AI Article Synopsis
- Fluorescence microscopy combined with optical tweezers is effective for studying protein movement on DNA, allowing for the evaluation of imaging techniques like super-resolution and conventional microscopy.
- The study compares wide-field, confocal, and STED microscopy for visualizing protein interactions with DNA, focusing on their strengths and weaknesses in high-density environments.
- The findings highlight the trade-offs between precision and data quantity in imaging, offering guidelines for optimizing experimental conditions to analyze protein mobility in one-dimensional systems.
Article Abstract
Fluorescence microscopy in conjunction with optical tweezers is well suited to the study of protein mobility on DNA. Here, we evaluate the benefits and drawbacks of super-resolution and conventional imaging techniques for the analysis of one-dimensional (1D) protein diffusion as commonly observed for DNA-binding proteins. In particular, we demonstrate the visualization of DNA-bound proteins using wide-field, confocal, and stimulated emission depletion (STED) microscopy. We review the suitability of these techniques to conditions of high protein density, and quantify their performance in terms of spatial and temporal resolution. Tracking proteins on DNA forces one to make a choice between localization precision on the one hand, and the number and rate of localizations on the other, by altering imaging modality, excitation intensity, and acquisition rate. Using simulated diffusion data, we quantify the effect of these imaging conditions on the accuracy of 1D diffusion analysis. In addition, we consider the case of diffusion confined between local roadblocks, a case particularly relevant for proteins bound to DNA. Together these results provide guidelines that can assist in judiciously optimizing the experimental conditions required for the analysis of protein mobility on DNA and other 1D systems.
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| http://dx.doi.org/10.1002/cphc.201300813 | DOI Listing |
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