Single Primer Amplification Reaction Methods Research Articles

Efficient and reproducible in vitro regeneration of Solanum lycopersicum and assessment genetic uniformity using flow cytometry and SPAR methods.

In the present study, we develop an efficient and reproducible in vitro regeneration system for two cultivars viz., Jamila and Tomaland of Solanum lycopersicum L., an economically important vegetable crop throughout the world. Sterilization of seeds with 2.5% (v/v) NaOCl was found to be most effective, about 97% of seeds germinated on cotton in magenta box moistened with sterile half strength (½)Murashige and Skoog (MS) medium. Regeneration efficiency of cotyledonary leaf (CL) and cotyledonary node (CN) explants derived from 08 days old aseptic seedling were assessed on MS medium supplemented with different concentrations of auxins and cytokinin. CL explants were found more responsive in comparison to CN in both the cultivars. Types of basal media were also assessed and found to have a significant effect on shoot regeneration. Highest regeneration frequency and maximum number of shoots were standardized from CL explants on MS medium supplied with 6-benzyl adenine (BA; 5.0 µM), indole-3-butyric acid (IBA; 2.5 µM) and Kinetin (Kin; 10.0 µM). In vitro regenerated microshoots were rooted on ½MS medium containing 0.5 µM indole-3-butyric acid (IBA). Regenerated plantlets with well-developed roots and shoot system were successfully acclimated to ex vitro condition. Genetic uniformity of tissue culture raised plantlets was first time evaluated using flow cytometry and single primer amplification reaction (SPAR) methods viz., DAMD and ISSR. No significant changes in ploidy level and nuclear DNA content profile were observed between in vitro propagated plants and normal plants of both the cultivars. Similarly, the SPAR analysis also revealed monomorphic banding patterns in regenerated plantlets of S. lycopersicum verifying their genetic uniformity and clonal fidelity. This efficient regeneration system can be used as a fast and reproducible method for genetic transformation of this important vegetable crop.

Assessment of genetic variation and population structure in Indian Gladiolus cultivars inferred from molecular markers

Genetic variability and relationships in 54 genotypes belonging to nine Gladiolus cultivars were determined using single primer amplification reaction methods (Random Amplified Polymorphic DNA—RAPD; Directed Amplification of Minisatellite DNA—DAMD; and Inter Simple Sequence Repeats—ISSR). A total of 30 primers (10-RAPD, 10-DAMD and 10-ISSR) resulted into 230 DNA fragments, of which 177 (75.8 %) were polymorphic in nature. The polymorphic information content (PIC = 0.18), resolving power (RP = 11.2) and marker index (MI = 11.4) was found to be highest in ISSR markers. To understand the extent of genetic variability among the Gladiolus cultivars, the cumulative dataset were used to generate UPGMA dendrogram. All the 54 genotypes clustered together in nine broad clusters, revealing that the clustering pattern of the genotypes were as per their cultivars. PCoA analyses also revealed similar clustering patterns along the axis and therefore corroborating the grouping of genotypes in UPGMA dendrogram. The STRUCTURE analysis showed the admixture of alleles and resulted into eight genetic populations. The present study demonstrates the efficiency and discriminatory potential of an individual as well as cumulative analysis of RAPD, DAMD and ISSR markers to estimate the genetic variability and inter-relationships among indigenously developed Gladiolus cultivars. Furthermore, documentation and preservation of genetically diverse Gladiolus germplasm could be an important source for improvement of this floricultural crop.

Improved in vitro propagation, solasodine accumulation and assessment of clonal fidelity in regenerants of Solanum trilobatum L. by flow cytometry and SPAR methods

An efficient protocol for the development of genetically uniform clones of a valuable medicinal plant Solanum trilobatum L. has been established. An optimal shoot regeneration response was observed in a modified Murashige and Skoog medium (M-MS) containing 25 mM ammonium nitrate, 2 mg l−1 6-benzyl adenine and 0.1 mg l−1 indole-3-acetic acid using in vitro derived node and shoot tip explants. Consequently, the multiple shoot buds were elongated in MS medium supplemented with 0.5 mg l−1 Gibberellic acid. The in vitro regenerated shoots were rooted best in MS medium containing 1.5 mg l−1 indole-3-butyric acid and successfully acclimatized in the field. The single primer amplification reaction (SPAR) approach, including random amplified polymorphic DNA, inter simple sequence repeats and directed amplification of minisatellite DNA regions markers did not identify any genetic polymorphism among in vitro regenerants. Similarly flow cytometry analysis illustrated that the DNA content and genome size of micropropagated plants were equivalent to that of intact plants from field. In addition, the accumulation of solasodine in micropropagated plants was confirmed by thin layer chromatography and further quantified by high performance liquid chromatography analysis as 2.47 mg g−1 DW which is comparable to field grown plants. Thus the protocol can be effectively exploited for commercial propagation of this species to obtain solasodine and also in genetic transformation studies.

