Burton Rodney L, Chen Shawei, Xu Xiao Lan, Grant Gregory A
Department of Molecular Biology, Washington University School of Medicine, St. Louis, Missouri 63110, USA.
J Biol Chem. 2007 Oct 26;282(43):31517-24. doi: 10.1074/jbc.M704032200. Epub 2007 Aug 30.
Mycobacterium tuberculosis D-3-phosphoglycerate dehydrogenase undergoes significant inhibition of activity with increasing concentrations of its substrate, hydroxypyruvic acid phosphate. The enzyme also displays an unusual dual pH optimum. A significant decrease in the K(i) for substrate inhibition at pH values corresponding to the valley between these optima is responsible for this phenomena. The change in K(i) has an average pK of approximately 5.8 and involves two functional groups that are protonated and two functional groups that are unprotonated for optimal substrate inhibition to occur. Mutagenesis of positively charged amino acid residues at a putative anion binding site previously revealed by the x-ray structure, produces significant changes in the pH-dependent profile of substrate inhibition. Several single residue mutations eliminate the dual pH optima by reducing substrate inhibition between pH 5 and 7 and a triple mutation was identified that eliminates the substrate inhibition altogether. The mutagenesis data support the conclusion that the anion binding site represents a new allosteric site for the control of enzyme activity and functions in a novel mechanism for substrate inhibition.
结核分枝杆菌D-3-磷酸甘油酸脱氢酶随着底物磷酸羟基丙酮酸浓度的增加,其活性受到显著抑制。该酶还表现出不寻常的双pH最佳值。在对应于这些最佳值之间谷底的pH值下,底物抑制的K(i)显著降低是导致这种现象的原因。K(i)的变化平均pK约为5.8,涉及两个质子化的官能团和两个非质子化的官能团,以实现最佳的底物抑制。先前通过x射线结构揭示的假定阴离子结合位点处带正电荷氨基酸残基的诱变,在底物抑制的pH依赖性图谱中产生了显著变化。几个单残基突变通过减少pH 5至7之间的底物抑制消除了双pH最佳值,并且鉴定出一个三突变,该突变完全消除了底物抑制。诱变数据支持这样的结论,即阴离子结合位点代表一个用于控制酶活性的新的变构位点,并以一种新的底物抑制机制发挥作用。
