Assessment of genetic variability through ISSR and RAPD markers in <Emphasis Type="Italic">Commiphora wightii</Emphasis> (Arn.) Bhandari

Commiphora wightii (Arn.) Bhandari is a commercially, medicinally and traditionally important tropical shrub widely used to treat various ailments and disorders. Demand of this plant is increasing in the pharmaceutical and perfumery industries due to the presence of guggulsterone E and Z, two important isomers conferring lipid- and cholesterol-lowering, and anti-cancerous properties. Ruthless and unscientific harvesting of oleo-gum resin by local populations from the wild, with negligible conservation efforts has made this species endangered and led to its inclusion in the Red Data Book of IUCN. It is imperative to have broad information regarding the extent of genetic variability available in the species to accelerate the breeding and conservation programs. Therefore, the present study was undertaken to analyze the extent of genetic variability existing among the C. wightii germplasm collected from Rajasthan and Haryana, the diversity rich Indian states, using ISSR and RAPD markers. A total of 100 (50 each) RAPD and ISSR markers were screened of which 37 RAPD and 43 ISSR primers were able to amplify DNA fragments. RAPD markers were more efficient, detecting 74.16 % polymorphism, compared to ISSR which detected 62.52 % polymorphism. Also, the values of average number of polymorphic bands per assay, polymorphism information content (PIC), diversity index (DI) and marker index (MI) were more for RAPD (7.76, 0.19, 0.38 and 2.53, respectively) than for ISSR (7.02, 0.13, 0.32 and 1.88) markers. The UPGMA dendrogram constructed using individual as well as combined data of the two marker systems separated the collected accessions into two major clusters containing 47 and 4 accessions, respectively, while one accession from Bikaner was not included in any cluster. Genetic similarity values obtained from Jaccard’s coefficient using combined data of both the marker systems were between 0.50 and 0.97. These results indicated the existence of wide genetic variability within this species and can be used for further research in the area of germplasm conservation, population genetics and plant breeding.     

Genetic diversity of <Emphasis Type="Italic">Opuntia</Emphasis> spp. varieties assessed by classical marker tools (RAPD and ISSR)

Opuntia, commonly named “nopal” in Mexico, is an important crop for its agronomical, economical, ecological and cultural value. Furthermore, it is known for its taxonomic complexity. In this paper, we report the genetic variability of 52 Opuntia cultivars with agronomic and economic importance, classified into 12 different species using random amplified polymorphic DNA (RAPD) and inter-simple sequence repeats (ISSR) markers. Ten primers, five for each marker type, were selected to assess their ability to detect polymorphisms in this plant accesions/varieties. Both marker systems generated a total of 307 bands, of which 50.8 % were polymorphic with an average of 15.6 polymorphic bands per primer. Thus, we assume that Mexican Opuntia varieties present broad genetic variation. Based on percentage of polymorphic bands; resolving power; polymorphic information content; and Marker Index, the K-12 (RAPD) and IS-06 (ISSR) primers were the most informative ones. Clusters obtained from RAPD, ISSR and a combination of both data sets did not match the actual taxonomic classification. On the other hand, the putative varieties currently classified in the same species were not located in the same cluster. Besides, the varieties included in O. ficus-indica, O. albicarpa and O. megacantha showed broad variation but were not well defined into separate clades; these cultivars possibly have common ancestry. The results presented here support our hypothesis about the existence of a smaller number of Opuntia species in accordance with those currently described, but with high intraspecific genetic variation.     

