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偏振荧光光漂白恢复和稳态荧光偏振中的饱和效应。

Saturation effects in polarized fluorescence photobleaching recovery and steady state fluorescence polarization.

作者信息

Hellen E H, Burghardt T P

出版信息

Biophys J. 1994 Mar;66(3 Pt 1):891-7. doi: 10.1016/s0006-3495(94)80865-3.

Abstract

The time-resolved anisotropy produced in polarized fluorescence photobleaching recovery experiments has been successfully used to measure rotational correlation times in a variety of biological systems, however the magnitudes of the reported initial anisotropies have been much lower than the theoretically predicted maximum values. This small time-zero anisotropy has been attributed to fluorophore motion, wobble and rotation, during the photobleaching pulse. We demonstrate that inclusion of the possibility of saturation of the fluorophore's transition from its ground state to its excited state during the photobleaching pulse leads to the prediction of reduced time-zero anisotropy. This eliminates the need to rely solely on the assumption of fluorophore motion during the photobleaching pulse as the cause of the reduced initial anisotropy. We present theoretical and experimental results which show that the initial anisotropy decreases as both the bleach pulse intensity is increased and bleach pulse duration is decreased so as to keep the total integrated bleach pulse constant. We also show theoretical and experimental results demonstrating that at high excitation intensity the effects of saturation cause the steady state fluorescence polarization to decrease. We estimate that saturation may occur using common photobleaching conditions.

摘要

在偏振荧光光漂白恢复实验中产生的时间分辨各向异性已成功用于测量各种生物系统中的旋转相关时间,然而,所报道的初始各向异性的大小远低于理论预测的最大值。这种较小的时间零点各向异性归因于在光漂白脉冲期间荧光团的运动、摆动和旋转。我们证明,在光漂白脉冲期间考虑荧光团从基态到激发态跃迁饱和的可能性会导致预测时间零点各向异性降低。这消除了仅依赖于光漂白脉冲期间荧光团运动作为初始各向异性降低原因的假设的必要性。我们给出的理论和实验结果表明,初始各向异性随着漂白脉冲强度的增加和漂白脉冲持续时间的减少而降低,以便使总的积分漂白脉冲保持恒定。我们还给出理论和实验结果,证明在高激发强度下,饱和效应会导致稳态荧光偏振降低。我们估计在常见的光漂白条件下可能会发生饱和。

https://cdn.ncbi.nlm.nih.gov/pmc/blobs/3972/1275787/cb6b563896bb/biophysj00077-0346-a.jpg

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