Determination of genetic diversity among Saccharina germplasm using ISSR and RAPD markers

Various species of genus Saccharina are economically important brown macroalgae cultivated in China. The genetic background of the conserved Saccharina germplasm was not clear. In this report, DNA-based molecular markers such as inter simple sequence repeats (ISSR) and random amplified polymorphic DNA (RAPD) were used to assess the genetic diversity and phylogenetic relationships among 48 Saccharina germplasms. A total of 50 ISSR and 50 RAPD primers were tested, of which only 33 polymorphic primers (17 ISSR and 16 RAPD) had an amplified clear and reproducible profile, and could be used. Seventeen ISSR primers yielded a total of 262 bands, of which 256 were polymorphic, and 15.06 polymorphic bands per primer were amplified from 48 kelp gametophytes. Sixteen RAPD primers produced 355 bands, of which 352 were polymorphic, and 22 polymorphic bands per primer were observed across 48 individuals. The simple matching coefficient of ISSR, RAPD and pooled ISSR and RAPD dendrograms ranged from 0.568 to 0.885, 0.670 to 0.873, and 0.667 to 0.862, revealing high genetic diversity. Based on the unweighted pair group method with the arithmetic averaging algorithm (UPGMA) cluster analysis and the principal components analysis (PCA) of ISSR data, the 48 gametophytes were divided into three main groups. The Mantel test revealed a similar polymorphism distribution pattern between ISSR and RAPD markers, the correlation coefficient r was 0.62, and the results indicated that both ISSR and RAPD markers were effective to assess the selected gametophytes, while matrix correlation of the ISSR marker system (r = 0.78) was better than that of the RAPD marker system (r = 0.64). Genetic analysis data from this study were helpful in understanding the genetic relationships among the selected 17 kelp varieties (or lines) and provided guidance for molecular-assisted selection for parental gametophytes of hybrid kelp breeding.     

Molecular genetic diversity of Satureja bachtiarica

Fifty-seven genotypes from eight population of Satureja bachtiarica was evaluated using fifteen ISSR and eleven RAPD markers. DNA profiling using RAPD primers amplified 84 loci, among which 81 were polymorphic with an average of 7.36 polymorphic fragments per locus. Also, using RAPD markers maximum and minimum polymorphic bands observed for Semyrom (77.38 %) and Farsan (40.48 %) populations, respectively. Semyrom population recorded the highest unbiased expected heterozygosity (0.259) and Shannon’s Indices (0.38). While, the lowest values of unbiased expected heterozygosity (0.172) and Shannon’s Index (0.245) were recorded for Eghlid and Farsan populations, respectively. On the other hand, ISSR primers produced 136 bands, from which 134 were polymorphic with an average of 9.06 polymorphic fragments per primer (98.52 %). The ISSR markers evaluation revealed that maximum and minimum polymorphic bands observed for Semyrom (66.18 %) and Farsan (31.62 %), respectively. Shahrekorud population recorded the highest unbiased expected heterozygosity (0.211) and Shannon’s Indices (0.301). While, the lowest value of unbiased expected heterozygosity (0.175) observed for Farsan and Yazd populations and the lowest Shannon’s Index (0.191) recorded by Farsan population. The overall results of the study revealed that both ISSR and RAPD markers were effective for evaluation of genetic variation of S. bachtiarica.     

Genetic Diversity of Pleurotus pulmonarius Revealed by RAPD,ISSR, and SRAP Fingerprinting

Pleurotus pulmonarius is one of the most widely cultivated and popular edible fungi in the genus Pleurotus. Three molecular markers were used to analyze the genetic diversity of 15 Chinese P. pulmonarius cultivars. In total, 21 random amplified polymorphic DNA (RAPD), 20 inter-simple sequence repeat (ISSR), and 20 sequence-related amplified polymorphism (SRAP) primers or primer pairs were selected for generating data based on their clear banding profiles produced. With the use of these RAPD, ISSR, and SRAP primers or primer pairs, a total of 361 RAPD, 283 ISSR, and 131 SRAP fragments were detected, of which 287 (79.5 %) RAPD, 211 (74.6 %) ISSR, and 98 (74.8 %) SRAP fragments were polymorphic. Unweighted Pair-Group Method with Arithmetic Mean (UPGMA) trees of these three methods were structured similarly, grouping the 15 tested strains into four clades. Subsequently, visual DNA fingerprinting and cluster analysis were performed to evaluate the resolving power of the combined RAPD, ISSR, and SRAP markers in the differentiation among these strains. The results of this study demonstrated that each method above could efficiently differentiate P. pulmonarius cultivars and could thus be considered an efficient tool for surveying genetic diversity of P. pulmonarius.     

