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通过¹⁸O动力学同位素效应阐明的Ras的GAP促进型GTP酶中的过渡态结构及催化残基的作用。

Transition state structures and the roles of catalytic residues in GAP-facilitated GTPase of Ras as elucidated by (18)O kinetic isotope effects.

作者信息

Du Xinlin, Sprang Stephen R

机构信息

Department of Biochemistry, University of Texas, Southwestern Medical Center, 6001 Forest Park, Room ND10.300, Dallas, Texas 75390-9050, USA.

出版信息

Biochemistry. 2009 Jun 2;48(21):4538-47. doi: 10.1021/bi802359b.

DOI:10.1021/bi802359b
PMID:19610677
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC3862183/
Abstract

Ras-catalyzed guanosine 5' triphosphate (GTP) hydrolysis proceeds through a loose transition state as suggested in our previous study of (18)O kinetic isotope effects (KIE) [ Du , X. et al. ( 2004 ) Proc. Natl. Acad. Sci. U.S.A. 101 , 8858 - 8863 ]. To probe the mechanisms of GTPase activation protein (GAP)-facilitated GTP hydrolysis reactions, we measured the (18)O KIEs in GTP hydrolysis catalyzed by Ras in the presence of GAP(334) or NF1(333), the catalytic fragment of p120GAP or NF1. The KIEs in the leaving group oxygens (the beta nonbridge and the beta-gamma bridge oxygens) reveal that chemistry is rate-limiting in GAP(334)-facilitated GTP hydrolysis but only partially rate-limiting in the NF1(333)-facilitated GTP hydrolysis reaction. The KIEs in the gamma nonbridge oxygens and the leaving group oxygens reveal that the GAP(334) or NF1(333)-facilitated GTP hydrolysis reaction proceeds through a loose transition state that is similar in nature to the transition state of the GTP hydrolysis catalyzed by Ras alone. However, the KIEs in the pro-S beta, pro-R beta, and beta-gamma oxygens suggest that charge increase on the beta-gamma bridge oxygen is more prominent in the transition states of GAP(334)- and NF1(333)-facilitated reactions than that catalyzed by the intrinsic GTPase activity of Ras. The charge distribution on the two beta nonbridge oxygens is also very asymmetric. The catalytic roles of active site residues were inferred from the effect of mutations on the reaction rate and KIEs. Our results suggest that the arginine finger of GAP and amide protons in the P-loop of Ras stabilize the negative charge on the beta-gamma bridge oxygen and the pro-S beta nonbridge oxygen of a loose transition state, whereas Lys-16 of Ras and Mg(2+) are only involved in substrate binding.

摘要

如我们先前关于(18)O动力学同位素效应(KIE)的研究[Du, X.等人(2004年)《美国国家科学院院刊》101, 8858 - 8863]所表明的,Ras催化的鸟苷5'-三磷酸(GTP)水解通过一个松散的过渡态进行。为了探究GTP酶激活蛋白(GAP)促进GTP水解反应的机制,我们测量了在GAP(334)或NF1(333)(p120GAP或NF1的催化片段)存在的情况下,Ras催化GTP水解时的(18)O KIE。离去基团氧原子(β非桥氧和β-γ桥氧)中的KIE表明,在GAP(334)促进的GTP水解中化学过程是限速的,但在NF1(333)促进的GTP水解反应中只是部分限速。γ非桥氧原子和离去基团氧原子中的KIE表明,GAP(334)或NF1(333)促进的GTP水解反应通过一个本质上与单独由Ras催化的GTP水解的过渡态相似的松散过渡态进行。然而,前-S β、前-R β和β-γ氧原子中的KIE表明,在GAP(334)和NF1(333)促进的反应的过渡态中,β-γ桥氧原子上的电荷增加比由Ras的内在GTP酶活性催化的反应更显著。两个β非桥氧原子上的电荷分布也非常不对称。从突变对反应速率和KIE的影响推断了活性位点残基的催化作用。我们的结果表明,GAP的精氨酸指和Ras的P环中的酰胺质子稳定了松散过渡态的β-γ桥氧原子和前-S β非桥氧原子上的负电荷,而Ras的Lys-16和Mg(2+)仅参与底物结合。