Molecular evolution of translin superfamily proteins within the genomes of eubacteria, archaea and eukaryotes

Translin and its interacting partner protein, TRAX, are members of the translin superfamily. These proteins are involved in mRNA regulation and in promoting RISC activity by removing siRNA passenger strand cleavage products, and have been proposed to play roles in DNA repair and recombination. Both homomeric translin and heteromeric translin-TRAX complex bind to ssDNA and RNA; however, the heteromeric complex is a key activator in siRNA-mediated silencing in human and drosophila. The residues critical for RNase activity of the complex reside in TRAX sequence. Both translin and TRAX are well conserved in eukaryotes. In present work, a single translin superfamily protein is detected in Chloroflexi eubacteria, in the known phyla of archaea and in some unicellular eukaryotes. The prokaryotic proteins essentially share unique sequence motifs with eukaryotic TRAX, while the proteins possessing both the unique sequences and conserved indels of TRAX or translin can be identified from protists. Intriguingly, TRAX protein in all the known genomes of extant Chloroflexi share high sequence similarity and conserved indels with the archaeal protein, suggesting occurrence of TRAX at least at the time of Chloroflexi divergence as well as evolu...Continue Reading