Correspondence of ISSR and RAPD markers for comparative analysis of genetic diversity among different apricot genotypes from cold arid deserts of trans-Himalayas

The phylogenetic relationships of 36 locally grown Prunus armeniaca genotypes which are collected from nine sampling sites from two valleys viz. Nubra (9,600 ft) and Leh (11,500 ft) of trans-Himalayan region were analyzed using 31 PCR markers (20 RAPDs and 11 ISSRs). This is the first report of molecular genetic diversity studies in apricot from this region of the world. RAPD analysis yielded 139 fragments, of which 136 were polymorphic, with an average of 6.8 polymorphic fragments per primer. ISSR analysis produced 58 bands, of which 56 were polymorphic, with an average of 5.09 polymorphic fragments per primer. The primers based on (CT)n produced maximum number of bands (nine) while, (AT)n and many other motifs gave no amplification. RAPD markers were found more efficient with regards to polymorphism detection, as they detected 97.84 % as compared to 96.5 % for ISSR markers. Clustering of genotypes within groups was not similar when RAPD and ISSR derived dendrogram were compared, whereas the pattern of clustering of the genotypes remained more or less the same in RAPD and combined data of RAPD + ISSR. The results of PCA analysis were comparable to the cluster analysis. These analyses, allowed us to identify the groups corresponding to the two apricot collection sites.Key words: Prunus armeniaca, Apricot, Genetic Diversity, RAPD, ISSR, AMOVA     

A comparative analysis of genetic diversity in blackgram genotypes using RAPD and ISSR markers

Random amplified polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) markers were used to study the DNA polymorphism in elite blackgram genotypes. A total of 25 random and 16 ISSR primers were used. Amplification of genomic DNA of the 18 genotypes, using RAPD analysis, yielded 104 fragments that could be scored, of which 44 were polymorphic, with an average of 1.8 polymorphic fragments per primer. Number of amplified fragments with random primers ranged from two (OPA-13) to nine (OPK-4) and varied in size from 200 bp to 2,500 bp. Percentage polymorphism ranged from 16.6% (OPK-7) to a maximum of 66.6% (OPE-5, OPH-2, and OPK-8), with an average of 42.7%. The 16 ISSR primers used in the study produced 101 bands across 18 genotypes, of which 55 were polymorphic. The number of amplified bands varied from two (ISSR 858) to ten (ISSR 810), with a size range of 200–2,200 bp. The average numbers of bands per primer and polymorphic bands per primer were 6.3 and 3.4, respectively. Percentage polymorphism ranged from 25% (ISSR 885) to 100% (ISSR 858), with an average percentage polymorphism of 57.5% across all the genotypes. The 3-anchored primers based on poly(GA) and poly(AG) motifs produced high average polymorphisms of 54.98% and 58.32%, respectively. ISSR markers were more efficient than the RAPD assay, as they detected 57.4% polymorphic DNA markers in Vigna mungo as compared to 42.7% for RAPD markers. The Mantel test between the two Jaccards similarity matrices gave r =0.32, showing low correlation between RAPD- and ISSR-based similarities. Clustering of genotypes within groups was not similar when RAPD and ISSR derived dendrogram were compared, whereas the pattern of clustering of the genotypes remained more or less the same in ISSR and combined data of RAPD and ISSR.     

Efficiency of ISSR and RAPD markers in genetic divergence analysis and conservation management of Justicia adhatoda L., a medicinal plant

