Yihx-encoded haloacid dehalogenase-like phosphatase HAD4 from Escherichia coli is a specific α-d-glucose 1-phosphate hydrolase useful for substrate-selective sugar phosphate transformations

摘要

class="kwd-title">Keywords: Phosphatase, HAD superfamily, Sugar phosphate, Substrate selectivity, Oriented immobilization class="head no_bottom_margin" id="idm140506709828288title">AbstractPhosphomonoester hydrolases (phosphatases; EC 3.1.3.) often exhibit extremely relaxed substrate specificity which limits their application to substrate-selective biotransformations. In search of a phosphatase catalyst specific for hydrolyzing α-d-glucose 1-phosphate (αGlc 1-P), we selected haloacid dehalogenase-like phosphatase 4 (HAD4) from Escherichia coli and obtained highly active recombinant enzyme through a fusion protein (Zbasic2_HAD4) that contained Zbasic2, a strongly positively charged three α-helical bundle module, at its N-terminus. Highly pure Zbasic2_HAD4 was prepared directly from E. coli cell extract using capture and polishing combined in a single step of cation exchange chromatography. Kinetic studies showed Zbasic2_HAD4 to exhibit 565-fold preference for hydrolyzing αGlc 1-P (kcat/KM = 1.87 ± 0.03 mM⁻¹ s⁻¹; 37 °C, pH 7.0) as compared to d-glucose 6-phosphate (Glc 6-P). Also among other sugar phosphates, αGlc 1-P was clearly preferred. Using different mixtures of αGlc 1-P and Glc 6-P (e.g. 180 mM each) as the substrate, Zbasic2_HAD4 could be used to selectively convert the αGlc 1-P present, leaving back all of the Glc 6-P for recovery. Zbasic2_HAD4 was immobilized conveniently using direct loading of E. coli cell extract on sulfonic acid group-containing porous carriers, yielding a recyclable heterogeneous biocatalyst that was nearly as effective as the soluble enzyme, probably because protein attachment to the anionic surface occurred in a preferred orientation via the cationic Zbasic2 module. Selective removal of αGlc 1-P from sugar phosphate preparations could be an interesting application of Zbasic2_HAD4 for which readily available broad-spectrum phosphatases are unsuitable.