method and 171 amplified fragments were obtained using 23 random primers. The genetic dissimilarity matrix was calculated based on Squared Euclidian Distances, which revealed a maximum genetic distance of 7.9% between a clone of ‘Mottavarica’ (‘M₀’), and ‘Chandrahalasu’ from distant locations, while the minimum genetic distance (5%) was between the genotypes (‘M₀’) and ‘Kerala’, indicating their similar geographical origin. Ward's method of cluster analysis grouped all individuals on the dendrogram into two major clusters according to their geographical location. The present study showed low-to-moderate genetic diversity among the 12 jackfruit accessions, which will assist in the identification and management of jackfruit germplasm for breeding purposes.     

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 variability in wild vs. cultivated Eruca vesicaria populations as assessed by morphological,agronomical and molecular analyses

In this study, the genetic diversity of 50 individuals of rocket, Eruca vesicaria, from five accessions, four of them wild type collected from different parts of Spain and one commercial, were evaluated using morphological, agronomical and inter simple sequence repeat DNA (ISSR) data. Molecular analysis was carried out using the ISSR technique with 20 primers. Out of these 20 primers, nine were polymorphic, producing a total of 395 DNA bands, 247 of which were polymorphic among the accessions. A dendrogram drawn on the basis of a similarity matrix using the UPGMA algorithm revealed that the 50 samples of rocket plants could be classified into three major clusters at a Nei's genetic distance of 0.36. The experiment shows that molecular markers such as ISSR are a good instrument for distinguishing and selecting rocket accessions to group different wild populations. In general, a high variation was observed for most of the 16 morphological and 6 agronomical traits showing significant differences. Some morphological traits such as leaf length, petiole length and lamina width explained 69.1% of the whole variation observed in the populations, and some agronomical traits such as leaf area, nitrate and chlorophyll contents accounted for 65.7%, but the clusters generated by means of agronomical and morphological variables were less evident than when ISSR markers used. Some accessions showed good qualities, such as small leaves, high chlorophyll content, late-flowering or low nitrate content. All these parameters, together with the high degree of genetic homogeneity found, could make the local accessions good candidates for a future breeding programme.     

丝瓜种质资源遗传多样性的形态和RAPD标记分析

应用形态标记和RAPD标记对26份丝瓜种质材料进行遗传多样性和亲缘关系分析。所观察的44个形态性状变异系数为5.27 %～107.00 %,平均变异系数为32.75 %。从200个随机引物中筛选出16个引物,共扩增出145条带,多态性带有125条,多态性比率为86.21 %,平均Shannon多样性信息指数为 0.325。基于形态标记的聚类分析将26份丝瓜种质分为普通丝瓜和有棱丝瓜两大类。基于RAPD标记的聚类分析将26份丝瓜种质也分为两大类,但有2份有棱丝瓜种质和普通丝瓜聚为了一类,与形态标记聚类结果不一致。     

Genetic diversity evaluation of wild Persian shallot (Allium hirtifolium Boiss.) using morphological and RAPD markers

Persian shallot, a bulb producing plant from Alliaceae, is a wildly growing plant collected for its bulbs. Bulbs of Persian shallot, called “Mooseer” in Farsi, are oval, white skinned, usually of one and rarely of two main bulbs and are completely different from common shallot (Allium ascalonicum). There is no information about genetic diversity of this species; therefore, the diversity of 17 wild Persian shallot populations collected from different parts of Iran across the Zagross Mountains were evaluated by morphological and RAPD markers. Fifteen random decamer primers could amplify DNA well and produced polymorphic bands among populations. The most fragment number amplified by one primer was 27 out of which 15 fragments were polymorphic and the least was 11 with 6 polymorphic bands. At the similarity of 0.60 on dendrogram constructed on the base of RAPD data, the samples were divided into eight sub-clusters. The highest and lowest detected similarities were 0.73 and 0.49, respectively. Clustering based on morphological traits divided the populations into three groups. Result of cluster analysis based on RAPD data did not show any correlation with morphological characters based on Mantel’s test (r = 0.03). The mineral and fatty acid analysis for defining the nutrient composition of this plant also revealed some differences among populations.     

