通过饱和恢复电子顺磁共振对硬脂酸自旋标记物的碰撞频率进行映射。
Mapping of collision frequencies for stearic acid spin labels by saturation-recovery electron paramagnetic resonance.
作者信息
Yin J J, Feix J B, Hyde J S
机构信息
Department of Radiology, Medical College of Wisconsin, Milwaukee 53226.
出版信息
Biophys J. 1990 Sep;58(3):713-20. doi: 10.1016/S0006-3495(90)82414-0.
Short pulse saturation-recovery electron paramagnetic resonance methods have been used to measure interactions of 14N:15N stearic acid spin label pairs in multilamellar liposomal dispersions composed of dimyristoyl-phosphatidylcholine (DMPC) and dielaidoylphosphatidylcholine (DEPC). Pairs consisting of various combinations of [14N]-16-, [14N]-12- or [14N]-5-doxylstearate, and [15N]-16-, [15N]-12-, or [15N]-5-doxylstearate were studied. SR experiments were performed at 27 degrees and 37 degrees C, and recovery signals were analyzed for initial conditions and multiexponential time constants by computer fitting using a damped least-squares approach. The time constants contain combinations of the electron spin lattice relaxation time, Tle, for each member of the spin-label pair, and the Heisenberg exchange rate constant, Kx. Spin-lattice relaxation times for each of the 14N and 15N stearic acid spin labels were determined, and it is noted that Tle for a given 15N-SASL was always slightly greater than that of the corresponding 14N-SASL. From Kx the bimolecular collision frequency was calculated, providing a detailed picture of molecular interactions. For both lipid systems the bimolecular collision rates were ordered as 12:5 less than 16:5 less than 5:5 less than 16:12 less than 12:12 less than 16:16. For all spin-label pairs studied, interaction frequencies were greater in DMPC than in DEPC. For the 16:16, 12:12, and 16:12 pairs, Kx was approximately 30% greater in DMPC than in DEPC, a significantly greater difference than is observed by conventional EPR methods. Further confirmation of the existence of vertical fluctuation of nitroxide moieties that are at the 16- (or 12) position toward the polar surfaces was obtained, with the frequency of 16:5 (or 12:5) interactions ~40% of the 16:16 (or 12:12) interaction frequency. In both DMPC and DEPC, Kx for homogeneous pairs increases as the doxyl moiety is moved further down the alkyl chain (i.e.,5:5 < 12:12 < 16:16), suggesting that steric effects or the local rotational mobility of the nitroxide group influence the frequency at which spin exchange occurs.
短脉冲饱和恢复电子顺磁共振方法已被用于测量在由二肉豆蔻酰磷脂酰胆碱(DMPC)和二油酰磷脂酰胆碱(DEPC)组成的多层脂质体分散体中(^{14}N:^{15}N)硬脂酸自旋标记对的相互作用。研究了由([^{14}N]-16 -)、([^{14}N]-12 -)或([^{14}N]-5 -)硬脂酰氧基氮氧自由基与([^{15}N]-16 -)、([^{15}N]-12 -)或([^{15}N]-5 -)硬脂酰氧基氮氧自由基的各种组合组成的对。SR实验在27摄氏度和37摄氏度下进行,通过使用阻尼最小二乘法的计算机拟合分析恢复信号的初始条件和多指数时间常数。时间常数包含自旋标记对每个成员的电子自旋晶格弛豫时间(T_{1e})以及海森堡交换速率常数(K_x)的组合。测定了每个(^{14}N)和(^{15}N)硬脂酸自旋标记的自旋晶格弛豫时间,并且注意到给定的(^{15}N - SASL)的(T_{1e})总是略大于相应的(^{14}N - SASL)。根据(K_x)计算了双分子碰撞频率,提供了分子相互作用的详细情况。对于两种脂质体系,双分子碰撞速率的顺序为(12:5 < 16:5 < 5:5 < 16:12 < 12:12 < 16:16)。对于所有研究的自旋标记对,DMPC中的相互作用频率高于DEPC中的。对于(16:16)、(12:12)和(16:12)对,DMPC中的(K_x)比DEPC中的大约大30%,这一差异比传统EPR方法观察到的显著更大。进一步证实了在16 - (或12)位置朝向极性表面的氮氧基团存在垂直波动,(16:5)(或(12:5))相互作用的频率约为(16:16)(或(^{12}:12))相互作用频率的40%。在DMPC和DEPC中,均相配对的(K_x)随着硬脂酰氧基氮氧基团沿烷基链向下移动而增加(即(5:5 < 12:12 < 16:16)),这表明空间位阻效应或氮氧基团的局部旋转流动性影响自旋交换发生的频率。
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