Structural determination of Selenocysteine Synthase from Escherichia coli

The biosynthesis of the 21th amino acid, Selenocysteine (Sec - U), requires complex enzymatic machinery composed in eubacteria of: Selenocysteine Synthase (SELA), Selenocysteine Specific Elongation Factor (SELB), Selenophosphate Synthetase (SELD) and a specific Selenocysteine Inserting tRNA (tRNAsec). In archaeabacteria and eukaryotes there are O phosphoryl tRNAsec Kinase (PSTK), SepSecS as SELA, EFSec as SELB, SPS1 and 2 as SELD and SECIS Binding Protein 2 (SBP2). The Selenocysteine residue is incorporated into a nascent protein at a UGA like stop codon signaling as a Sec incorporation site by the presence of a Selenocysteine Insertion Sequence (SECIS), embedding the UGA codon in the coding region in bacteria and in a 3\' UTR in archaea and eukarya. SELA plays a central role in this pathway by modifying the Serine residue charged into the tRNAsec by Seryl-tRNA Synthetase (SerRS) and converting it into Selenocysteine. This enzyme forms a homodecameric complex that specifically recognizes and binds to Seryl-tRNAsec. The specific interaction of SELA and its tRNA remains unclear. Our aim is the structural investigation by Small Angle X ray Scattering (SAXS) and crystallization of Escherichia coli SELA and SELA-tRNAsec. SAXS datas determined dimensional parameters as maximum dimension, molecular mass and radius of gyration. Abinition model calculation was made assuming a P52 symmetry from Transmission Electron Microscope (TEM) projections Crystals of SELA-tRNA complex shown the space-group and cell dimensions, although its low resolution. To improve the structural studies a SELA model of E. coli was built using the amino acid sequences alignment and the PDB from Methanococcus jannaschii, SELA putative protein, which although the lower identities result in a very good model. In addition, a Statistical Coupling Analysis (SCA) was performed based on a multiple sequence alignment of SELA, ordering the most preserved amino acid and the relation between them. (AU)