Synteny and comparative analysis of miRNA retention, conservation, and structure across Brassicaceae reveals lineage- and sub-genome-specific changes.

The recent availability of genome sequences together with syntenic block information for Brassicaceae offers an opportunity to study microRNA (miRNA) evolution across this family. We employed a synteny-based comparative genomics strategy to unambiguously identify miRNA homologs from the genome sequence of members of Brassicaceae. Such an analysis of miRNA across Brassicaceae allowed us to classify miRNAs as conserved, lineage-, karyotype- and sub-genome-specific. The differential loss of miRNA from sub-genomes in polyploid genomes of Brassica rapa and Brassica oleracea shows that miRNA also follows the rules of gene fractionation as observed in the case of protein-coding genes. The study of mature and miR* region of precursors revealed instances of in-dels and SNPs which reflect the evolutionary history of the genomes. High level of conservation in miR* regions in some cases points to their functional relevance which needs to be further investigated. We further show that sequence and length variability in precursor sequences can affect the free energy and foldback structure of miRNA which may ultimately affect their biogenesis and expression in the biological system.