Furukawa K, Tagaya M, Tanizawa K, Fukui T
Institute of Scientific and Industrial Research, Osaka University, Ibaraki, Japan.
J Biol Chem. 1994 Jan 14;269(2):868-71.
Lys15 in Escherichia coli glycogen synthase, which is specifically labeled by adenosine diphosphopyridoxal, is mainly involved in binding of the substrate ADP-glucose (Furukawa, K., Tagaya, M., Tanizawa, K., and Fukui, T. (1993) J. Biol. Chem. 268, 23837-23842). We have found that the mutant glycogen synthase in which Lys15 is replaced by Gln via site-directed mutagenesis is inactivated by adenosine diphosphopyridoxal at concentrations higher than those required for the inactivation of the wild-type enzyme. ADP and ADP-glucose offered protective effects on inactivation, suggesting that the label binds to the ADP-glucose-binding site in the mutant enzyme. Sequence analysis of the labeled peptide revealed that the labeled residue is Lys277. This lysyl residue is conserved in maize starch synthase, which shows about 30% amino acid identity to E. coli glycogen synthase. Substitution of Gln for Lys277 by site-directed mutagenesis resulted in a 140-fold decrease in the kcat value with little changes in the Km values for ADP-glucose and glycogen. These results suggest that Lys277 at the active site participates in the catalytic reaction rather than binding of substrate. The present study shows the usefulness of the combined application of affinity labeling and site-directed mutagenesis.
大肠杆菌糖原合酶中的赖氨酸15被二磷酸吡哆醛特异性标记,主要参与底物ADP-葡萄糖的结合(古川,K.,田谷,M.,谷泽,K.,和福井,T.(1993年)《生物化学杂志》268卷,23837 - 23842页)。我们发现,通过定点诱变将赖氨酸15替换为谷氨酰胺的突变型糖原合酶,在高于野生型酶失活所需浓度的二磷酸吡哆醛作用下会失活。ADP和ADP-葡萄糖对失活有保护作用,这表明标记物与突变型酶中的ADP-葡萄糖结合位点结合。对标记肽段的序列分析表明,被标记的残基是赖氨酸277。该赖氨酰残基在玉米淀粉合酶中保守,玉米淀粉合酶与大肠杆菌糖原合酶的氨基酸同一性约为30%。通过定点诱变将赖氨酸277替换为谷氨酰胺,导致催化常数(kcat)值下降140倍,而ADP-葡萄糖和糖原的米氏常数(Km)值变化不大。这些结果表明,活性位点的赖氨酸277参与催化反应而非底物结合。本研究表明了亲和标记和定点诱变联合应用的有效性。