Characterization of progenies derived from pollination of pomegranate cv. Malase-Tourshe-Saveh using fruit traits and RAPD molecular marker

Fruit traits and molecular markers (RAPD) were used to survey genetic similarities and inheritance pattern of offspring, derived from self- and open pollination of pomegranate cv. Malase-Tourshe-Saveh (MTS) as well as progenies derived from cross between ‘MTS’ and ‘Narm-Daneh’ (ND) a soft-seed cultivar in the present study. Clustering based on fruit traits, divided the accessions firstly into two major groups, sweets and sour or sweet–sours. Members of sub-clusters were different in fruit characters, and seed softness also was affecting the grouping of individuals. Offspring of ‘MTS’ × ’ND’ showed somehow seed softness with varying degrees compared to other individuals. In RAPD analysis, by using 26 polymorphic primers, 325 fragments were produced from 39 individuals, among which 70 reproducible, polymorphic bands were scored for data analysis. NTsys and Bootstrap software were used for RAPD data analysis and respective dendrogram depicted by Jaccard's similarity coefficients using UPGMA method. The similarity coefficients were ranging from 0.2 to 0.94 and the lowest was obtained between pollen parent (ND cv.) and a genotype from open pollination of MTS cultivar. The highest similarity coefficient (0.94) was observed between two offspring both from self-pollination of MTS cultivar. In corresponding dendrogram, pollen parent was separated from other genotypes and laid individually in a sub-cluster, while the mother plant clustered with its progenies. In addition, some marker–trait associations were observed, especially for seed softness.     

ISSR polymorphism in Indian wild orange (Citrus indica Tanaka,Rutaceae) and related wild species in North-east India

Inter simple sequence repeats (ISSR) polymorphism in Citrus indica Tanaka (Rutaceae), an endemic and threatened wild species, was examined along with three other closely related wild taxa (C. medica L., C. latipes (Swingle) Tanaka, and C. sp. ‘Memang athur’) by analyzing 53 representative accessions sampled from North-east India. Jaccard's similarity values among 53 accessions of Citrus ranged from 0.46 to 0.97 (average = 0.75). Genetic similarity values among all the 34 accessions of C. indica were found in the range of 0.82 to 0.97 with an average of 0.90. Heterozygosity (Ht = 0.123) and Shannon's information index (I = 0.188) values estimated for C. indica revealed significantly low level of genetic variation within the species. UPGMA dendrogram grouped all 53 accessions of Citrus into four major clusters: Cluster I – C. latipes; Cluster II – C. medica; Cluster III – ‘Memang athur’ and Cluster IV – C. indica. The dendrogram placed all the 34 accessions of C. indica in five sub-clusters under Cluster IV. The placement of C. indica accessions in various sub-clusters and groups in the dendrogram was based on molecular differentiation of individual accessions rather than their geographical origin. Very low genetic diversity and destruction of its natural habitat pose serious threat to C. indica even in the Citrus Gene Sanctuary in Nokrek Biosphere Reserve (NBR) in Meghalaya. Low genetic variability, heterozygosity and Shannon's information index in C. medica, C. latipes and ‘Memang athur’ are also concerns that need to be addressed for developing appropriate strategies to conserve the genetic diversity extant in these valuable genetic resources.     

Biodiversity in Indigenous Germplasm of <Emphasis Type="Italic">Pyrus </Emphasis>from Pakistan Based on Phenotypical and Morphological Traits

A comprehensive analysis of various horticulturally important morphological traits of sixty pear accessions located in five districts of Azad Jammu and Kashmir (Pakistan) was carried out. Several qualitative and quantitative traits were investigated in situ and after the harvesting of leaf and fruit samples. The rich diversity was observed for qualitative traits (i.?e. growth habit, blooming time, intensity of flowering, fruit setting, ripening time, productivity, and fruit shape and color) among pear accessions. As for the quantitative traits, significant variation was observed for leaf area (8.96–27.17 cm²), flowering duration (11–24 days), fruit weight (68.1–322.3 g), average fruit length (2.68–9.87 cm) and average fruit width (1.82–8.12 cm) between pear accessions. Based on qualitative and quantitative data, two dendograms were constructed by using cluster analysis which separated pear accessions into three distinct groups. The cluster analysis showed considerable differences between the accessions for qualitative and quantitative traits. Furthermore, a close association between accessions was noted inside the clusters for qualitative and quantitative traits. The results showed rich diversity and similarity between the pear accessions and needs further assessment at molecular level to elucidate their phylogenetic relationship.     

RAPD markers reveal polymorphism among some Iranian pomegranate (Punica granatum L.) genotypes

In this study RAPD markers were used to determine the diversity level among 24 Iranian pomegranate genotypes. One hundred decamer random primers were used for PCR reactions, among which 16 showed reliable polymorphic patterns. These primers produced 178 bands, of which 102 were polymorphic. Cluster analysis of the genotypes was performed based on data from polymorphic RAPD bands, using Jaccard's similarity coefficient and UPGMA clustering method. The highest and lowest similarities detected between genotypes were 0.89 and 0.29, respectively. At a similarity of 60%, the genotypes were divided into four sub-clusters. Cophenetic correlation coefficient between similarity matrix and cophenetic matrix of dendrogram was relatively high (r = 0.9) showing the goodness of fit of the dendrogram. RAPD markers showed to be a useful tool for studying the genetic diversity of pomegranate.     

