Wehner A, Harms E, Jennings M P, Beacham I R, Derst C, Bast P, Röhm K H
Institut für Physiologische Chemie, Philipps-Universität, Marburg, Federal Republic of Germany.
Eur J Biochem. 1992 Sep 1;208(2):475-80. doi: 10.1111/j.1432-1033.1992.tb17210.x.
Site-specific mutagenesis was used to replace the three histidine residues of Escherichia coli asparaginase II (EcA2) with other amino acids. The following enzyme variants were studied: [H87A]EcA2, [H87L]EcA2, [H87K]EcA2, [H183L]EcA2 and [H197L]EcA2. None of the mutations substantially affected the Km for L-aspartic acid beta-hydroxamate or impaired aspartate binding. The relative activities towards L-Asn, L-Gln, and l-aspartic acid beta-hydroxamate were reduced to the same extent, with residual activities exceeding 10% of the wild-type values. These data do not support a number of previous reports suggesting that histidine residues are essential for catalysis. Spectroscopic characterization of the modified enzymes allowed the unequivocal assignment of the histidine resonances in 1H-NMR spectra of asparaginase II. A histidine signal previously shown to disappear upon aspartate binding is due to His183, not to the highly conserved His87. The fact that [H183L]EcA2 has normal activity but greatly reduced stability in the presence of urea suggests that His183 is important for the stabilization of the native asparaginase tetramer. 1H-NMR and fluorescence spectroscopy indicate that His87 is located in the interior of the protein, possibly adjacent to the active site.
位点特异性诱变用于将大肠杆菌天冬酰胺酶II(EcA2)的三个组氨酸残基替换为其他氨基酸。研究了以下酶变体:[H87A]EcA2、[H87L]EcA2、[H87K]EcA2、[H183L]EcA2和[H197L]EcA2。这些突变均未显著影响L-天冬氨酸β-异羟肟酸的Km值,也未损害天冬氨酸的结合。对L-天冬酰胺、L-谷氨酰胺和L-天冬氨酸β-异羟肟酸的相对活性均以相同程度降低,残余活性超过野生型值的10%。这些数据不支持之前的一些报道,即组氨酸残基对催化至关重要。对修饰酶的光谱表征使得能够明确确定天冬酰胺酶II的1H-NMR谱中组氨酸的共振信号。先前显示在天冬氨酸结合时消失的组氨酸信号是由于His183,而非高度保守的His87。[H183L]EcA2具有正常活性但在尿素存在下稳定性大大降低这一事实表明,His183对天然天冬酰胺酶四聚体的稳定很重要。1H-NMR和荧光光谱表明His87位于蛋白质内部,可能与活性位点相邻。
