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Carr-Purcell Pulsed Electron Double Resonance with Shaped Inversion Pulses

Overview
Journal J Phys Chem Lett
Publisher American Chemical Society
Specialty Chemistry
Date 2015 Nov 6
PMID 26538047
Citations 24
Authors
Philipp E Spindler
Izabela Waclawska
Burkhard Endeward
Jorn Plackmeyer
Christine Ziegler
Thomas F Prisner
Affiliations
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Abstract

Pulsed electron paramagnetic resonance (EPR) spectroscopy allows the determination of distances, in the range of 1.5-8 nm, between two spin-labels attached to macromolecules containing protons. Unfortunately, for hydrophobic lipid-bound or detergent-solubilized membrane proteins, the maximum distance accessible is much lower, because of a strongly reduced coherence time of the electron spins. Here we introduce a pulse sequence, based on a Carr-Purcell decoupling scheme on the observer spin, where each π-pulse is accompanied by a shaped sech/tanh inversion pulse applied to the second spin, to overcome this limitation. This pump/probe excitation scheme efficiently recouples the dipolar interaction, allowing a substantially longer observation time window to be achieved. This increases the upper limit and accuracy of distances that can be determined in membrane protein complexes. We validated the method on a bis-nitroxide model compound and applied this technique to the trimeric betaine transporter BetP. Interprotomer distances as long as 6 nm could be reliably determined, which is impossible with the existing methods.

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