Unusual Stability of a Recombinant Verrucomicrobium spinosum Tyrosinase to Denaturing Agents and Its Use for a Production of a Protein with Adhesive Properties.

Unusual Stability of a Recombinant Verrucomicrobium spinosum Tyrosinase to Denaturing Agents and Its Use for a Production of a Protein with Adhesive Properties.

Axambayeva, A S;Zhaparova, L R;Shagyrova, Zh S;Ramankulov, E M;Shustov, A V;
Applied biochemistry and biotechnology 2018 Vol. 185 pp. 736-754
175
axambayeva2018unusualapplied

Abstract

Tyrosinases catalyze oxidation of phenols with a formation of biphenols, quinones, and highly polymerized melanins. Tyrosinases have prospects for industrial use to remove phenols, also in biosensors, in bioorganic synthesis, and for a production of biocompatible adhesives (medical glues). Despite growing fields of potential applications, a selection of commercially available tyrosinases are currently limited to a single enzyme which is isolated from fruiting bodies of mushrooms. This article describes a preparation of recombinant tyrosinase from a bacterium Verrucomicrobium spinosum using a heterologous expression in Escherichia coli. Recombinant V. spinosum tyrosinase has high specific activity (13,200 U/mg). A resistance of the enzyme was investigated to chemical agents used to denature proteins and keep poorly solvable proteins in a solution. The enzyme preserves activity in the presence of urea and retains at least a fraction of its enzymatic activity at concentrations of urea up to 4.5 M. An addition of sodium lauroyl sarcosinate to 1 or 2% activates the tyrosinase. Novel means of quantitatively expressing tyrosinase activity is described in this article. The method uses a set of parameters obtained from non-linear estimation of the progress curves and is suitable for enzymatic reactions which do not comply with Michaelis-Menten kinetics. Tyrosinase may be used to introduce into proteins a post-translational modification which is a conversion of tyrosine residues (Tyr) into residues of 3,4-dioxyphenylalanine (DOPA). The presence of DOPA provides the polypeptides with a capability of strong molecular adhesion. Co-expression of tyrosinase and a recombinant protein mimicking marine mussel-encoded adhesive proteins resulted in obtaining of the protein in which at least a part of Tyr residues had been converted to DOPA. The DOPA-containing protein had high adhesion strength (2.5 MPa).

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263117
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10.1007/s12010-017-2686-y
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