Development and characterization of genomic SSR markers in Cynodon transvaalensis Burtt-Davy

Genetic diversity assessed by microsatellite markers in the amphicarpic species Trifolium polymorphum Poir

Trifolium polymorphum Poir. is an amphicarpic forage legume from southern Brazil, Uruguay, Argentina, Paraguay and Chile. Information on the genetic diversity of natural populations in natural grasslands in southern Brazil is limited. In order to increase the knowledge about this species, an analysis of the genetic diversity was carried out in 10 natural populations of T. polymorphum with the use of 20 microsatellite markers. The expected heterozygosity in T. polymorphum populations ranged from 0.40 to 0.43, with a mean of 0.42. A total of 193 alleles were detected with a mean of 9.3 alleles per locus and polymorphic information content (PIC) for these markers of 0.62 to 0.89 with a mean of 0.84.The grouping based on the Jaccard's coefficient of similarity classified populations, regardless of their regions of origin, into two groups with a mean similarity coefficient of 0.32, reflecting the high genetic variability of the populations, especially those located in the Campanha phytogeographic region. This information on diversity can be used to plan future germplasm collection strategies for conservation purposes and also for the breeding of the species.

Development and Characterization of Genic SSR Markers from Indian Mulberry Transcriptome and Their Transferability to Related Species of Moraceae

Improving mulberry leaf production with enhanced leaf quality holds the key to sustain the ever increasing demand for silk. Adoption of modern genomic approaches for crop improvement is severely constrained by the lack of sufficient molecular markers in mulberry. Here, we report development and validation of 206 EST derived SSR markers using transcriptome data generated from leaf tissue of a drought tolerant mulberry genotype, Dudia white. Analysis of transcriptome data containing 10169 EST sequences, revealed 1469 sequences with microsatellite repeat motifs. We designed a total of 264 primers to the most appropriate repeat regions, of which 206 were locus specific. These markers were validated with 25 diverse mulberry accessions and their transferability to closely related species belonging to family Moraceae was examined. Of these markers, 189 revealed polymorphism with up to 8 allelic forms across mulberry species, genotypes and varieties with a mean of 3.5 alleles per locus. The markers also revealed higher polymorphic information content of 0.824 among the accessions. These markers effectively segregated the species and genotypes and hence, can be used for both diversity analysis and in breeding applications. Around 40% of these markers were transferable to other closely related species. Along with the other genic and genomic markers, we report a set of over 750 co-dominant markers. Using these markers we constructed the first genetic linkage map of mulberry exclusively with co-dominant markers.

Effect of Heavy Metals Pollution on Soil Microbial Diversity and Bermudagrass Genetic Variation

Heavy metal pollution is a serious global environmental problem as it adversely affects plant growth and genetic variation. It also alters the composition and activity of soil microbial communities. The objectives of this study were to determine the soil microbial diversity, bermudagrass genetic variation in Cd contaminated or uncontaminated soils from Hunan province of China, and to evaluate Cd-tolerance of bermudagrass at different soils. The Biolog method, hydroponic experiments and simple sequence repeat markers were used to assess the functional diversity of microorganisms, Cd-tolerance and the genetic diversity of bermudagrass, respectively. Four of the sampling sites were heavily contaminated with heavy metals. The total bioactivity, richness, and microbial diversity decreased with increasing concentration of heavy metal. The hydroponic experiment revealed that bermudagrass populations collected from polluted sites have evolved, encompassing the feature of a higher resistance to Cd toxicity. Higher genetic diversity was observed to be more in contaminated populations than in uncontaminated populations. Heavy metal pollution can result in adverse effects on plant growth, soil microbial diversity and activity, and apparently has a stronger impact on the genetic structure. The results of this study provide new insights and a background to produce a genetic description of populations in a species that is suitable for use in phytoremediation practices.

Large-scale developing of simple sequence repeat markers and probing its correlation with ramie (Boehmeria nivea L.) fiber quality

Marker-assisted selection is an important component of the discipline of molecular breeding. Using DNA markers to assist in plant breeding, the efficiency and precision could be greatly increased. However, the scarcity number of identified DNA markers has hindered the research and the breeding process of ramie (Boehmeria nivea L.) in many aspects, especially fiber quality, one of the top-priority breeding objectives of ramie. In this study, 4230 SSR loci were identified in 3969 unigenes (6.80 % of 58,369), which were de novo assembled from the transcriptome involving different ramie fiber developmental stages. Among these SSRs, the dinucleotides (1599, 37.80 %) and trinucleotides (772, 18.25 %) were most abundant; the motifs AG/CT (1140, 26.94 %), AT/AT (407, 9.62 %) and AGA/TCT (246, 8.31 %) comprised the three most abundant repeats. A total of 2431 primer pairs were designed flanking the SSRs and 1050 of them were employed in PCR amplification for their usefulness using three ramie cultivars. The results showed that 88.10 % of these primers could generate positive PCR bands in any of the three cultivars. Further phylogenetic analysis that conducted from the PCR amplification of 52 specifically sifted SSR primers within 17 cultivars approved that the possible correlation may exist between the primers and ramie fiber quality. These developed SSR markers could be applied in downstream studies, like genetic and physical maps, quantitative trait loci mapping, genetic diversity studies and cultivar fingerprinting, and breeding processes of ramie with better fiber quality under further confirmation of the correlation with ramie fiber quality.