SPAR methods coupled with seed-oil content revealed intra-specific natural variation in Jatropha curcas L. from Northeast India

Jatropha curcas, a non-domesticated energy plant, has emerged as a source of biodiesel as it does not compete with the edible oil supplies. The knowledge of its variation in oil content and genetic makeup in wild is crucial for its sustainable utilization. In the present study, 36 genotypes of J. curcas collected from different districts of Assam and Meghalaya provinces of Northeast India showed variation in seed-oil content. Also, single primer amplification reaction (SPAR) methods were used to determine diversity at DNA level. The analyses included the use of 8 minisatellite core sequence primers for directed amplification of minisatellite DNA and 10 arbitrary primed decamer sequences for random amplification reactions. Upon analysis of the data generated, both of the two SPAR methods revealed genetic variation among genotypes. The study suggests that J. curcas collected from Northeast India shows ample genetic variation both at genetic level and oil-content.

Low genetic diversity as revealed by SPAR methods possibly leads to extinction of two critically-endangered and endemic species of Mantisia

Mantisia spathulata Schult. and M. wengeri Fischer, two critically-endangered, endemic and rare species of the genus Mantisia (Zingiberaceae), have been rediscovered from Lunglei province of Mizoram, India, after two decades. For sustainable conservation and utilization of the Mantisia species, in vitro seed and clonal propagation methods have been developed earlier by our research group and plantlets have been reintroduced to their natural habitat for species recovery. To comprehend the plausible reasons for endemism and endangeredness of both the species at DNA level, they were analyzed to assess natural genetic variation using three different polymerase chain reaction (PCR) based DNA markers viz. random amplified polymorphic DNA (RAPD), inter simple sequence repeat (ISSR) and directed amplification of minisatellite DNA regions (DAMD), both individually and cumulatively, which are popularly regarded as single primer amplification reaction (SPAR) methods. A total of 107 primers belonging to three SPARs are used which collectively endow low genetic variation (15 and 20 %, respectively) in both M. spathulata and M. wengeri. The use and efficacy of SPAR methods to reveal the natural genetic variation in Mantisia species at intra-specific level has been recorded for the first time. To impede the extinction risk of these two species of genus Mantisia, large scale conservation strategies including in situ and ex situ conservation are recommended.

Low genetic diversity as revealed by SPAR methods possibly leads to extinction of two critically-endangered and endemic species of Mantisia

Mantisia spathulata Schult. and M. wengeri Fischer, two critically-endangered, endemic and rare species of the genus Mantisia (Zingiberaceae), have been rediscovered from Lunglei province of Mizoram, India, after two decades. For sustainable conservation and utilization of the Mantisia species, in vitro seed and clonal propagation methods have been developed earlier by our research group and plantlets have been reintroduced to their natural habitat for species recovery. To comprehend the plausible reasons for endemism and endangeredness of both the species at DNA level, they were analyzed to assess natural genetic variation using three different polymerase chain reaction (PCR) based DNA markers viz. random amplified polymorphic DNA (RAPD), inter simple sequence repeat (ISSR) and directed amplification of minisatellite DNA regions (DAMD), both individually and cumulatively, which are popularly regarded as single primer amplification reaction (SPAR) methods. A total of 107 primers belonging to three SPARs are used which collectively endow low genetic variation (15 and 20 %, respectively) in both M. spathulata and M. wengeri. The use and efficacy of SPAR methods to reveal the natural genetic variation in Mantisia species at intra-specific level has been recorded for the first time. To impede the extinction risk of these two species of genus Mantisia, large scale conservation strategies including in situ and ex situ conservation are recommended.