Evaluation of genetic diversity amongst <Emphasis Type="Italic">Descurainia sophia</Emphasis> L. genotypes by inter-simple sequence repeat (ISSR) marker

Descurainia sophia is a valuable medicinal plant in family of Brassicaceae. To determine the range of diversity amongst D. sophia in Iran, 32 naturally distributed plants belonging to six natural populations of the Iranian plateau were investigated by inter-simple sequence repeat (ISSR) markers. The average percentage of polymorphism produced by 12 ISSR primers was 86 %. The PIC values for primers ranged from 0.22 to 0.40 and Rp values ranged between 6.5 and 19.9. The relative genetic diversity of the populations was not high (Gst =0.32). However, the value of gene flow revealed by the ISSR marker was high (Nm = 1.03). UPGMA clustering method based on Jaccard similarity coefficient grouped the genotypes into two major clusters. Graph results from Neighbor-Net Network generated after a 1000 bootstrap test using Jaccard coefficient, and STRUCTURE analysis confirmed the UPGMA clustering. The first three PCAs represented 57.31 % of the total variation. The high levels of genetic diversity were observed within populations, which is useful in breeding and conservation programs. ISSR is found to be an eligible marker to study genetic diversity of D. sophia.     

Genetic Diversity and Phylogenetic Relationships of Two Closely Related Northeast China <Emphasis Type="Italic">Vicia</Emphasis> Species Revealed with RAPD and ISSR Markers

RAPD and ISSR analyses revealed genetic diversity and relationships among 11 populations of two closely related northeast China Vicia species, Vicia ramuliflora and V. unijuga. Both methods yielded similar and complementary results, showing high genetic diversity. Vicia ramuliflora had 100% polymorphic loci in both RAPD and ISSR, and V. unijuga had 100% polymorphic loci for RAPD and 98.96% for ISSR. Genetic differentiation was moderate among populations of each species. Genetic variation was distributed mainly within populations for the two species. The high level of gene flow was important for the allocation of genetic variation. The UPGMA dendrogram and principal coordinates analysis at the level of individuals and populations showed that V. ramuliflora and V. unijuga were more closely related than either of them was to the outgroup species, V. cracca. The small molecular variance of V. ramuliflora and V. unijuga supports the conclusion that these two species had a common ancestor.     

Genetic diversity of Indian jujube cultivars using SCoT,ISSR, and rDNA markers

Genetic variation and relationships among 37 cultivars of Ziziphus mauritiana (Lamk.) native of India were analyzed using start codon targeted (SCoT), inter-simple sequence repeats (ISSR), and ribosomal DNA (rDNA) markers. High level of polymorphism among SCoT (61.6%) and ISSR (61%) primers with higher PIC values ranging from 63.1 to 90.4% of SCoT and 47.3 to 88.8% of ISSR primers was recorded. SCoT and ISSR dendrograms revealed similarity coefficients ranging from 0.80 to 0.92 and 0.79 to 0.96, respectively, and clearly delineated all the cultivars of Z. mauritiana into well-supported distinct clusters. Greater Gst signifies higher amount of differentiation observed over multiple loci among seven Z. mauritiana populations. On the other hand, higher gene flow demonstrating a very high migration rate between Z. mauritiana populations indicated higher rates of transfer of alleles or genes from one population to another. The genetic diversity of population 1 (Rajasthan) was the richest among all the seven populations. The largest genetic distance was measured between Maharashtra and West Bengal and the least between Rajasthan and Punjab cultivars. Most of the genetic diversity exists within population rather than among populations. Substantial variation in the ITS-1 region signifies its phylogenetic utility specifically in assessing genetic diversity in Z. mauritiana. The clustering patterns using three molecular marker systems vis-à-vis place of origin exhibited no consistency in grouping of Z. mauritiana cultivars as cultivars from the same place of origin were genetically cataloged into different SCoT, ISSR, and ITS phylogram clusters indicating wide genetic diversity and distribution across agro-climatic zones validating the robustness of marker systems tested.     