Further Work on Plant Injection for Diagnostic and Curative Purposes

Summary

Randomly Amplified Polymorphic DNA (RAPD) markers were used to evaluate genetic similarity and inter-relationship among31 acid citrus species and cultivars, including sour oranges (six accessions); ‘Yuzu’ (four accessions) andits relatives (21 accessions). Out of the 60 decamer primers screened, 27 were selected which produced 108 markers; 76 of which were polymorphic. Species or cultivar-specific RAPD markers were also found. A dendrogram based on genetic distance implied that sour oranges were very distinct from ‘Yuzu’ and its relatives. ‘Yuzu’ accessions were very closely linked to each other, however; for the other specimens genetic polymorphism could easily be detected by RAPDs and the genetic variation between accessions was quite high and revealed their different origins. In this study some RAPDs allowed the distinction of very close cultivars, for instance ‘Kabosu’ from ‘Aka kabosu’.     

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%).     

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.     

Analysis of genetic diversity among wild pomegranates in Western Himalayas,using PCR methods

The genus Punica (Punicaceae) is distributed in Iran, Afghanistan, India and Mediterranean countries. Iran is considered to be its primary center of origin. In India Punica granatum is found in wild only in Western Himalayan regions comprising, Jammu and Kashmir, Himachal Pradesh and Uttarakhand states. However, there is little information available about the genetic variation present in pomegranates in the regions. In this paper we describe the use of DAMD and RAPD methods that generate the profiles, to study genetic diversity in wild genotypes of the P. granatum in India. Forty-nine accessions representing two regions of Western Himalaya were analyzed. Similarity coefficient value varied from 0.08 to 0.79 across different accessions. The results indicate that DAMD (97.08%) revealed more polymorphism in comparison to RAPD (93.72%). The results show that these methods are sufficiently informative to unravel the genetic variations in wild pomegranates in Western Himalayas.     

Characterization of white sapote (Casimiroa edulis Llave & Lex.) germplasm using floral morphology,RAPD and AFLP markers

Floral morphology, random amplified polymorphic DNA (RAPD), and amplified fragment length polymorphism (AFLP) were used to characterize and verify genetic diversity within a white sapote cultivar collection and to develop molecular markers for germplasm identification. On the basis of floral morphology, the cultivars were classified into three types: type I included 23 cultivars with large ovaries and small anthers; type II included 13 cultivars with small ovaries and large anthers; and type III included one cultivar, named ‘Maltby’, with a large ovary and large anthers. DNA was isolated from 39 cultivars of white sapote and subjected to RAPD and AFLP analysis using 24 and 7 primers, respectively. One hundred and sixty-eight RAPD and 286 AFLP bands were used to assess genetic characterization among white sapote. Sixty percent of the RAPD and 77% of the AFLP amplification products were polymorphic among accessions. RAPD or AFLP markers differentiated all white sapote cultivars effectively. Moreover, each flower type was characterized as specially associated with two RAPD bands. UPGMA dendrograms based on RAPD and AFLP data, showed the majority of the cultivars from flower type I and flower type II clustering together. Finally 101 RAPD markers and 220 AFLP markers were used to construct a neighbor-joining dendrogram. This showed that the 37 cultivars could be classified into six distinct clusters, between which the similarity coefficient was as low as 0.00–0.55, even though the cultivars were morphologically very similar. The remaining two cultivars namely ‘Smathers’ and ‘Maltby’ were found genetically very distant from the other cultivars in RAPD, AFLP or combined RAPD and AFLP based dendrograms. The results suggested that the level of genetic variation among white sapote cultivars is diverse and the morphological and molecular data may lead to representation of the cultivar relationships as well as flower type discrimination.     

Genetic diversity in Tunisian olive accessions and their relatedness with other Mediterranean olive genotypes

Eighty-four olive accessions obtained from the National Conservatory of Boughrara-Sfax (Tunisia), previously evaluated for morphological traits, were analysed with 47 random amplified polymorphic DNA (RAPD) markers. They were compared with other olive genotypes originated from Eastern or Western Mediterranean. The highest and lowest similarities between genotypes, estimated by simple matching algorithm, were 0.98 and 0.40, respectively. A dendrogram based on Ward's method and a factorial correspondence analysis (FCA) showed that most of Tunisian accessions are closely related to olive genotypes originating from the Eastern Mediterranean and some are clustering with genotypes originated from the Western Mediterranean. These findings suggested multiple and complex origin of Tunisian olive. A comparative study between a previous morphological analysis and current RAPD assay was carried out and discussed.