Gd(III)–Gd(III) Relaxation-Induced Dipolar Modulation Enhancement for In-Cell Electron Paramagnetic Resonance Distance Determination
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In-cell distance determination by electron paramagnetic resonance (EPR) spectroscopy reveals essential structural information about biomacromolecules under native conditions. We demonstrate that the pulsed EPR technique RIDME (relaxation induced dipolar modulation enhancement) can be utilized for such distance determination. The performance of in-cell RIDME has been assessed at Q-band using stiff molecular rulers labeled with Gd(III)-PyMTA and microinjected into Xenopus laevis oocytes. The overtone coefficients are determined to be the same for protonated aqueous solutions and inside cells. As compared to in-cell DEER (double electron–electron resonance, also abbreviated as PELDOR), in-cell RIDME features approximately 5 times larger modulation depth and does not show artificial broadening in the distance distributions due to the effect of pseudosecular terms.
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AZARKH, Mykhailo, Anna BIEBER, Mian QI, Jörg Wolfram Anselm FISCHER, Maxim YULIKOV, Adelheid GODT, Malte DRESCHER, 2019. Gd(III)–Gd(III) Relaxation-Induced Dipolar Modulation Enhancement for In-Cell Electron Paramagnetic Resonance Distance Determination. In: The Journal of Physical Chemistry Letters. 2019, 10(7), pp. 1477-1481. eISSN 1948-7185. Available under: doi: 10.1021/acs.jpclett.9b00340BibTex
@article{Azarkh2019-04-04GdIII-45935, year={2019}, doi={10.1021/acs.jpclett.9b00340}, title={Gd(III)–Gd(III) Relaxation-Induced Dipolar Modulation Enhancement for In-Cell Electron Paramagnetic Resonance Distance Determination}, number={7}, volume={10}, journal={The Journal of Physical Chemistry Letters}, pages={1477--1481}, author={Azarkh, Mykhailo and Bieber, Anna and Qi, Mian and Fischer, Jörg Wolfram Anselm and Yulikov, Maxim and Godt, Adelheid and Drescher, Malte} }
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