A comparison of different regression models for downscaling Landsat and MODIS land surface temperature images over heterogeneous landscape
The present study reports a natural variation in microRNA172 (MIR172) family members isolated from six species of genus Brassica. The analysis of nucleotide polymorphism across 44 Brassica MIR172 homologs revealed a higher conservation in the predicted precursors relative to flanking regions. Single nucleotide polymorphisms (SNPs) were detected in miRNA and miRNA*. The 21-nt miRNA sequence was conserved in all MIR172 members except MIR172a. However, the miRNA* sequence was conserved only in MIR172a compared to A. thaliana. Non-canonical Brassica variants of precursor miR172a were detected wherein SNP at 5’ terminal in mature miR172a resulted in a sequence identical to mature miR172e. SNPs and indels in precursors resulted in varied stem-loop structures of differing stabilities (?G) implying a differential efficiency of miRNA biogenesis. A sequence based phylogram revealed ortholog specific groupings of MIR172 irrespective of genetic background. A Northern analysis in Brassica juncea displayed the cumulative expression of miR172 isoforms in all tissues representing different developmental stages with levels gradually increasing from vegetative to reproductive stages. Detection of high content of miR172 in roots indicates the possibility of additional roles of Brassica miR172 in root development.