Gore M G, Greasley P, McAllister G, Ragan C I
Department of Biochemistry, School of Biological Sciences, University of Southampton, U.K.
Biochem J. 1993 Dec 15;296 ( Pt 3)(Pt 3):811-5. doi: 10.1042/bj2960811.
The fluorescence properties of residue Trp-219 in inositol monophosphatase are sensitive to the ionization of neighbouring groups. The pH-dependent changes in the fluorescence emission intensity and wavelength of maximum emission appear to arise as the result of two separate ionizations in the proximity of Trp-219, namely due to the ionization of His-217 and Cys-218. By studying the curve of fluorescence intensity against pH, given by the mutants Cys-218-->Ala or His-217-->Gln, the pK of His-217 was determined to be 7.54 and the pK of Cys-218 was estimated to be about 8.2. These mutants have altered kinetic parameters for catalytic Mg2+ ions and inhibitory Mg2+ and Li+ ions. The Cys-218-->Ala mutant enzyme is not subject to inhibition by concentrations of Mg2+ ions up to 400 mM and has a specific activity of 156% of the maximum obtainable activity of the native enzyme. The His-217-->Gln mutant enzyme shows reduced sensitivity to inhibition by Mg2+ and Li+ ions, and has a specific activity of 110% of that obtainable for the native enzyme.
肌醇单磷酸酶中色氨酸残基Trp-219的荧光特性对相邻基团的电离敏感。荧光发射强度和最大发射波长的pH依赖性变化似乎是由于Trp-219附近的两个独立电离引起的,即由于His-217和Cys-218的电离。通过研究Cys-218→Ala或His-217→Gln突变体给出的荧光强度对pH的曲线,确定His-217的pK为7.54,Cys-218的pK估计约为8.2。这些突变体改变了催化性Mg2+离子以及抑制性Mg2+和Li+离子的动力学参数。Cys-218→Ala突变体酶不受高达400 mM浓度的Mg2+离子抑制,其比活性为天然酶最大可获得活性的156%。His-217→Gln突变体酶对Mg2+和Li+离子抑制的敏感性降低,其比活性为天然酶可获得比活性的110%。