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W2002146268 abstract "Experimental folding studies of membrane proteins are more challenging than water-soluble proteins because of the higher hydrophobicity content of membrane embedded sequences and the need to provide a hydrophobic milieu for the transmembrane regions. The first challenge is their denaturation: due to the thermodynamic instability of polar groups in the membrane, secondary structures in membrane proteins are more difficult to disrupt than in soluble proteins. The second challenge is to refold from the denatured states. Successful refolding of membrane proteins has almost always been from very subtly denatured states. Therefore, it can be useful to analyze membrane protein folding using computational methods, and we will provide results obtained with simulated unfolding of membrane protein structures using the Floppy Inclusions and Rigid Substructure Topography (FIRST) method. Computational methods have the advantage that they allow a direct comparison between diverse membrane proteins. We will review here both, experimental and FIRST studies of the retinal binding proteins bacteriorhodopsin and mammalian rhodopsin, and discuss the extension of the findings to deriving hypotheses on the mechanisms of folding of membrane proteins in general. This article is part of a Special Issue entitled: Retinal Proteins—You can teach an old dog new tricks." @default.
W2002146268 created "2016-06-24" @default.
W2002146268 creator A5051657734 @default.
W2002146268 creator A5065265042 @default.
W2002146268 creator A5070046456 @default.
W2002146268 creator A5089315877 @default.
W2002146268 date "2014-05-01" @default.
W2002146268 modified "2023-10-11" @default.
W2002146268 title "Retinal proteins as model systems for membrane protein folding" @default.
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W2002146268 doi "https://doi.org/10.1016/j.bbabio.2013.11.021" @default.
W2002146268 hasPubMedId "https://pubmed.ncbi.nlm.nih.gov/24333783" @default.
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