Measuring Nanometer Distances in Proteins and Rigid Rulers between <sup>19</sup>F and Gd<sup>3+</sup> by Integration of <sup>19</sup>F-ENDOR Signal Intensities
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Judd, Martyna
Qi, Mian
Abdelkader, Elwy H.
Qianzhu, Haocheng
Savitsky, Anton
Huber, Thomas
Harmer, Jeffrey R.
Godt, Adelheid
Otting, Gottfried
Cox, Nicholas
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19F ENDOR is emerging as a powerful tool in structural biology for measuring distances in proteins labeled with 19F and a paramagnetic tag. Due to spin-spin relaxation and line width limitations, it has been difficult to determine intertag distances larger than about 15 Å. Using a set of geometrically well-defined rulers and spin-labeled proteins, we show that 19F-Gd3+ distances up to 20 Å can be accessed by integrating the intensity of the ENDOR spectrum, with distances approaching 30 Å potentially in reach as well. This method is robust when the intensities are scaled to a known reference, and provides scope for nanometer-scale triangulation of the coordinates of a ligand in a protein-ligand complex.
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Journal of the American Chemical Society
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