铽发光寿命异质性与蛋白质平衡构象动力学
Terbium luminescence-lifetime heterogeneity and protein equilibrium conformational dynamics.
作者信息
Austin R H, Stein D L, Wang J
出版信息
Proc Natl Acad Sci U S A. 1987 Mar;84(6):1541-5. doi: 10.1073/pnas.84.6.1541.
Abstract
The fluorescence decay of the rare earth terbium when bound to the protein calmodulin changes from a simple exponential decay to a complex nonexponential decay as the temperature is lowered below 200 K. We have fit the observed decay curves by assuming that the terbium emission is a forced electric dipole transition and proteins have a distribution of continuous conformational states. Quantitative fits to the data indicate that the root-mean-square configurational deviation of the atoms surrounding the terbium ion is 0.2 A, in good agreement with other measurements. We further point out that because the protein seems to undergo a glass transition yet retains configurational order at room temperature, the proper name for the physical state of a protein at room temperature is the rubber-like state.
摘要
当与蛋白质钙调蛋白结合时,稀土铽的荧光衰减在温度降至200 K以下时,从简单的指数衰减变为复杂的非指数衰减。我们通过假设铽发射是一个受迫电偶极跃迁且蛋白质具有连续构象状态分布来拟合观测到的衰减曲线。对数据的定量拟合表明,铽离子周围原子的均方根构型偏差为0.2埃,与其他测量结果高度一致。我们进一步指出,由于蛋白质似乎经历了玻璃化转变但在室温下仍保持构型有序,所以蛋白质在室温下物理状态的恰当名称是类橡胶态。
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