Solid-state NMR Analysis of the Sodium Pump Krokinobacter Rhodopsin 2 and Its H30A Mutant

Overview

Journal J Struct Biol

Specialties Cell Biology
Molecular Biology

Date 2018 Jun 8

PMID 29879487

Citations 15

Authors

Jagdeep Kaur

Clara Nassrin Kriebel

Peter Eberhardt

Orawan Jakdetchai

Alexander J Leeder

Ingrid Weber

Lynda J Brown

Richard C D Brown

Johanna Becker-Baldus

Christian Bamann

Josef Wachtveitl

Clemens Glaubitz

Affiliations

Soon will be listed here.

Abstract

Krokinobacter eikastus rhodopsin 2 (KR2) is a pentameric, light-driven ion pump, which selectively transports sodium or protons. The mechanism of ion selectivity and transfer is unknown. By using conventional as well as dynamic nuclear polarization (DNP)-enhanced solid-state NMR, we were able to analyse the retinal polyene chain between positions C10 and C15 as well as the Schiff base nitrogen in the KR2 resting state. In addition, 50% of the KR2 C and N resonances could be assigned by multidimensional high-field solid-state NMR experiments. Assigned residues include part of the NDQ motif as well as sodium binding sites. Based on these data, the structural effects of the H30A mutation, which seems to shift the ion selectivity of KR2 primarily to Na, could be analysed. Our data show that it causes long-range effects within the retinal binding pocket and at the extracellular Na binding site, which can be explained by perturbations of interactions across the protomer interfaces within the KR2 complex. This study is complemented by data from time-resolved optical spectroscopy.

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