Genetic variability and population structure in Sapindus emarginatus Vahl from India

Sapindus emarginatus is an economically important tropical tree species sparsely distributed in different geographical provinces like Gangetic Plains, Western Ghats, and Deccan Plateau in India. In the present paper estimation of genetic variability within and among 41 accessions representing five populations was carried out using 3 single primer amplification reaction (SPAR) methods viz. RAPD, DAMD and ISSR. The cumulative data analysis was carried out for all three SPAR methods, and showed 82.32% polymorphism across all the accessions of S. emarginatus. Jaccard's similarity values among 41 accessions ranged from 0.15 to 0.49 with an average value of 0.37. The intra-population genetic diversity revealed highest values of Nei's genetic diversity (0.19,) Shannon information index (0.29) and polymorphic loci (55.18%), among the accessions of Gujarat (GJ) population, while the corresponding lowest values were (0.10), (0.15) and (26.40%) respectively among the accessions of Rajasthan (RJ) population. The maximum inter-population average genetic distance (0.20) was between Karnataka (KA) and RJ, while the corresponding least genetic distance (0.06) was between Allahabad (AL) and Varanasi (VS) populations. The analysis of molecular variance (AMOVA) revealed maximum percentage of variation among individuals of populations (72%) followed by 16% among regions and 12% among populations. Principal coordinate analysis (PCA) of cumulative data also supported the clustering pattern in the UPGMA dendrogram. These results suggest that genetic diversity is corroborating with the geographical diversity. Mantel's test was performed which revealed a highly significant correlation between cumulative vs RAPD, and showed the maximum (0.93) correlation coefficient, followed by cumulative vs ISSR (0.78) and cumulative vs DAMD (0.91) respectively, and this clearly indicates that the SPAR methods (RAPD, DAMD and ISSR) are sufficiently informative and are suitable to analyze the genetic variability within and among the populations of S. emarginatus.

Molecular analyses of genetic variability in soap nut ( Sapindus mukorossi Gaertn.)

Sapindus mukorossi Gaertn. (Sapindaceae) is commercially an important plant much valued for its fruits commonly known as soap nut as well as for the seed oil used as a feed-stock for biodiesel production. Molecular polymorphism, determined, using three single primer amplification reaction (SPAR) methods (RAPD, DAMD and ISSR) is used to assess the genetic variability in 69 accessions of S. mukorossi Gaertn., encompassing different geographical regions in India. Cumulative band data generated using the three SPAR methods resulted in 82.49% polymorphism across all genotypes of S. mukorossi Gaertn. UPGMA tree showed two major clusters that were in accordance with the geographical diversity. The intra-population genetic diversity (0.16), Shannon information index (0.24) and polymorphic loci (45.62%) were highest in AS population, while the corresponding lowest values were recorded in HP population. The inter-population average distance ranged from 0.05 (GA and HP) to 0.26 (AP and HP). Based on these distances, the UPGMA tree for the populations was computed, which showed the presence of two major clusters. Cluster I contained all the populations from Himachal Pradesh (HP) and Uttarakhand (GA and KU) and cluster II grouped the populations from North Eastern region (AS, AP, MG). The present study showed that SPAR methods are informative and useful to unravel the diversity among different populations of the soap nut plants and is a prelude for further utilization of promising and genetically divergent materials in the breeding programmes.

Single primer amplification reaction (SPAR) reveals intra-specific natural variation in Prosopis cineraria (L.) Druce

Prosopis cineraria, an important multipurpose tree and vital component of the otherwise fragile ecosystem of arid and semiarid regions of India. It is highly drought tolerant and sprouts profusely during the extreme dry summer months when most other trees are leafless. P. cineraria is known to exhibit comparable genetic variations at intra-specific and inter-population levels reflected through morphological and cytogenetical diversity in regions, where this plant grows naturally. In the present study, single primer amplification reaction (SPAR) methods have been used for determination of diversity at DNA level in 30 accessions of P. cineraria collected from different districts of Rajasthan. The analyses include the use of six minisatellite core sequence primers for direct amplification of minisatellite DNA (DAMD), eight inter simple sequence repeats (ISSR) and 20 arbitrary primed decamer sequences for random amplification (RAPD) reactions. Upon analysis of the data generated, all the three SPAR methods, either independently and/or in combination, revealed wide range of genetic variation among accessions. Comparison of matrix of individual SPAR method using MxComp component of NTSYS-pc 2.02 K software proving that analysis of natural genetic variation using combination of SPAR methods particularly ISSR and DAMD, rather than an isolated approach, is very effective. Such an approach also yields better information and reflection of the relatedness and affinities at intra-species and inter-population levels. Therefore, it is opined that in order to reveal the intrinsic intra-specific variation, SPAR approaches involving more than one DNA marker may reveal more authentic genetic variation in tropical tree species like P. cineraria.

