完整肌肉中磷酸肌酸的31P核磁共振弛豫研究:细胞内游离镁的测定
31P nuclear magnetic relaxation studies of phosphocreatine in intact muscle: determination of intracellular free magnesium.
作者信息
Cohen S M, Burt C T
出版信息
Proc Natl Acad Sci U S A. 1977 Oct;74(10):4271-5. doi: 10.1073/pnas.74.10.4271.
Abstract
31P nuclear magnetic relaxation rates for phosphocreatine in intact frog gastrocnemius were compared with those observed in model solutions at 4 degrees, a temperature at which muscle maintains its physiological state for at least 5 hr. Both nuclear Overhauser effect and spin-lattice relaxation rate (1/T1) experiments indicate that dipole-dipole interactions from the dominant relaxation path for 31P in intact muscle and model solutions, independent of phosphocreatine and Mg concentrations. Spin-spin relaxation rates (1/T2) measured by modified Carr-Purcell-Melboom-Gill spin-echo experiments suggest the importance of scalar coupling modulated by chemical exchange with free Mg. From these results, we estimate the free intracellular Mg in intact muscle as 4.4 mM and demonstrate that 31P T2 experiments can be used as a tool for studying free Mg levels with minimum disturbance of the intact cell.
摘要
将完整青蛙腓肠肌中磷酸肌酸的31P核磁共振弛豫率与在4摄氏度的模型溶液中观察到的弛豫率进行了比较,在该温度下肌肉可维持其生理状态至少5小时。核Overhauser效应和自旋晶格弛豫率(1/T1)实验均表明,完整肌肉和模型溶液中31P的主要弛豫路径的偶极-偶极相互作用与磷酸肌酸和镁的浓度无关。通过改良的Carr-Purcell-Melboom-Gill自旋回波实验测量的自旋-自旋弛豫率(1/T2)表明了与游离镁进行化学交换调制的标量耦合的重要性。根据这些结果,我们估计完整肌肉中的游离细胞内镁为4.4 mM,并证明31P T2实验可作为研究游离镁水平的工具,且对完整细胞的干扰最小。
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