Genetic variation within and among population is the basis for survival of the population both in short and long term. Thus, studying the plant genetic diversity is essential for any conservation program. Indigenous medicinal plants like Justicia adhatoda L. which are facing high rate of depletion from the wild population need immediate attention. DNA-based dominant molecular marker techniques, random amplification of polymorphic DNA (RAPD) and inter-simple sequence repeat (ISSR) were used to unravel the genetic variability and relationships across thirty-two wild accessions of J. adhatoda L., a valuable medicinal shrub widespread throughout the tropical regions of Southeast Asia. Amplification of genomic DNA using 38 primers (18 RAPD and 20 ISSR) yielded 434 products, of which 404 products were polymorphic revealing 93.11 % polymorphism. The average polymorphic information content value obtained with RAPD and ISSR markers was 0.25 and 0.24, respectively. Marker index (RAPD = 3.94; ISSR = 3.53) and resolving power (RAPD = 4.24; ISSR = 3.94) indicate that the RAPD markers were relatively more efficient than the ISSR assay revealing the genetic diversity of J. adhatoda. The Shannon diversity index obtained with RAPD and ISSR markers was 0.40 and 0.38, respectively. The similarity coefficient ranged from 0.26 to 0.89, 0.33 to 0.93 and 0.31 to 0.90 with RAPD, ISSR and combined UPGMA dendrogram, respectively. PCA derived on the basis of pooled data of both the markers illustrated that the first three principal coordinate components accounted 79.27 % of the genetic similarity variance. The mantel test between two Jaccard’s similarity matrices gave r = 0.901, showing the fit correlation between ISSR- and RAPD-based similarities. Based on the results, ex-situ methods may be the most suitable and efficient measure for long-term conservation.     

Genetic characterization of antibiotic-resistant Staphylococcus aureus from milk in the North-West Province,South Africa

Food borne diseases are a major public health concern worldwide. Staphylococcus aureus is one of the potential food borne pathogens which causes nosocomial and community acquired infections. In the present study, 74 representative strains of S. aureus isolated and characterized in previous study from different milk samples were subjected to random amplified polymorphic DNA (RAPD) polymerase chain reaction (PCR) and enterobacterial repetitive intergenic consensus (ERIC)-PCR to generate fingerprints to determine the genetic relationships of the isolated strains. A total of 20 RAPD patterns were generated and the number of amplified fragments obtained ranged from 0 to 8 with molecular weight ranging from 250 to 2000 bp. A dendrogram based on fingerprinting pattern grouped isolates into twelve major clusters (I–XII). In the case of ERIC-PCR 9 banding patterns were obtained with amplicons ranging from 1 to 8 and band sizes ranging from 250 to 2000 bp. A total of four major clusters (I–IV) were observed in the dendrogram based on ERIC fingerprints. The discrete banding patterns obtained both from ERIC-PCR and RAPD-PCR showed remarkably the genetic diversity of S. aureus. The findings of this study indicate that raw, bulk and pasteurized milk in the North-West Province was contaminated with toxigenic and multi-drug resistant S. aureus strains. This emphasizes the need to implement appropriate control measures to reduce contamination as well as the spread of virulent S. aureus strains to reduce the burden of disease in humans.     

Genetic diversity and population structure of a protected species: Polygala tenuifolia Willd

Polygala tenuifolia Willd. is an important protected species used in traditional Chinese medicine. In the present study, amplified fragment length polymorphism (AFLP) markers were employed to characterize the genetic diversity in wild and cultivated P. tenuifolia populations. Twelve primer combinations of AFLP produced 310 unambiguous and repetitious bands. Among these bands, 261 (84.2%) were polymorphic. The genetic diversity was high at the species level: percentage of polymorphic loci (PPL) = 84.2%, Nei's gene diversity (h) = 0.3296 and Shannon's information index (I) = 0.4822. Between the two populations, the genetic differentiation of 0.1250 was low and the gene flow was relatively high, at 3.4989. The wild population (PPL = 81.9%, h = 0.3154, I = 0.4635) showed a higher genetic diversity level than the cultivated population (PPL = 63.9%, h = 0.2507, I = 0.3688). The results suggest that the major factors threatening the persistence of P. tenuifolia resources are ecological and human factors rather than genetic. These results will assist with the design of conservation and management programs, such as in natural habitat conservation, setting the excavation time interval for resource regeneration and the substitution of cultivated for wild plants.     

Barcoding old Korean lepidopteran specimens using newly designed specific primer pairs

Currently, DNA barcodes are often required to be analyzed using old museum specimens when they are the only available specimens for rare or endangered species, or even type series. In this study, using eight universal primers and newly designed 315 species-specific primers, we tried to recover full-length barcode sequences from 45 dried specimens of 36 butterfly species collected between 1959 and 1980 in Korea. The eight universal primers failed entirely in the PCR amplification and sequencing of all the specimens. On the other hand, 284 primer pairs consisting of the 315 primers, targeting fragments of 71–417 bp, amplified various lengths of barcode sequences from all specimens. The fragments were successfully combined to generate the barcode sequences ranging from 444 bp to 658 bp. Notably, of the 284 primer pairs, 26 primer pairs designed for Limenitis camilla, Argynnis niobe, and Brenthis daphne successfully amplified the barcode sequences of congeneric species, Limenitis doerriesi, Argynnis nerippe, and Brenthis ino, suggesting that the species-specific primers can be available for analyzing barcode sequences of closely related species. Our study reveals that the newly designed species-specific primers will be effective in acquiring COI sequences from old butterfly specimens.     

