Urban P, Lederer F
Centre National de la Recherche Scientifique Laboratoire Associé 122, Paris, France.
Eur J Biochem. 1988 Apr 5;173(1):155-62. doi: 10.1111/j.1432-1033.1988.tb13979.x.
Fluoropyruvate inactivated oxidized flavocytochrome b2 (baker's yeast L-lactate dehydrogenase) in a biphasic process yielding convex semilog plots of residual activity versus time. At each reagent concentration, rate constants k1 and k2 for the two phases could be calculated by simulation studies using one of the schemes proposed by Ray and Koshland [J. Biol. Chem. (1961) 236, 1973-1979]: E----E1 (fully active)----E2 (inactive). When plotted as a function of reagent concentration, the values of k2, but not those of k1, showed a saturation effect. Inactivation was slowed down by D-lactate, a competitive inhibitor, and completely prevented by enzyme reduction. While no enzyme chemical modification could be demonstrated for the first step, the inactivation event of the second step could be ascribed to alkylation of a histidine belonging to proteolytic fragment beta of the enzyme. The only histidine present in the fragment sequence is His-373. In the enzyme three-dimensional structure [Xia et al. (1987) Proc. Natl Acad. Sci. USA 84, 2629-2633] His-373 is well located, close to the cofactor, to play the role of the active-site base required by the chemical mechanism. Alternative chemical interpretations of the kinetic scheme are discussed, so is the difference between flavocytochrome b2 inactivation by fluoropyruvate and bromopyruvate.
氟丙酮酸通过双相过程使氧化型黄素细胞色素b2(面包酵母L-乳酸脱氢酶)失活,得到残留活性与时间的凸形半对数图。在每种试剂浓度下,可使用Ray和Koshland提出的方案之一[《生物化学杂志》(1961年)236卷,1973 - 1979页]通过模拟研究计算两相的速率常数k1和k2:E----E1(完全活性)----E2(无活性)。当作为试剂浓度的函数作图时,k2的值呈现饱和效应,而k1的值则不然。D-乳酸是一种竞争性抑制剂,可减缓失活过程,而酶还原可完全阻止失活。虽然第一步未显示酶的化学修饰,但第二步的失活事件可归因于酶的蛋白水解片段β中一个组氨酸的烷基化。该片段序列中唯一的组氨酸是His-373。在酶的三维结构中[Xia等人(1987年)《美国国家科学院院刊》84卷,2629 - 2633页],His-373位置合适,靠近辅因子,可发挥化学机制所需的活性位点碱基的作用。文中讨论了动力学方案的其他化学解释,以及氟丙酮酸和溴丙酮酸使黄素细胞色素b2失活之间的差异。
