Stein R L, Strimpler A M, Hori H, Powers J C
Biochemistry. 1987 Mar 10;26(5):1305-14. doi: 10.1021/bi00379a016.
Proton inventories (rate measurements in mixtures of H2O and D2O) were determined for the human leukocyte elastase catalyzed hydrolyses of thiobenzyl esters and p-nitroanilides of the peptides MeOSuc-Val, MeOSuc-Alan-Pro-Val (n = 0-2), and MeOSuc-Alan-Pro-Ala (n = 1 or 2). The dependencies of k2/Ks on mole fraction of solvent deuterium for the p-nitroanilides are "dome-shaped" and were fit to a model that incorporates the mechanistic features of generalized solvent reorganization when substrate binds to enzyme and partial rate limitation of k2/Ks by physical and chemical steps [Stein, R. L. (1985) J. Am. Chem. Soc. 107, 7768-7769]. The proton inventories for the deacylation of MeOSuc-Val-HLE and MeOSuc-Pro-Val-HLE are linear while those for the deacylation of MeOSuc-Ala-Pro-Val-HLE and MeOSuc-Ala-Ala-Pro-Val-HLE are "bowl-shaped" and could be fit to a quadratic dependence of rate on mole fraction of deuterium. These results are interpreted to suggest that the correct operation of the catalytic triad is dependent on substrate structure. Minimal substrates, which cannot interact with elastase at remote subsites, are hydrolyzed via a mechanism involving simple general-base catalysis by the active site histidine and transfer of a single proton in the rate-limiting transition state. In contrast, tri- and tetrapeptide substrates, which are able to interact at remote subsites, are hydrolyzed by a more complex mechanism of protolytic catalysis involving full functioning of the catalytic triad and transfer of two protons in the rate-limiting transition state. Finally, the proton inventories for the deacylation of MeOSuc-Ala-Pro-Ala-HLE and MeOSuc-Ala-Ala-Pro-Ala-HLE are dome-shaped and suggest that the chemical events of acyl-enzyme hydrolysis are only partially rate limiting for these reactions and that some other physical step is also partially rate limiting.
测定了人白细胞弹性蛋白酶催化硫代苄酯以及肽MeOSuc-Val、MeOSuc-Alan-Pro-Val(n = 0 - 2)和MeOSuc-Alan-Pro-Ala(n = 1或2)的对硝基苯胺的水解反应中的质子存量(H₂O和D₂O混合物中的速率测量)。对硝基苯胺的k₂/Kₛ对溶剂氘摩尔分数的依赖性呈“圆顶形”,并符合一个模型,该模型纳入了底物与酶结合时广义溶剂重组的机制特征以及k₂/Kₛ在物理和化学步骤中的部分速率限制[斯坦因,R. L.(1985年)《美国化学会志》107,7768 - 7769]。MeOSuc-Val-HLE和MeOSuc-Pro-Val-HLE脱酰反应的质子存量呈线性,而MeOSuc-Ala-Pro-Val-HLE和MeOSuc-Ala-Ala-Pro-Val-HLE脱酰反应的质子存量呈“碗形”,并且可以拟合为速率对氘摩尔分数的二次依赖性。这些结果被解释为表明催化三联体的正确运作取决于底物结构。不能在远端亚位点与弹性蛋白酶相互作用的最小底物,通过一种机制进行水解,该机制涉及活性位点组氨酸的简单广义碱催化以及限速过渡态中单个质子的转移。相比之下,能够在远端亚位点相互作用的三肽和四肽底物,通过一种更复杂的质子解催化机制进行水解,该机制涉及催化三联体的充分发挥作用以及限速过渡态中两个质子的转移。最后,MeOSuc-Ala-Pro-Ala-HLE和MeOSuc-Ala-Ala-Pro-Ala-HLE脱酰反应的质子存量呈圆顶形,表明酰基酶水解的化学事件对这些反应仅部分限速,并且一些其他物理步骤也部分限速。