Molecular Characterization of Brinjal (Solanum melongena L) Cultivars using RAPD and ISSR Markers

Molecular characterization of 19 advanced cultivars and landraces of brinjal was carried out using RAPD and ISSR markers. Twenty-nine RAPD primers generated a total of 240 amplified fragments, while 23 anchored and non-anchored ISSR primers produced 299 fragments. Of these, 66 (27.5%) RAPD and 56 (18.73%) ISSR fragments were polymorphic. All the cultivars could be distinguished based on RAPD and/or ISSR profiles. A set of two RAPD primers, OPW 11 and OPX 07, was adequate to distinguish all the 19 cultivars. On the other hand, a minimum of ten ISSR primers were required to achieve the same result. Eleven cultivars could be identified by the unique presence or absence of one to four markers. The correlation between primer Rp and the number of cultivars distinguished by RAPD was r = 0.873, while that for ISSR it was r = 0.327. The correlation between PIC of primer and the number of cultivars distinguished was r = 0.324 for RAPD, while for ISSR primers it was r = ? 0.066. The probability of chance identity between two cultivars for RAPD and ISSR markers was calculated as 8.94×10^?4 and 2.25×10^?2, respectively. The average Jaccard’s similarity coefficient between cultivars based on combined RAPD and ISSR data was estimated to be 0.919. The UPGMA analysis grouped the cultivars into three main clusters with significant bootstrap support. While the cultivars bred at Indian Agricultural Research Institute, New Delhi formed one sub-cluster; others did not show a prominent region-based clustering.     

Auxin-cytokinin synergism in vitro for producing genetically stable plants of Ruta graveolens using shoot tip meristems

An efficient micropropagation protocol was developed for Ruta graveolens Linn. using shoot tip meristems derived from a 4-month-old field grown plant. In vitro shoot regeneration and proliferation was accomplished on Murashige and Skoogs (MS) semi-solid medium in addition to different doses of cytokinins viz.6- benzyl adenine (BA), Kinetin (Kn) or 2-isopetynyl adenine (2iP), singly or in combination with auxins viz. indole-3-acetic acid (IAA), indole-3-butyric acid (IBA) or α-naphthalene acetic acid (NAA). Highest regeneration frequency (27.6%) was obtained on (MS) medium composed of BA (10 µM) with maximum number (9.4) of shoots and 4.3 cm shoot length after 4 weeks of incubation. Among various combinations tried best regeneration frequency (71%) of multiple shoot formation with highest number (12.6) of shoots per shoot tip explants were achieved in MS medium augmented with a combination BA (10.0 µM) and NAA (2.5 µM) after 4 weeks of incubation. The optimum frequency (97%) of rhizogenesis was achieved on half-strength MS medium having 0.5 µM IBA after 4 weeks of incubation. Tissue culture raised plantlets with 5–7 fully opened leaves with healthy root system were successfully acclimatized off in Soilrite? with 80% survival rate followed by transportation to normal soil under natural light. Genetic stability among in vitro raised progeny was evaluated by ISSR and RAPD markers. The entire banding pattern revealed from in vitro regenerated plants was monomorphic to the donor. The present protocol provides an alternative option for commercial propagation and fruitful setting up of genetically uniform progeny for sustainable utilization and germplasm preservation.     