Molecular diversity and genetic relationships in <Emphasis Type="Italic">Secale</Emphasis>

The objective of this study was to quantify the molecular diversity and to determine the genetic relationships among Secale spp. and among cultivars of Secale cereale using RAPDs, ISSRs and sequence analysis of six exons of ScMATE1 gene. Thirteen ryes (cultivated and wild) were genotyped using 21 RAPD and 16 ISSR primers. A total of 435 markers (242 RAPDs and 193 ISSRs) were obtained, with 293 being polymorphic (146 RAPDs and 147 ISSRs). Two RAPD and nine ISSR primers generated more than 80% of polymorphism. The ISSR markers were more polymorphic and informative than RAPDs. Further, 69% of the ISSR primers selected achieved at least 70% of DNA polymorphism. The study of six exons of the ScMATE1 gene also demonstrated a high genetic variability that subsists in Secale genus. One difference observed in exon 1 sequences from S. vavilovii seems to be correlated with Al sensitivity in this species. The genetic relationships obtained using RAPDs, ISSRs and exons of ScMATE1 gene were similar. S. ancestrale, S. kuprijanovii and S. cereale were grouped in the same cluster and S. segetale was in another cluster. S. vavilovii showed evidences of not being clearly an isolate species and having great intraspecific differences.     

Assessment of genetic diversity in <Emphasis Type="Italic">Mucuna</Emphasis> species of India using randomly amplified polymorphic DNA and inter simple sequence repeat markers

Genus Mucuna which is native to China and Eastern India comprises of perennial climbing legume with long slender branches, trifoliate leaves and bear green or brown pod covered with soft or rigid hairs that cause intense irritation. The plants of this genus are agronomically and economically important and commercially cultivated in India, China and other regions of the world. The high degrees of taxonomical confusions exist in Mucuna species that make authentic identification and classification difficult. In the present study, the genetic diversity among the 59 accessions of six species and three varieties of M. pruriens has been assessed using DNA fingerprinting based molecular markers techniques namely randomly amplified polymorphic DNA (RAPD), inter simple sequence repeats (ISSR) and combined dataset of RAPD and ISSR. Also, genetic relationship among two endemic species of Mucuna namely M. imbricata and M. macrocarpa and two varieties namely IIHR hybrid (MHR) and Dhanwantari (MD) with other species under study was investigated by using cluster analysis and principal coordinate analysis. The cluster analysis of RAPD, ISSR and combined dataset of RAPD and ISSR clearly demonstrated the existence of high interspecific variation than intra-specific variation in genus Mucuna. The utility and efficacy of RAPD and ISSR for the study of intra species and interspecies genetic diversity was evident from AMOVA and PCoA analysis. This study demonstrates the genetic diversity in Mucuna species and indicates that these markers could be successfully used to assess genetic variation among the accessions of Mucuna species.     

Genetic Diversity in Various Accessions of Pineapple [<Emphasis Type="Italic">Ananas comosus</Emphasis> (L.) Merr.] Using ISSR and SSR Markers

Inter simple sequence repeat (ISSR) and simple sequence repeat (SSR) markers were used to assess the genetic diversity of 36 pineapple accessions that were introduced from 10 countries/regions. Thirteen ISSR primers amplified 96 bands, of which 91 (93.65%) were polymorphic, whereas 20 SSR primers amplified 73 bands, of which 70 (96.50%) were polymorphic. Nei’s gene diversity (h = 0.28), Shannon’s information index (I = 0.43), and polymorphism information content (PIC = 0.29) generated using the SSR primers were higher than that with ISSR primers (h =  0.23, I = 0.37, PIC = 0.24), thereby suggesting that the SSR system is more efficient than the ISSR system in assessing genetic diversity in various pineapple accessions. Mean genetic similarities were 0.74, 0.61, and 0.69, as determined using ISSR, SSR, and combined ISSR/SSR, respectively. These results suggest that the genetic diversity among pineapple accessions is very high. We clustered the 36 pineapple accessions into three or five groups on the basis of the phylogenetic trees constructed based on the results of ISSR, SSR, and combined ISSR/SSR analyses using the unweighted pair-group with arithmetic averaging (UPGMA) method. The results of principal components analysis (PCA) also supported the UPGMA clustering. These results will be useful not only for the scientific conservation and management of pineapple germplasm but also for the improvement of the current pineapple breeding strategies.     

