Genetic diversity assessment of <Emphasis Type="Italic">Gymnema sylvestre</Emphasis> (Retz.) R. Br. ex Sm. populations from Western Ghats of Maharashtra,India

Gymnema sylvestre (Retz.) R. Br. ex Sm., a rich source with gymnemic acid, has been used to treat diabetes since past 2000 years. In the current investigation, nomenclature, geographical distribution as well as morphological and genetic diversity of 22 G. sylvestre populations spread across of Western Ghats of Maharashtra has been reported. The genetic variability has been assessed using RAPD and ISSR molecular markers. The populations recorded high level of gene differentiation (G_ST = 0.41 based on ISSR) and gene flow (Nm = 0.92 based on RAPD). The high level of gene differentiation among the populations attributed to entomophilous pollination, wind seed dispersal, out crossing and anthropogenic activities.     

Investigation flora and life form of plants in protected region Sarigol (North Khorasan Province, Iran)

Apart Flora, life form and chorotype of plants in protected region Sarigol was investigated in this study. It's located at the 57 degrees 47' to 57 degrees 76' Eastern latitude and 37 degrees 55' to 37 degrees 80' Northern longitude. A part plant of this area was collected in this region by classical method of regional floristic studies. The results of field investigation were identification of 78 plant species belong to 66 genera and 25 families. Lamiaceae, Poaceae, Fabaceae, Brassicaceae and Asteraceae were the most dominant families analysis of life form has shown proportion hemicryptophytes 39.74, followed by therophytes 21.79%, chamaephytes 19.23%, cryptophytes 11.53% and phanerophytes 7.69%. phytogeographical data has indicated that the most plants belong to the Irano-Turanian floral elements 75.64%.     

Flora, life forms and chorotypes of plants of Salok protected area (North Khorassan Province Iran)

Salok protected Area is located in the 37 degrees 15' to 37 degrees 08' of the North latitude and 57 degrees 16' to 57 degrees 06' of East longitude, in West North Esfarayen in North khorassan province. In this research 52 families, 174 genera and 213 species were identified. The largest plant family is Asteraceae (34 species), Poaceae (18 species), Brassicaceae (17 species) and Fabaceae (17 species), respectively. Chief life forms are Hemicryptopytes (49.29%), Therophytes 23.47% and cryptophytes (12.67%). The most of plants chorotype with 62.91% is influenced by Irano-Touranina elements. Among 213 identified species of this region and 15 species endemic of Iran contain 0.87% of total endemic species of Iran's flora.     

Genetic diversity assessment in Pandanus amaryllifolius Roxb. populations of India

Pandanus amaryllifolius is cultivated in home gardens in coastal regions of India. Leaves of P. amaryllifolius are scented and exploited commercially by flavour industry. In the present attempt, 40 clonal populations were used for genetic diversity assessment using ISSR and AFLP molecular marker. In ISSR based diversity analysis, out of 38 scorable primers, only one primer showed polymorphism and most of the polymorphic fragments were found in clonal populations from Thailand locality only. In AFLP based diversity analysis all clonal populations from India showed very low genetic distance except Kolkata and Amtala but these populations showed more similarity with Sri Lanka clones and these two localities showed more similarity with Thailand population. Present study confirms that the species has very low level of genetic variation even though it is exposed to a wide range of environmental conditions across peninsular India. Thus, the genome of P. amaryllifolius is said to be highly conserved and remained unaffected through its spread. As per previous report P. amaryllifolius has been introduced in Kolkata, India in 1798 from Indonesia, the similarity is shown by the populations of West Bengal with Thailand population which is close to Indonesia. The populations from Sri Lanka showed similarity with the populations from east and west coast of India suggests that Sri Lanka may be the another source of introduction of P. amaryllifolius in India.     

Identification of transposable element markers associated with yield and quality traits from an association panel of independent mutants in peanut (<Emphasis Type="Italic">Arachis hypogaea</Emphasis> L.)

To identify marker–trait associations (MTAs) for yield and quality traits in peanut, genic and nongenic Arachis hypogaea transposable element (AhTE) markers were employed in a population consisting of independent mutants from several parents. The population was field-evaluated during the rainy seasons of 2014 and 2015, and genotyped with 110 AhTE markers to check the polymorphisms for AhMITE1 transposition. The gene diversity index ranged from 0.00 to 0.50 with average of 0.35, indicating low to moderate genetic diversity in the population. Diversity analysis indicated the grouping of mutants derived from each parent in respective subgroups. Marker–trait association analysis for 110 markers and 40 traits resulted in 132 highly significant MTAs, represented by 58 AhTE markers for 39 traits. Nutritional traits recorded the highest number of MTAs (38), followed by agronomic traits (35), productivity traits (31), foliar disease resistance (23), and taxonomic traits (5). Seventeen MTAs with phenotypic variance explained (PVE) value above 50 % were observed for resistance to late leaf spot (LLS) and rust, plant height, and pod width. The genic and nongenic AhTE markers associated with the above traits were analyzed for their genomic location and functional annotation so that the significance of these loci can be analyzed in the future.     