Ascertaining clonal fidelity of micropropagated plants of Dendrocalamus hamiltonii Nees et Arn. ex Munro using molecular markers

Dendrocalamus hamiltonii is a giant, evergreen, clumping, multipurpose bamboo with strong culms which are mainly used for construction, handicrafts and fuel. The tender shoots are also used as food. Overexploitation of existing natural stocks coupled with harvesting of culms before seed formation, a long flowering cycle, irregular and poor seed production, short seed viability, seed sterility, limited availability of offsets and rhizomes and seasonal dependence are some of the major bottlenecks in conventional propagation of this species. Therefore, alternative methods like micropropagation can fill the gap in demand and supply of true-to-type planting material. Recently, our micropropagation protocol for rapid multiplication of D. hamiltonii through axillary bud proliferation using nodal explants from mature culms was standardized, and more than 3,000 plants were transferred to the field. However, somaclonal variations are known to appear in the in vitro-derived clones due to culture-induced stresses. Therefore, the present investigation was conducted to ascertain the effect of the length of in vitro culture age on clonal fidelity of regenerated plants using random amplified polymorphic DNA (RAPD), inter-simple sequence repeat (ISSR), amplified fragment length polymorphism (AFLP) and simple sequence repeat (SSR) markers. The genomic DNA samples (i.e. mother plant, in vitro-raised shoots from the 3rd to 30th passage, and in vitro-raised plants transferred to the field) were subjected to PCR amplification using 90 primer combinations (25 each of RAPD, ISSR and SSR, and 15 AFLP primer combinations) of which 76 (23 RAPD, 24 ISSR, 21 SSR and 8 AFLP) markers showed amplified DNA fragments. The 23 RAPD primers produced 162 distinct amplified DNA fragments from 2 (OPE-5) to 16 (OPE-16) fragments per primer, while 24 ISSR primers produced 181 distinct amplified DNA fragments with an average of 7.5 fragments per primer. The number of bands generated by SSR primers varied from 3 (RM-7 and RM-240) to 14 (RM-44), and the eight combinations of AFLP primers produced 369 distinct and scorable amplified DNA fragments with an average of 46.1 fragments per primer. Appearance of monomorphic bands with all the tested primer combinations confirmed the true-to-type nature of the in vitro clones of D. hamiltonii and hence the suitability of the developed micropropagation protocol for commercial-scale plant production.     

Comparison of RAPD and ISSR markers for genetic diversity analysis among different endangered Mangifera indica genotypes of Indian Gir forest region

The genetic variability and relationships among 20 Mangifera indica genotypes representing 15 endangered and 5 cultivars, obtained from Indian Gir forest region, were analyzed using 10 random amplified polymorphic DNA (RAPD) and 21 inter simple sequence repeat (ISSR) markers. RAPD markers were more efficient than the ISSR assay with regards to polymorphism detection. Also, the average numbers of polymorphic loci per primer, average polymorphic information content (PIC) and primer index (PI) values were more for RAPD than for ISSR. But, total number of genotype specific marker loci, Nei’s genetic diversity (h), Shannon’s information index (I), total heterozygosity (Ht), average heterozygosity (Hs) and mean coefficient of gene differentiation (Gst) were more for ISSR as compared to RAPD markers. The regression test between the two Nei’s genetic diversity indexes showed low regression between RAPD and ISSR based similarities but maximum for RAPD and RAPD + ISSR based similarities. The pattern of clustering of genotypes within groups was not similar when RAPD and ISSR derived dendrogram were compared. Thus, both the markers were equally important for genetic diversity analysis in M. indica.     

Evaluation of genetic homogeneity of in vitro-raised plants of <Emphasis Type="Italic">Tecomella undulata</Emphasis> (Sm.) Seem. using molecular markers

Tecomella undulata (Sm.) Seem (family Bignoniaceae) is an economically and pharmaceutically important timber tree of arid regions of India. Overexploitation of natural stands coupled with minimal conservation and reforestation efforts has led to its incorporation in list of endangered species. This monotypic genus can be propagated only through seeds as no methods are available for its vegetative propagation. Therefore, protocol for multiplication of T. undulata via direct regeneration using nodal segments from mature trees has been standardized. Authentication of genetic homogeneity of these in vitro-raised plants is necessary for commercial-scale application of the developed micropropagation protocol. PCR-based molecular markers which have emerged as simple, fast, reliable, and labor-effective tools for testing the genetic homogeneity of in vitro-raised plants were used in the present study. Arbitrary (random amplified polymorphic DNA, RAPD), semi-arbitrary (inter-simple sequence repeat, ISSR; start codon targeted (SCoT) polymorphism), and sequence-based (simple sequence repeat, SSR) markers were used. DNA samples of shoots maintained in vitro for 2 years collected after every 4 subculture cycles (of 3 weeks each) and field-transferred plantlets were compared with the mother tree DNA using 131 primers (25 each of RAPD, ISSR, SCoT and 56 SSR). Scorable unambiguous and reproducible DNA fragments were produced by 77 (21 RAPD, 20 ISSR, 22 SCoT and 14 SSR) primers. A total of 71, 93, 94, and 42 distinct and scorable DNA fragments were produced by RAPD, ISSR, SCoT, and SSR primers respectively with an average of 3.38, 4.65, 4.27, and 3.0 DNA fragments per primer. The true-to-type nature of the in vitro-raised plants of T. undulata undergoing up to 32 subculture passages over a period of approximately 2 years was authenticated by monomorphic DNA fragments amplified with all primer combinations. Therefore, the developed micropropagation protocol can be safely used on a commercial scale for multiplying T. undulata plants.     

