用饱和转移核磁共振研究青蛙骨骼肌中肌酸激酶的活性。
The activity of creatine kinase in frog skeletal muscle studied by saturation-transfer nuclear magnetic resonance.
作者信息
Gadian D G, Radda G K, Brown T R, Chance E M, Dawson M J, Wilkie D R
出版信息
Biochem J. 1981 Jan 15;194(1):215-28. doi: 10.1042/bj1940215.
Abstract
- The activity of creatine kinase in intact anaerobic frog muscle at 4 degrees C at rest and during contraction was investigated by using saturation-transfer 31P n.m.r. 2. At rest, the measured forward (phosphocreatine to ATP) reaction flux was 1.7 X 10(-3) M . s-1 and the backward flux was 1.2 X 10(-3) M . s-1. The large magnitude of both fluxes shows that creatine kinase is active in resting muscle, so the observed constancy of [phosphocreatine] demonstrates that the enzyme and its substrates are at equilibrium. 3. The apparent discrepancy between the fluxes must arise largely from an underestimation of the backward flux resulting from interaction of ATP with other systems, e.g. via adenylate kinase. For purposes of further calculation we have therefore adopted 1.6 X 10(-3) M . s-1 as an estimate of both fluxes. 4. During contraction, when the creatine kinase reaction is no longer at equilibrium, the net rate of phosphocreatine breakdown, estimated directly from the change in area of the inorganic phosphate peak, was 0.75 X 10(-3) M . s-1. Saturation transfer indicates that the forward reaction flux remains at approx. 1.6 X 10(-3) M . s-1 and the backward flux decreases to about 0.85 X 10(-3) M . s-1. 5. The activity of creatine kinase during contraction is large enough to account for the well-established observation that, during contraction, the concentration of ATP falls by less than 2-3%. The reaction catalysed by creatine kinase is driven forward during contraction by the large relative increase in the concentration of free ADP, which is more than doubled. 6. The observation that the forward flux does not increase during contraction and that the backward flux decreases can most simply be explained on the basis of competition of reactants for a limited amount of enzyme.
摘要
- 采用饱和转移31P核磁共振技术研究了完整的厌氧青蛙肌肉在4℃静止和收缩状态下肌酸激酶的活性。2. 静止时,测得的正向(磷酸肌酸到ATP)反应通量为1.7×10⁻³M·s⁻¹,反向通量为1.2×10⁻³M·s⁻¹。两种通量的较大数值表明肌酸激酶在静息肌肉中具有活性,因此观察到的[磷酸肌酸]的稳定性表明该酶及其底物处于平衡状态。3. 通量之间明显的差异一定主要源于ATP与其他系统相互作用导致的反向通量的低估,例如通过腺苷酸激酶。因此,为了进一步计算,我们采用1.6×10⁻³M·s⁻¹作为两种通量的估计值。4. 在收缩过程中,当肌酸激酶反应不再处于平衡状态时,直接根据无机磷酸峰面积的变化估算的磷酸肌酸分解的净速率为0.75×10⁻³M·s⁻¹。饱和转移表明正向反应通量保持在约1.6×10⁻³M·s⁻¹,反向通量降至约0.85×10⁻³M·s⁻¹。5. 收缩过程中肌酸激酶的活性足以解释已确立的观察结果,即在收缩过程中,ATP浓度下降不到2 - 3%。收缩过程中,肌酸激酶催化的反应因游离ADP浓度的大幅相对增加(增加了一倍多)而向前推进。6. 收缩过程中正向通量不增加而反向通量减少这一观察结果,最简单的解释是反应物竞争有限量的酶。
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