SPAR profiles and genetic diversity amongst pomegranate (Punica granatum L.) genotypes

We are interested in studying the distribution and range of diversity amongst the pomegranates in India. Single Primer Amplification Reaction (SPAR) profiling using Random Amplified Polymorphic DNA (RAPD) and Directed Amplification of Minisatellite DNA (DAMD) methods enabled the determination of the genetic diversity amongst a total of 64 Indian pomegranate genotypes including 15 wild, 34 semi-wild and 14 cultivated types. SPAR profile data were scored for the computation of pairwise distances as well as a Neighbour Joining (NJ) tree of all the genotypes. Eight RAPD and four DAMD primers showed discrete polymorphic patterns amongst these genotypes. From the profiles obtained with all the 12 primers considered together, 259 bands were scored. The NJ tree generated after a 1000 bootstrap test using Jaccard coefficient showed separation of Lagerstroemia speciosa used as the out-group taxon, while the pomegranate genotypes were resolved into distinct genetic lineages such that all the cultivated (except CBd70), and wild genotypes (except W101) clearly separated from other genotypes in distinct sub clusters while the semi-wild genotypes were resolved into three sub-clusters. The greatest and least distances detected between genotypes were 0.94 and 0.12, 0.97 and 0.24 and 0.95 and 0.38, amongst the cultivated, semi-wild and the wild genotypes respectively. The results indicate the high levels of genetic diversity present amongst the genotypes. Significantly, the wild genotypes also have a reasonably good range of diversity. A good germplasm collection, especially including the wild genotypes will enable a better pomegranate improvement program. Both SPAR methods, RAPD and DAMD, are found to be useful for studying the genetic diversity of pomegranate.

Easy assessment of diversity in Jatropha curcas L. plants using two single-primer amplification reaction (SPAR) methods

Jatropha curcas L. (physic nut) has drawn attention in recent years as a source of seed oil that can provide an economically viable substitute for diesel. Very little work on provenance trials and genetic resources of J. curcas L. has been reported so far. Though J. curcas grows widely in India and several collections of the plant are also maintained, pedigree and provenance records are not always available. This article reports our studies on the diversity amongst the accessions of J. curcas L., both amongst already held collections as well as from a few locations in the wild. Two single-primer amplification reaction (SPAR) methods were used for this purpose. The accessions from the North East were most distant from all other accessions in UPGMA analysis. The NBRI, Bhubaneshwar and Lalkuan accessions were more related to each other. The UPGMA tree clearly shows well-separated accession groups: NBRI, Bhubaneshwar, North East, Lalkuan and Outgroup. The study suggests that this relatively recently introduced plant species shows adequate genetic diversity in India and that the SPAR methods are useful for a rapid assessment of the same. The methods provide important tools for analyzing the diversity within the available collections to shortlist the parental lines for adaptability trials and further improvement of Jatropha plants.

Single primer amplification reaction methods reveal exotic and indigenous mulberry varieties are similarly diverse

Mulberry is the sole food source for mulberry silkworm and a number of indigenous and exotic varieties are used in sericulture. Studies on assessment of genetic diversity have been done amongst a few mulberry varieties using one or at the most two methods. However, no comprehensive study on a large number of varieties has been carried out. In present study, single primer amplification reaction (SPAR) methods have been used for determination of diversity in 27 mulberry varieties (exotic as well as indigenous), using four minisatellite core sequence primers for directed amplification of minisatellite DNA (DAMD), three simple sequence repeat (SSR) motifs as primers for inter simple sequence repeat (ISSR) and 20 arbitrary sequence decamer primers for ran-dom amplified polymorphic DNA (RAPD) reactions. The Jaccard coefficients were determined for the DAMD, ISSR and RAPD band data (total of 58, 39 and 235 bands respectively). All three methods revealed wide range of distances supporting a wide range of mulberry genetic diversity. A cumulative analysis of the data generated by three methods resulted in a neighbour-joining (NJ) tree that gave a better reflection of the relatedness and affinities of the varieties to each other. Comparison of the three methods by marker indices and the Mantel test of correlation indicated that though all methods were useful for the assessment of diversity in mulberry, the DAMD method was better. When considered as two groups (10 exotic and 17 indigenous varieties), the mulberry varieties in the exotic group were found to have slightly greater diversity than the indigenous ones. These results support the concept of naturalization of mulberry varieties at locales distant from their origins.