Publications

• Functional Characterization of the ycjQRS Gene Cluster from Escherichia coli: A Novel Pathway for the Transformation of D-Gulosides to D-Glucosides.

  Mukherjee K., Huddleston J.P., Narindoshvili T., Nemmara V.V., Raushel F.M.

  A combination of bioinformatics, steady-state kinetics, and NMR spectroscopy has revealed the catalytic functions of YcjQ, YcjS, and YcjR from the ycj gene cluster in Escherichia coli K-12. YcjS was determined to be a 3-keto-d-glucoside dehydrogenase with a k_cat = 22 s^-1 and ... >> More

  A combination of bioinformatics, steady-state kinetics, and NMR spectroscopy has revealed the catalytic functions of YcjQ, YcjS, and YcjR from the ycj gene cluster in Escherichia coli K-12. YcjS was determined to be a 3-keto-d-glucoside dehydrogenase with a k_cat = 22 s^-1 and k_cat/ K_m = 2.3 × 10⁴ M^-1 s^-1 for the reduction of methyl α-3-keto-d-glucopyranoside at pH 7.0 with NADH. YcjS also exhibited catalytic activity for the NAD⁺-dependent oxidation of d-glucose, methyl β-d-glucopyranoside, and 1,5-anhydro-d-glucitol. YcjQ was determined to be a 3-keto-d-guloside dehydrogenase with k_cat = 18 s^-1 and k_cat/ K_m = 2.0 × 10³ M^-1 s^-1 for the reduction of methyl α-3-keto-gulopyranoside. This is the first reported dehydrogenase for the oxidation of d-gulose. YcjQ also exhibited catalytic activity with d-gulose and methyl β-d-gulopyranoside. The 3-keto products from both dehydrogenases were found to be extremely labile under alkaline conditions. The function of YcjR was demonstrated to be a C4 epimerase that interconverts 3-keto-d-gulopyranosides to 3-keto-d-glucopyranosides. These three enzymes, YcjQ, YcjR, and YcjS, thus constitute a previously unrecognized metabolic pathway for the transformation of d-gulosides to d-glucosides via the intermediate formation of 3-keto-d-guloside and 3-keto-d-glucoside. << Less

  Biochemistry 58:1388-1399(2019) [PubMed] [EuropePMC]

  This publication is cited by 2 other entries.