质量依赖键振动动力学影响 HIV-1 蛋白酶的催化作用。
Mass-dependent bond vibrational dynamics influence catalysis by HIV-1 protease.
机构信息
Department of Biochemistry, Albert Einstein College of Medicine at Yeshiva University, 1300 Morris Park Avenue, Bronx, New York 10461, USA.
出版信息
J Am Chem Soc. 2011 Dec 7;133(48):19358-61. doi: 10.1021/ja209391n. Epub 2011 Nov 11.
Abstract
Protein motions that occur on the microsecond to millisecond time scale have been linked to enzymatic rates observed for catalytic turnovers, but not to transition-state barrier crossing. It has been hypothesized that enzyme motions on the femtosecond time scale of bond vibrations play a role in transition state formation. Here, we perturb femtosecond motion by substituting all nonexchangeable carbon, nitrogen, and hydrogen atoms with (13)C, (15)N, and (2)H and observe the catalytic effects in HIV-1 protease. According to the Born-Oppenheimer approximation, isotopic substitution alters vibrational frequency with unchanged electrostatic properties. With the use of a fluorescent peptide to report on multiple steps in the reaction, we observe significantly reduced rates in the heavy enzyme relative to the light enzyme. A possible interpretation of our results is that there exists a dynamic link between mass-dependent bond vibrations of the enzyme and events in the reaction coordinate.
摘要
蛋白质在微秒到毫秒时间尺度上的运动与催化翻转中观察到的酶催化速率有关,但与过渡态势垒穿越无关。人们假设,在键振动的飞秒时间尺度上,酶的运动在过渡态形成中起作用。在这里,我们通过用 (13)C、(15)N 和 (2)H 取代所有不可交换的碳、氮和氢原子来干扰飞秒运动,并观察 HIV-1 蛋白酶中的催化效应。根据 Born-Oppenheimer 近似,同位素取代会改变振动频率而不改变静电性质。利用荧光肽报告反应中的多个步骤,我们观察到重酶的速率相对于轻酶明显降低。我们结果的一种可能解释是,酶的质量依赖性键振动与反应坐标中的事件之间存在动态联系。
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