Specific PCR-based marker for detection of pathogenic groups of Fusarium oxysporum f. sp. cucumerinum in India

For the detection of Fusarium oxysporum f. sp. cucumerinum pathogenic groups, a specific PCR-based marker was developed. Specific random amplified polymorphic DNA (RAPD) markers which identified in four pathogenic groups I, II, III, and IV were cloned into P^Gem-Teasy vector. Cloned fragments were sequenced, and used for developing sequence characterized amplified regions (SCAR) primers for detection of pathogenic groups. F. oxysporum f. sp. cucumerinum isolates belonging to four pathogenic groups in India, cucumber nonpathogenic F. oxysporum, F. oxysporum f. sp. moniliforme and melonis, Fusarium udum, and isolate of Alternaria sp. were tested using developed specific primers. A single 1.320 kb, 770 bp, 1.119 kb, and 771 bp fragment were amplified from pathogenic group I, II, III, and IV isolates, respectively. Results showed the PCR based marker, which used in this research work, could detect up to 1 ng of fungal genomic DNA. The specific SCAR primers and PCR technique developed in this research easily detect and differentiate isolates of each F. oxysporum f. sp. cucumerinum pathogenic groups.     

Opisthorchis viverrini and Haplorchis taichui: Development of a multiplex PCR assay for their detection and differentiation using specific primers derived from HAT-RAPD

Specific primers for the detection of Opisthorchis viverrini and Haplorchis taichui were investigated by using the HAT-RAPD PCR method. Fourteen arbitrary primers (Operon Technologies) were performed for the generation of polymorphic DNA profiles. The results showed that a 319 bp fragment generated from the OPA-04 primer was expected to be O. viverrini-specific while a 256 bp fragment generated from the OPP-11 primer was considered to be H. taichui-specific. Based on each sequence data, two pairs of specific primers were designed and sequences of each primer were as follows; H. taichui; Hapt_F5′-GGCCAACGCAATCGTCATCC-3′and Hapt_R1 5′-CTCTCGACCTCCTCTAGAAT-3′ which yielded a 170 bp PCR product. For O. viverrini, OpV-1F: 5′-AATCGGGCTGCATATTGACCGAT-3′ and OpV-1R: 5′-CGGTGTTGCTTATTTTGCAGACAA-3′ which generated a 319 bp PCR product. These specific primers were tested for efficacy and specific detection for all parasites DNA samples. The results showed that 170 and 319 bp specific PCR products were generated as equivalent to positive result in H. taichui and O. viverrini, respectively by having no cross-reaction with any parasites tested. PCR conditions are recommended at 68 °C annealing temperature and with 0.5 mM magnesium chloride (Mg Cl₂). Additionally, specific primers developed in this study were effective to determine the presence of both parasites in fish and snail intermediate hosts, which the DNA of O. viverrini was artificially spiked since it is rarely found in northern Thailand.The H. taichui and O. viverrini-specific primers successfully developed in this study can be use for epidemiological monitoring, preventing management and control programs.     

辣椒种质遗传多样性的RAPD和ISSR及其表型数据分析

用RAPDI、SSR分子标记及28个表型性状数据对辣椒属5个栽培种的13份材料进行了分析,结果表明:23条RAPD引物共扩增出209条带,平均每个引物扩增出9.09条,多态性位点比率为83.73%;16条ISSR引物共扩增出94条带,平均每个引物扩增出5.88条,多态性位点比率为79.79%.与RAPD相比,ISSR标记检测到的有效等位基因数(Ne)及Shannon多样性指数(I)、遗传离散度(Ht)和遗传分化系数(Gst)等遗传多样性参数都较大,多态性位点比例在亲缘关系较近的一年生辣椒(Capsicum annuum)种内较高,说明ISSR有更高的多态性检测效率,并且适合亲缘关系较近的种群间遗传多样性分析.基于RAPDI、SSR的聚类与基于表型数据的聚类之间存在极显著正相关,且都能将C.annuum与其它栽培种区分开来.     

