Development and validation of microsatellite markers from de novo transcriptome assembly of eggplant (Solanum melongena L.) and its putative progenitor S. incanum L. cultivars

An elite cultivar of eggplant, Ramnagar Giant (Solanum melongena L.) and W-4 (S. incanum L.) with contrasting horticultural traits were used as parental lines to develop a mapping population of RILs. To accelerate breeding programs and to develop large scale SSR markers to be used in QTL mapping, RNASeq libraries from different tissues of both the parental plants were deep sequenced and assembled into representation of a high quality de novo transcriptome using Illumina-based Next Generation Sequencing technology. 99.99% of high quality bases were obtained from all the tissues and deposited in TSA database at the NCBI link. Total 3, 156 and 3, 196 SNVs were detected in S. melongena and S. incanum, respectively. In S. melongena, 11, 262 SSR while in S. incanum 11, 829 SSR containing regions were identified. Based on functional annotation, 21, 914 unique genes could be identified for S. melongena, 21,706 unique genes for S. incanum and overall, 60 different transcription factors were identified in both the lines. Further, a total of 536 SSR markers were designed and screened for polymorphism of which, 157 markers produced polymorphism between the parental lines. The polymorphic SSRs shall be used for genotyping of RILs to map QTLs for various horticultural traits in eggplant and identification of candidate genes in response to biotic and abiotic stress.