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Increasing Reduction Potentials of Type 1 Copper Center and Catalytic Efficiency of Small Laccase from Streptomyces coelicolor through Secondary Coordination Sphere Mutations
Authors:Jing-Xiang Wang  Dr. Avery C. Vilbert  Dr. Chang Cui  Dr. Evan N. Mirts  Lucas H. Williams  Wantae Kim  Prof. Dr. Y. Jessie Zhang  Prof. Dr. Yi Lu
Affiliation:1. Department of Chemistry, The University of Texas at Austin, 105 East 24th Street, Austin, TX 78712 USA;2. Pacific Northwest National Laboratory, 902 Battelle Boulevard, Richland, WA 99354 USA;3. Department of Chemistry, The University of Illinois at Urbana-Champaign, 600 South Matthews Avenue, Urbana, IL 61801 USA;4. Department of Molecular Biosciences, The University of Texas at Austin, 100 East 24th St., Austin, TX 78712 USA;5. McKetta Department of Chemical Engineering, The University of Texas at Austin, 200 East Dean Keeton Street, Austin, TX 78712 USA
Abstract:The key to type 1 copper (T1Cu) function lies in the fine tuning of the CuII/I reduction potential (E°′T1Cu) to match those of its redox partners, enabling efficient electron transfer in a wide range of biological systems. While the secondary coordination sphere (SCS) effects have been used to tune E°′T1Cu in azurin over a wide range, these principles are yet to be generalized to other T1Cu-containing proteins to tune catalytic properties. To this end, we have examined the effects of Y229F, V290N and S292F mutations around the T1Cu of small laccase (SLAC) from Streptomyces coelicolor to match the high E°′T1Cu of fungal laccases. Using ultraviolet-visible absorption and electron paramagnetic resonance spectroscopies, together with X-ray crystallography and redox titrations, we have probed the influence of SCS mutations on the T1Cu and corresponding E°′T1Cu. While minimal and small E°′T1Cu increases are observed in Y229F- and S292F-SLAC, the V290N mutant exhibits a major E°′T1Cu increase. Moreover, the influence of these mutations on E°′T1Cu is additive, culminating in a triple mutant Y229F/V290N/S292F-SLAC with the highest E°′T1Cu of 556 mV vs. SHE reported to date. Further activity assays indicate that all mutants retain oxygen reduction reaction activity, and display improved catalytic efficiencies (kcat/KM) relative to WT-SLAC.
Keywords:Laccase  Reduction Potential Tuning  Type 1 Copper Center
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