Genetic diversity and structure of <Emphasis Type="Italic">Capparis spinosa</Emphasis> L. in Iran as revealed by ISSR markers

Capparis spinosa L. (caper bush) is an economically and ecologically important perennial shrub that grows across different regions of Iran. In this study, the genetic diversity and population structure of Iranian genepool of C. spinosa is evaluated using Inter Simple Sequence Repeat (ISSR) markers. Using 10 ISSR primers, 387 DNA fragments (bands) were amplified from the genomic DNA of 92 individuals belonging to twenty-one populations of C. spinosa, of which 378 (97.7%) were polymorphic. High level of genetic diversity (percentage of polymorphic loci = 98.2%, h = 0.1382, I = 0.243), high genetic differentiation (G_st = 0.5234) and low gene flow (Nm = 0.4553) among populations were observed. Caper bush populations were divided into 4 groups in the dendrogram, PCoA plot and Bayesian clustering results, mostly corresponded to their geographic regions. The results showed that there are value in sampling Iranian caper bush populations to look for valuable alleles for use in plant breeding programs.     

Assessment of genetic diversity and differentiation of <Emphasis Type="Italic">Liposcelis bostrychophila</Emphasis> (Psocoptera: Liposcelidae) in China using inter-simple sequence repeat (ISSR) fingerprinting

Liposcelis bostrychophila (Psocoptera: Liposcelidae) is a widely distributed pest that can cause considerable economic losses and pose human health risks. Rapid development of insecticide resistance has made L. bostrychophila increasingly difficult to control. To obtain information potentially useful for pest management, genetic diversity and differentiation of L. bostrychophila from five geographic locations in China was studied using inter-simple sequence repeat (ISSR). A total of 104 loci were found by ISSR markers and amplified using 9 selected primers. The percentage of polymorphic bands (PPB) was 91.4%. Shannon’s information index (I) and Nei’s gene diversity (He) indicated high genetic diversity at the species level. Population differentiation (Gst = 0.484) was average in these populations. Analysis of molecular variation (AMOVA) indicated that genetic variation was mainly distributed within populations. Gene flow (Nm = 0.534) was moderate. Cluster analysis showed that genotypes isolated from the same locations displayed higher genetic similarity and permitted the grouping of isolates of L. bostrychophila into three distinct clusters. The correlation between genetic distance and geographic distance was not significant.     

Genetic polymorphism of <Emphasis Type="Italic">Tulipa gesneriana</Emphasis> L. evaluated on the basis of the ISSR marking data

Using the method of ISSR analysis, the genetic diversity of 18 natural populations of Tulipa gesneriana L. from the north of the Lower Volga region was examined. The ten ISSR primers used in the study provided identification of 102 PCR fragments, of which 50 were polymorphic (49.0%). According to the proportion of polymorphic markers, two population groups were distinguished: (1) the populations in which the proportion of polymorphic markers ranged from 0.35 to 0.41; (2) the populations in which the proportion of polymorphic markers ranged from 0.64 to 0.85. UPGMA clustering analysis provided subdivision of the sample into two large clusters. The unrooted tree constructed using the Neighbor Joining algorithm had similar topology. The first cluster included slightly variable populations and the second cluster included highly variable populations. The AMOVA analysis showed statistically significant differences (F_CT = 0.430; p = 0.000) between the two groups. Local populations are considerably genetically differentiated from each other (F_ST = 0.632) and have almost no links via modern gene flow, as evidenced by the results of the Mantel test (r =–0.118; p = 0.819). It is suggested that the degree of genetic similarities and differences between the populations depends on the time and the species dispersal patterns on these territories.     

