Sobol W T, Cameron I G, Inch W R, Pintar M M
Biophys J. 1986 Jul;50(1):181-91. doi: 10.1016/S0006-3495(86)83450-6.
NMR spin relaxation experiments performed on healthy mouse muscle tissue at 40 MHz and 293 K are reported. The spin-lattice relaxation experiments were performed using different combinations of selective and nonselective radio frequency pulses. Relaxation experiments in the rotating frame at H1 = 10, 5 and 1 G are also reported. The experimental results were analyzed using the spin-grouping method, which yields the sizes of the resolved magnetization components as well as their T2's and T1's (or T1p's) for the nonexponential relaxation functions. These results were analyzed further for the exchange between different spin groups. It has been found that to explain all of these experimental data it was necessary to use a four-compartment model of the muscle tissue that consists of a lipid spin group, a "solid-like" spin group (mainly proteins), a "bulk water" spin group and a "bound water" spin group. The chemical exchange rate between "bulk" and "bound" water was found to be 29 +/- 9s-1 at room temperature. The exchange rate between the bound water and the solid moderator was estimated to be approximately 500 s-1.
报告了在40兆赫兹和293开尔文温度下对健康小鼠肌肉组织进行的核磁共振自旋弛豫实验。自旋晶格弛豫实验使用了选择性和非选择性射频脉冲的不同组合。还报告了在旋转坐标系中H1 = 10、5和1高斯下的弛豫实验。实验结果采用自旋分组法进行分析,该方法可得出分辨出的磁化分量的大小及其对于非指数弛豫函数的T2和T1(或T1p)值。对不同自旋组之间的交换进一步分析了这些结果。已发现,为了解释所有这些实验数据,有必要使用肌肉组织的四室模型,该模型由脂质自旋组、“类固体”自旋组(主要是蛋白质)、“大量水”自旋组和“结合水”自旋组组成。在室温下,“大量”水与“结合”水之间的化学交换率为29±9秒-1。结合水与固体调节剂之间的交换率估计约为500秒-1。