Structure and function of psychrophilic alanine racemase

Abstract

We describe the structure and function of psychrophilic alanine racemases from Bacillus psychrosaccharolyticus and Pseudomonas fluorescens. These enzymes showed high catalytic activities even at 0°C and were extremely labile at temperatures over 35°C. The enzymes were also found to be less resistant to organic solvents than alanine racemases from thermophilic and mesophilic bacteria, both in vivo and in vitro. Both enzymes have a dimeric structure and contain 2 mol of pyridoxal 5′-phosphate (PLP) per mol as a coenzyme. The enzyme from B. psychrosaccharolyticus was found to have a markedly large K m value (5.0 μM) for PLP in comparison with other reported alanine racemases, and was stable at temperatures up to 50°C in the presence of excess amounts of PLP. The dissociation of PLP from the P. fluorescens enzyme may trigger the unfolding of the secondary structure. The enzyme from B. psychrosaccharolyticus has a distinguishing hydrophilic region around residue no. 150 in its deduced amino acid sequence, whereas the corresponding regions of other Bacillus alanine racemases are hydrophobic. The position of this region in the three dimensional structure of this enzyme was predicted to be in a surface loop surrounding the active site. This hydrophilic region may interact with solvent, reduce the compactness of the active site, and destabilize the enzyme.