Development of NILs from heterogeneous inbred families for validating the rust resistance QTL in peanut (Arachis hypogaea L.)

Heterogeneous inbred families segregating for rust resistance were identified from the two crosses involving susceptible (TAG 24 and TG 26) and resistant (GPBD 4) varieties of peanut. Rust‐resistant (less than score 5) and rust‐susceptible (more than score 5) plants were identified in each HIF and evaluated under rust epiphytotic conditions. The set of plants belonging to the same HIF, but differing significantly in rust resistance, not in other morphological and productivity traits, was regarded as near‐isogenic lines (NILs). Largely, rust‐resistant NILs had GPBD 4‐type allele, and susceptible NILs carried either TAG 24 or TG 26‐type allele at the three SSR loci (IPAHM103, GM1536 and GM2301) linked to a major genomic region governing rust resistance. Comparison of the remaining genomic regions between the NILs originating from each of the HIFs using transposon markers indicated a considerably high similarity of 86.4% and 83.1% in TAG 24 × GPPBD 4 and TG 26 × GPBD 4, respectively. These NILs are useful for fine mapping and expression analysis of rust resistance.     

Phenotypic diversity and identification of wild Arachis accessions with useful agronomic and nutritional traits

Wild relatives harbor novel sources of variation, which can be used to enhance the genetic base of a cultivar gene pool. A total of 269 accessions from 20 wild Arachis species belonging to six sections were evaluated for 41 morpho-agronomic traits and 89 selected accessions for oil, protein and total sugar content. Six plants from each accession were grown in an open Arachis house in large-cylindrical concrete structures during the 2004?C2005 season at Patancheru, India. REML analysis showed significant differences between species and accessions for most of the traits studied. Hierarchical cluster analysis, based on the first five principal component scores accounted for 82.5% variation, resulting in four clusters. Variation in genome relationships and ploidy levels had no bearing on the clustering pattern which was predominated by life forms: clusters 1 and 2, contained mostly annuals and clusters 3 and 4 perennials. A large range of variations were noticed among species for some of the agronomic traits: days to flowering, pod and seed characteristics, specific leaf area (SLA) and for SPAD chlorophyll meter reading (SCMR). Arachis duranensis showed the maximum intraspecific variation as revealed by a high diversity index for 23 of the 41 traits which included: days to flowering, primary branches, plant width, pod length, pod width, SCMR and SLA. The other species with desirable traits were A. pusilla (earliest flowering) and A. villosa (high SCMR at 60 and 80 days after sowing). The latter species is cross compatible with cultivated groundnut, thus, is a good source to enhance the trait value in the cultigen??s gene pool. The best 20 accessions with superior agronomic, nutritional quality and drought related trait combinations have been identified for their use in introgression of diverse and unique alleles from wild Arachis species into A. hypogaea.     

The role of mutations in intraspecific differentiation of groundnut (Arachis hypogaea L.)

Summary Based on morphological diversity, cultivated groundnut (Arachis hypogaea L.) is classified into two subspecies (fastigiata and hypogaea) and further into four botanical types (Spanish bunch, Valencia, Virginia bunch and Virginia runner). In a cross between two Spanish cultivars belonging to ssp. fastigiata, a true breeding variant (Dharwad early runner) sharing some characters of both the subspecies was isolated. The variant, on mutagenesis with ethyl methane sulphonate (EMS) yielded a very high frequency of mutants resembling all four botanical types. Some of the mutants produced germinal reversions to Dharwad early runner in later generations indicating genetic instability. While most of the revertants bred true, some of the mutants continued to segregate, wherein each botanical group of mutants produced all other botanical types. A detailed analysis of the breeding behaviour of mutants revealed several unusual features (such as homozygous mutations, mutation outbursts, segregation distortions, somatic mutations and multiple character mutations) that could not be explained through conventional mutation theory. In the light of these findings, the role of mutations in evolutionary differentiation of the crop and the probable mode of their origin have been discussed.