Biochemical characterization and identification of catalytic residues in alpha -glucuronidase from Bacillus stearothermophilus T-6

alpha -D-Glucuronidases cleave the alpha -1,2-glycosidic bond of the 4-O-methyl-D-glucuronic acid side chain of xylan, as a part of an array of xylan hydrolyzing enzymes. The alpha -D-glucuronidase from Bacillus stearothermophilus T-6 was overexpressed in Escherichia coli using the T7 polymerase expression system. The purification procedure included two steps, heat treatment and gel filtration chromatography, and provided over 0.3 g of pure enzyme from 1 L of overnight culture. Based on gel filtration, the native protein is comprised of two identical subunits. Kinetic constants with aldotetraouronic acid as a substrate, at 55 degree C, were a K sub(m) of 0.2 mM, and a specific activity of 42 U times mg super(-1) (k sub(cat) = 54.9 s super(-1)). The enzyme was most active at 65 degree C, pH 5.5-6.0, in a 10-min assay, and retained 100% of its activity following incubation at 70 degree C for 20 min. Based on differential scanning calorimetry, the protein denatured at 73.4 degree C. Truncated forms of the enzyme, lacking either 126 amino acids from its N-terminus or 81 amino acids from its C-terminus, exhibited low residual activity, indicating that the catalytic site is located in the central region of the protein. To identify the potential catalytic residues, site-directed mutagenesis was applied on highly conserved acidic amino acids in the central region. The replacements Glu392 arrow right Cys and Asp364 arrow right Ala resulted in a decrease in activity of about five orders of magnitude, suggesting that these residues are the catalytic pair.