Genetic diversity and population structure assessment of Chinese <Emphasis Type="Italic">Senna obtusifolia</Emphasis> L. by molecular markers and morphological traits of seed

Senna obtusifolia L. is an important medicinal plant in Asia. This study was the first report on the genetic diversity and population structure of S. obtusifolia which were collected from 47 geographic populations widespread in China. Inter-Simple Sequence Repeat (ISSR) and Start Codon Target Polymorphism (SCoT) combined with seeds morphological traits were used to investigate the relationship of 47 populations. 11 ISSR primers yielded 98 polymorphic bands with 81.67% polymorphism. 24 SCoT primers yielded 267 polymorphic bands with 89.59% polymorphism. The number of allele (Na), the number of effective allele (Ne), Nei’s diversity index (H), and Shannon’s information index (I) reflected a high level of genetic diversity of S. obtusifolia species. The greatest genetic distance (G _D) existed between Southwest and Northwest (0.4022_ISSR/0.5019_SCoT), while the Eastern and Northern showed the least genetic distance (0.1751_ISSR/0.2186_SCoT). The genetic differentiation (Gst) was 0.4875_ISSR/0.4434_SCoT, and the gene flow (Nm) was 0.5256_ISSR/0.6275_SCoT, which indicated that gene exchange among four regions was limited. 47 samples were divided into four clusters mainly according to their geographic distribution through clustering and structure analysis. The analysis on the combined data of ISSR and SCoT showed more reliable and superior results than single analysis of ISSR and SCoT. This study explored the effectiveness of ISSR and SCoT markers to evaluate the genetic diversity and population structure of S. obtusifolia and provided useful information for S. obtusifolia germplasm research and breeding program.     

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.     

Genetic divergence and allelic-specificity in relation to expression of voltinism in silkworm using ISSR and RAPD fingerprinting

The silkworm B. mori is a multicellular organism revealing genetic resources which makes an ideal model for lepidoptera for the present investigation. With the objective of targeting distinctive markers for utilization in future breeding programmes, Bivoltine and Polyvoltine silkworm strains were used by inter-simple sequence repeats (ISSR) and random amplified polymorphic-DNA (RAPD) fingerprinting to detect their genetic versatility and volatility. Six ISSR primers generated 99 markers, of which 76.76% were found to be polymorphic with an average number of observed alleles (N _a) (1.86 ± 0.40), an effective number of alleles (N _e) (1.43 ± 0.30) as well as six RAPD primers that produced a total of 95 bands, developing 61.05% polymorphism with N _a (1.93 ± 0.51) and N _e (1.18 ± 0.30). The dendrogram produced by UPGMA analysis, based on Dice’s coefficient, clustered four races into two major groups which accurately segregated them according to their inheritance of voltinism. In this research, the ISSR markers were more accurate than the RAPD markers and ISSR also displayed better polymorphism. The outcome showed that the bivoltine strains exhibited higher allelic expressions with ISSR primers when compared to the polyvoltine strains. Despite exhibiting their unique race by certain DNA markers, most of the primers represented voltinism-specificity. Hence molecular marker amplification is a beneficial approach to reveal genetic divergence among closely related strains, and molecular characterization of phylogenetic relationships in addressing evolutionary evidences of individuals.     

AFLP,RAPD, and ISSR analysis of intraspecific polymorphism and interspecific differences of allotetraploid species <Emphasis Type="Italic">Aegilops kotschyi</Emphasis> Boiss. and <Emphasis Type="Italic">Aegilops variabilis</Emphasis> Eig

To evaluate genetic variation, 27 accessions of allotetraploid species Aegilops kotschyi and Ae. variabilis with the US genome were analyzed using the AFLP, RAPD, and ISSR methods. A total of 316 polymorphic RAPD fragments, 750 polymorphic AFLP fragments, and 234 polymorphic ISSR fragments were obtained. It was demonstrated that the analyzed species were characterized by a considerable level of nuclear genome variation. According to the data of ISSR and RAPD analysis, the average value of the Jaccard similarity coefficient for the accessions of Ae. variabilis from different geographical regions was slightly lower than that for the accessions of Ae. kotschyi. At the same time, AFLP analysis showed no considerable differences in the levels of intraspecific variation of the studied species. Analysis of the summarized RAPD, ISSR, and AFLP marking data in the Structure software program showed that most of the analyzed accessions with high degree of probability could be assigned to one of two groups, the first of which corresponded to Ae. kotschyi and the second corresponded to Ae. variabilis, thereby confirming the species independence of Ae. kotschyi and Ae. variabilis. Accessions k900, k907, k908, and v90 could not with a sufficiently high degree of probability be assigned to one of the species, which possibly was the result of interspecific hybridization. Analysis of the species diversity using different molecular markers made it possible to identify the accessions that were notably different from other accessions of its species.     

