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  • Title: Palmitoylation-induced conformational changes of specific side chains in the gramicidin transmembrane channel.
    Author: Koeppe RE, Killian JA, Vogt TC, de Kruijff B, Taylor MJ, Mattice GL, Greathouse DV.
    Journal: Biochemistry; 1995 Jul 25; 34(29):9299-306. PubMed ID: 7542918.
    Abstract:
    To gain insight into the structural consequences of acylation for membrane proteins, we have covalently attached palmitic acid to the ethanolamine end of gramicidin A (gA), which functions as a well-characterized cation-selective membrane channel. Next, we investigated by NMR methods the effect of acylation on the side chains of Trp9, Leu10, and Trp11, which are expected to be close to the acyl chain, and of Val7, which is expected to be far from the acyl chain. Two-dimensional NMR spectroscopy in a sodium dodecyl sulfate (SDS) environment suggests that one of the beta-hydrogens of Leu10 of gA is severely shielded by a nearby aromatic ring. This shielding disappears upon acylation. Deuterium NMR spectra for labeled samples in hydrated dimyristoylphosphatidylcholine (DMPC) bilayers show that, for the major gA conformation, the (deuterated) side chains of Trp9 and Leu10 are markedly influenced by acylation, whereas the side chains of Val7 and Trp11 are essentially unaffected. The NMR results in both environments suggest that the indole ring of Trp9 is situated near the side chain of Leu10 and moves away upon acylation. We propose that acylation provides a subtle mechanism to modulate protein and lipid interactions and to regulate the stability and function of proteins within membranes.
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