High genetic differentiation revealed by RAPD analysis of narrowly endemic Sinocalycanthus chinensis Cheng et S.Y. Chang,an endangered species of China

Genetic diversity and genetic differentiation of narrowly endemic Sinocalycanthus chinensis Cheng et S.Y. Chang, an endangered species of China, were analyzed using random amplified polymorphic DNA (RAPD) markers. Totally, 165 stable and clearly scored RAPD bands were achieved from 12 primers. The genetic diversity of S. chinensis was high (P% = 68.84; h = 0.2421 ± 0.1978; I = 0.3615 ± 0.2789), whereas that at the population level was relatively low (P% = 14.49; h = 0.0578 ± 0.0167; I = 0.0843 ± 0.0236). High genetic differentiation among populations was detected based on Shannon's information index (0.7668), Nei's gene diversity (0.7613) and AMOVA (0.8183). This might be explained by its survival in refugia during the last glaciation in southeastern China with origin from a widespread continental progenitor. The 10 populations from different geographical sites could be clustered into two groups. Low gene flow due to mixed mating system and anthropogenic activities likely played important roles in shaping the population genetic structure of the species.     

Genetic Relationships Among Wild and Cultivated Accessions of Curry Leaf Plant (Murraya koenigii (L.) Spreng.), as Revealed by DNA Fingerprinting Methods

Murraya koenigii (L.) Spreng. (Rutaceae), is an aromatic plant and much valued for its flavor, nutritive and medicinal properties. In this study, three DNA fingerprinting methods viz., random amplification of polymorphic DNA (RAPD), directed amplification of minisatellite DNA (DAMD), and inter-simple sequence repeat (ISSR), were used to unravel the genetic variability and relationships across 92 wild and cultivated M. koenigii accessions. A total of 310, 102, and 184, DNA fragments were amplified using 20 RAPD, 5 DAMD, and 13 ISSR primers, revealing 95.80, 96.07, and 96.73% polymorphism, respectively, across all accessions. The average polymorphic information content value obtained with RAPD, DAMD, and ISSR markers was 0.244, 0.250, and 0.281, respectively. The UPGMA tree, based on Jaccard’s similarity coefficient generated from the cumulative (RAPD, DAMD, and ISSR) band data showed two distinct clusters, clearly separating wild and cultivated accessions in the dendrogram. Percentage polymorphism, gene diversity (H), and Shannon information index (I) estimates were higher in cultivated accessions compared to wild accessions. The overall high level of polymorphism and varied range of genetic distances revealed a wide genetic base in M. koenigii accessions. The study suggests that RAPD, DAMD, and ISSR markers are highly useful to unravel the genetic variability in wild and cultivated accessions of M. koenigii.     

Molecular polymorphisms in Palestinian Figs (Ficus carica L.) as revealed by Random Amplified Polymorphic DNA (RAPD)

The genetic diversity of 13 local Palestinian fig genotypes was investigated using RAPD markers. Among the 30 tested primers, 28 revealed various banding patterns and 2 generated no polymorphic bands. In addition, 13 primers (46.4%) produced good amplification products with high intensity and pattern stability. A total of 94 DNA fragments (loci), separated by electrophoresis on agarose gel were detected, ranging in size from 190 to 1300 bp. Of these fragments, 72 (76.6%) were polymorphic and 22 (23.4%) were monomorphic. A minimum of three and a maximum of eight DNA fragments were obtained using (OPH-02 and OPT-10) as well as (OPA-13, OPA-18 and OPY-07) primers respectively. The maximum percentage of polymorphic markers was 100.0 (Z-5, Z-12, and OPT-10) and the minimum was 60.0 (OPH-02). Primers OPY-07 and OPA-13 revealed high collective resolving power (Rp) values with 4.640 and 4.760 respectively and therefore, they were the most useful RAPD primers to assess the genetic diversity in the Palestinian figs. Genetic distance matrix showed an average distance range from 0.186 to 0.559 with a mean of 0.373. Thus, the cultivars tested in this study were characterized by large divergence at the DNA level. To our knowledge, this is the first report using RAPD marker to assess genetic diversity of Palestinian figs.