A Comparative Analysis of ISSR and RAPD Markers for Study of Genetic Diversity in Shisham (<Emphasis Type="Italic">Dalbergia sissoo</Emphasis>)

Shisham (Dalbergia sissoo) is one of the most preferred timber tree species of South Asia. Two DNA-based molecular marker techniques, intersimple sequence repeat (ISSR) and random amplified polymorphism DNA (RAPD), were compared to study the genetic diversity in this species. A total of 30 polymorphic primers (15 ISSR and 15 random) were used. Amplification of genomic DNA of 22 genotypes, using ISSR analysis, yielded 117 fragments, of which 64 were polymorphic. Number of amplified fragments with ISSR primers ranged from five to ten and varied in size from 180 to 1,900 bp. Percentage polymorphism ranged from 0 to 87.5. The 15 RAPD primers produced 144 bands across 22 genotypes, of which 84 were polymorphic. The number of amplified bands varied from five to 13, with size range from 180 to 2,400 bp. Percentage polymorphism ranged from 0 to 100, with an average of 58.3 across. RAPD markers were relatively more efficient than the ISSR assay. The mental test between two Jaccard’s similarity matrices gave r ≥ 0.90, showing very good fit correlation in between ISSR- and RAPD-based similarities. Clustering of isolates remained more or less the same in RAPD and combined data of RAPD and ISSR. The similarity coefficient ranged from 0.734 to 0.939, 0.563 to 0.946, and 0.648 to 0.920 with ISSR, RAPD, and combined dendrogram, respectively.     

Comparison of ISSR,IRAP and REMAP markers for assessing genetic diversity in different species of <Emphasis Type="Italic">Brassica</Emphasis> sp.

Molecular markers provide facilities in order to study genetic diversity and relationship among genotypes. In this study, genetic diversity among 35 genotype of Brassica sp. (belonging B. napus, B. juncea, B. rapa, B. nigra) were determined using 13 ISSR, 3 IRAP markers and 18 REMAP (primer combinations of ISSR and retrotransposon primer). The percentage of polymorphism for ISSR, IRAP and REMAP was 96.38, 94 and 96%, respectively. By comparison between markers, ISSRs indicated the highest expected heterozygosity (He) and Shannon’s information index (I) with value of 0.34 and 0.51, respectively, while REMAP marker had by far the highest number of polymorphic bands (340) and marker index (7.1) among all fragments scored over all markers. In pattern of clustering based on Bayesian methods, K = 8 was resulted for combined data clustering that was more organized clustering for genotypes compared to others. This research suggests the combined data of ISSR, IRAP and REMAP markers are most reliable than each solely marker whilst have been clustered genotypes in their taxonomic classification of Brassica without any mixture. Principle coordinate analysis (PCoA) separated 35 genotypes in four groups which all of genotypes were clustered correctly based on their taxonomic classification. The findings of this study provide the valuable insight into the Brassica species relationships in terms of similarity among genotypes which can be helpful in breeding programs, and also demonstrate that retrotransposon markers are legible for genetic diversity and next genetic analysis in Brassica genus.     

