MutT 二磷酸鸟苷三磷酸酶对二价阳离子的双重需求。金属与底物复合物的动力学和磁共振研究。

Dual divalent cation requirement of the MutT dGTPase. Kinetic and magnetic resonance studies of the metal and substrate complexes.

作者信息

Frick D N, Weber D J, Gillespie J R, Bessman M J, Mildvan A S

机构信息

Department of Biology, Johns Hopkins University, Baltimore, Maryland 21218.

出版信息

J Biol Chem. 1994 Jan 21;269(3):1794-803.

PMID:8294428

Abstract

Kinetic analyses of both the Mn(2+)- and Mg(2+)-activated hydrolysis of dGTP by MutT show the requirement for two divalent cations. Whereas Mn2+ supports a 20-fold lower kcat (0.19 s-1) than Mg2+ (4.0 s-1), the Km of Mn2+.dGTP (6.3 microM) is 45-fold lower than that of Mg2+.dGTP (284 microM). Adenosine 5'-(alpha,beta-methylenetriphosphate) (AMPCPP) is a linear competitive inhibitor with respect to dGTP with a Ki for Mg2+.AMPCPP (42 microM) which is 57-fold lower than the Ki of Mg2+.AMPCPP (2.4 mM). Such tightening suggests that a metal-bridge E.M2+.NTP.M2+ complex is the catalytically active species. The 12 dissociation constants describing the quaternary MutT.M2+.AMPCPP.M2+ complex were evaluated for both Mn2+ and Mg2+, using EPR and NMR methods. MutT binds a single Mn2+ with a Kd of 130 +/- 40 microM in reasonable agreement with the kinetically determined activator constant of Mn2+ of 230 +/- 72 microM. The MutT.AMPCPP complex binds two Mn2+ ions, the weaker of which has a Kd of 16 +/- 2 microM in agreement with the kinetically determined KmMn2+ of 26 +/- 10 microM. MutT.Mn2+ binds Mn2+.AMPCPP with Kd of 16 +/- 4 microM, whereas MutT alone binds Mn2+.AMPCPP with a Kd of 135 +/- 30 microM. The 17-fold enhanced paramagnetic effect of Mn2+ on the longitudinal relaxation rate of water protons found with the binary MutT.Mn2+ complex decreases to 4.7-fold upon binding of AMPCPP and to 8.7-fold upon binding of Mn2+.AMPCPP, further supporting a metal-bridge MutT.M2+.NTP.M2+ complex. By competition with Mn2+ MutT binds Mg2+ at one site with a Kd of 7.5 mM, and MutT.AMPCPP binds Mg2+ at two sites, the weaker of which has a Kd of 0.9 mM. These values are comparable to the kinetically determined KaMg of 15 +/- 7 mM and KmMg of 1.7 +/- 0.7 mM, respectively. Studies with the racemic, substitution-inert beta, gamma-bidentate tetraamminecobalt (III)-beta,gamma-phosphate-ATP (Co3+(NH3)4ATP) complex show that MutT slowly hydrolyzes only the lambda stereoisomer but requires Mg2+ or Mn2+ to do so, confirming a dual metal ion requirement.

摘要

MutT对dGTP的Mn(2+)和Mg(2+)激活水解的动力学分析表明需要两个二价阳离子。虽然Mn2+支持的kcat（0.19 s-1）比Mg2+（4.0 s-1）低20倍，但Mn2+.dGTP的Km（6.3 microM）比Mg2+.dGTP的Km（284 microM）低45倍。腺苷5'-(α,β-亚甲基三磷酸)（AMPCPP）是dGTP的线性竞争性抑制剂，Mg2+.AMPCPP的Ki为42 microM，比Mg2+.AMPCPP的Ki（2.4 mM）低57倍。这种紧密结合表明金属桥E.M2+.NTP.M2+复合物是催化活性物种。使用EPR和NMR方法评估了描述四元MutT.M2+.AMPCPP.M2+复合物的12个解离常数，用于Mn2+和Mg2+。MutT结合单个Mn2+，Kd为130±40 microM，与动力学测定的Mn2+激活常数230±72 microM合理一致。MutT.AMPCPP复合物结合两个Mn2+离子，其中较弱的一个Kd为16±2 microM，与动力学测定的KmMn2+ 26±10 microM一致。MutT.Mn2+以16±4 microM的Kd结合Mn2+.AMPCPP，而单独的MutT以135±30 microM的Kd结合Mn2+.AMPCPP。二元MutT.Mn2+复合物中发现的Mn2+对水质子纵向弛豫率的17倍增强顺磁效应在结合AMPCPP时降至4.7倍，在结合Mn2+.AMPCPP时降至8.7倍，进一步支持金属桥MutT.M2+.NTP.M2+复合物。通过与Mn2+竞争，MutT在一个位点结合Mg2+，Kd为7.5 mM，MutT.AMPCPP在两个位点结合Mg2+，其中较弱的一个Kd为0.9 mM。这些值分别与动力学测定的KaMg 15±7 mM和KmMg 1.7±0.7 mM相当。用外消旋、取代惰性的β,γ-双齿四氨合钴(III)-β,γ-磷酸-ATP（Co3+(NH3)4ATP）复合物进行的研究表明，MutT仅缓慢水解λ立体异构体，但需要Mg2+或Mn2+才能这样做，证实了对双金属离子的需求。

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MutT 二磷酸鸟苷三磷酸酶对二价阳离子的双重需求。金属与底物复合物的动力学和磁共振研究。

Dual divalent cation requirement of the MutT dGTPase. Kinetic and magnetic resonance studies of the metal and substrate complexes.

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