A Physical Chemist's Expedition to Explore the World of Membrane Proteins

Chan, Sunney I.

doi:10.1146/annurev.biophys.050708.133713

Cited by 5 publications

(2 citation statements)

References 108 publications

(108 reference statements)

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“…For some time, investigators attempted to use sonicated liposomes, which do yield NMR signals from the lipids; however, these results were mired in controversy about the severe curvature affecting the packing of the lipids, and possible effects on associated proteins (14). It is uncertain whether any NMR signals have been detected from helical proteins in lipid bilayers, whether sonicated or not, by solution NMR methods.…”

Section: Introductionmentioning

confidence: 99%

Structure Determination of Membrane Proteins by Nuclear Magnetic Resonance Spectroscopy

Opella

2013

Annual Rev. Anal. Chem.

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Many biological membranes consist of 50% or more (by weight) membrane proteins, which constitute approximately one-third of all proteins expressed in biological organisms. Helical membrane proteins function as receptors, enzymes, and transporters, among other unique cellular roles. Additionally, most drugs have membrane proteins as their receptors, notably the superfamily of G protein–coupled receptors with seven transmembrane helices. Determining the structures of membrane proteins is a daunting task because of the effects of the membrane environment; specifically, it has been difficult to combine biologically compatible environments with the requirements for the established methods of structure determination. There is strong motivation to determine the structures in their native phospholipid bilayer environment so that perturbations from nonnatural lipids and phases do not have to be taken into account. At present, the only method that can work with proteins in liquid crystalline phospholipid bilayers is solid-state NMR spectroscopy.

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Section: Introductionmentioning

confidence: 99%

Structure Determination of Membrane Proteins by Nuclear Magnetic Resonance Spectroscopy

Opella

2013

Annual Rev. Anal. Chem.

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“…A redox-linked proton pump is a complex molecular machine (3)(4)(5)(6). First, there must be sufficient redox energy to drive the protons uphill: in the case of cytochrome c oxidase, against the protomotive force that exists across the inner membrane of the mitochrondrion.…”

Section: +mentioning

confidence: 99%