Molecular Characterization of the Indigenous Stingless Bees (<Emphasis Type="Italic">Tetragonula</Emphasis> spp. Complex) Using ISSR Marker from Southern Peninsular India

India is a country bestowed enormously with stingless bees, but genetic information about them is extremely minimal. This study focused to tap the geographic allocation, genetic variability, and differentiation among Tetragonula species complexes from natural and semi-urban habitats. Genetic analyses were assessed among 36 contrasting genotypes utilizing 20 ISSR primers. The dual combination exquisitely and productively amplified 245 DNA fragments at the loci, of which 240 bands were polymorphic (97.95%). Low to moderate level of genetic differentiation was detected from different estimators (Ht 0.29, G’ _STest 0.16, D _est 0.072, F _ST 0.14, and Nm 2.68). Hierarchical clustering analysis aided to partition the individual genotypes into its respective five species group formed, aided by substantial bootstrap support values, but differing under morphological identification. It also provided valuable insight into the moderate eco-genetic diversity (H 0.39) prevailing from geographically scattered inhabitants. Potential exploitation of hyper-variable ISSR marker turned out fairly as a promising technique for finding valid polymorphisms and infers relevant variations. This baseline information enhances our understanding of the genetic status of the indigenous species from the country.     

Population structure and virulence analysis of <Emphasis Type="Italic">Alternaria carthami</Emphasis> isolates of India using ISSR and SSR markers

Alternaria leaf spot caused by Alternaria carthami is one of the most devastating diseases of safflower. Diversity among 95 isolates of A. carthami was determined using virulence assays, enzyme assays, dominant (ISSR) and co-dominant (SSR) markers. Collections and isolations were made from three major safflower producing states of India. The virulence assays categorised the population into four groups based on level of virulence. Estimation of activities of cell wall degrading enzymes (CWDE) yielded concurrent results to virulence assays with maximum CWDE activities in most virulent group. Eighteen ISSR primers were used and 23 polymorphic microsatellite markers were developed to assess the genetic diversity and determine the population structure of A. carthami. Analysis of ISSR profiles revealed high genetic diversity (Nei’s Genetic diversity index; h?=?0.36). Microsatellite markers produced a total of 56 alleles with an average of 2.43 alleles per microsatellite marker and Nei’s genetic diversity index as h?=?0.43. Unweighted Neighbor-joining and population structure analysis using both the marker systems differently arranged the isolates into three clusters. Distance analysis of the marker profiles provided no evidence for geographical clustering of isolates, indicating that isolates are randomly spread across India, signifying high potential of the fungus to adapt to diverse regions. Microsatellite markers clustered the isolates in consonance to the virulence groups in the dendrogram. This implies that the fungus has a high potential to adapt to resistant cultivars or fungicides. The information can aid in the breeding and deployment of A. carthami resistant varieties, and in early blight disease management in all safflower growing regions of the world.     

Genetic diversity of <Emphasis Type="Italic">Vitis vinifera</Emphasis> L. in Azerbaijan

To examine the genetic diversity of Vitis vinifera L., growing in the region near the Caspian Sea of Azerbaijan Republic, nuclear genomes of 31 cultivated and 34 wild grapevine accessions were studied at population and individual levels using five ISSR primers. In total, 51 fragments were amplified, of which 45 were found to be polymorphic. A high level of polymorphism was revealed (the mean PPF and PIC values constituted 87.69% and 0.94, respectively). High values of the EMR, MI, and RP indices showed the effectiveness of the application of ISSR primers and the possibility of their use in further investigations in this direction. Cluster analysis based on Nei’s genetic distance values showed that all genotypes could be grouped into seven main clusters. Furthermore, no differences between the wild and cultivated grape wine accessions were revealed. For instance, there was no distinct distribution of the accessions according to their geographical localization. On the basis of the PIC values, the group of cultivars from Absheron Peninsula was distinguished by the highest polymorphism level (PIC = 0.36). Natural populations from the Guba and Shabran regions were characterized by a relatively low polymorphism level (PIC = 0.31 and PIC = 0.28, respectively), and a wild population from Nabran demonstrated the lowest polymorphism level (PIC = 0.25). The data obtained confirmed paleontological and historical data of different periods and provided the supposition that Azerbaijan was the center of diversity of V. vinifera L. In addition, our data indicate that Azerbaijan grape landraces originated from local wild forms.