Deconstructing Molecular Phylogenetic Relationship Among Cultivated and Wild Brassica Species
Abstract Brassica represents an agriculturally important and diverse group of oilseed crops with a long evolutionary history. Various molecular markers played an important role in understanding origin and evolution of Brassica species. In present research both Single Nucleotide Polymorphisms (SNPs) and Simple Sequence Repeats (SSRs) developed form Brassica juncea were used to find out the phylogenetic relationship between various cultivated and wild Brassica species. A total of 88 SSR and 58 SNP markers were found to be functional across 38 genotypes belonging to ten different taxon groups. The polymorphic markers were able to group the genotypes into three different clusters and showed relatedness among different genomes based on genetic distance. The transferability of these markers serves the purpose of their quick use in cultivar identification, diversity and phylogenetic analysis in those orphan crops species where no or less genomic information is available.