Structure and Chemical Reaction Mechanism of LigU, an Enzyme That Catalyzes an Allylic Isomerization in the Bacterial Degradation of Lignin. Academic Article uri icon

abstract

  • LigU from Novosphingobium sp. strain KA1 catalyzes the isomerization of (4E)-oxalomesaconate (OMA) to (3Z)-2-keto-4-carboxy-3-hexenedioate (KCH) as part of the protocatechuate (PCA) 4,5-cleavage pathway during the degradation of lignin. The three-dimensional structure of the apo form of the wild-type enzyme was determined by X-ray crystallography, and the structure of the K66M mutant enzyme was determined in the presence of the substrate OMA. LigU is a homodimer requiring no cofactors or metal ions with a diaminopimelate epimerase structural fold, consisting of two domains with similar topologies. Each domain has a central -helix surrounded by a -barrel composed of antiparallel -strands. The active site is at the cleft of the two domains. 1H nuclear magnetic resonance spectroscopy demonstrated that the enzyme catalyzes the exchange of the pro-S hydrogen at C5 of KCH with D2O during the isomerization reaction. Solvent-deuterium exchange experiments demonstrated that mutation of Lys-66 eliminated the isotope exchange at C5 and that mutation of C100 abolished exchange at C3. The positioning of these two residues in the active site of LigU is consistent with a reaction mechanism that is initiated by the abstraction of the pro-S hydrogen at C3 of OMA by the thiolate anion of Cys-100 and the donation of a proton at C5 of the proposed enolate anion intermediate by the side chain of Lys-66 to form the product KCH. The 1,3-proton transfer is suprafacial.

published proceedings

  • Biochemistry

altmetric score

  • 3.7

author list (cited authors)

  • Hogancamp, T. N., Cory, S. A., Barondeau, D. P., & Raushel, F. M.

citation count

  • 0

complete list of authors

  • Hogancamp, Tessily N||Cory, Seth A||Barondeau, David P||Raushel, Frank M

publication date

  • August 2019