20682257

pubmed:Citation

3

The gating isomerization of neuromuscular acetylcholine receptors links the rearrangements of atoms at two transmitter-binding sites with those at a distant gate region in the pore. To explore the mechanism of this reversible process, we estimated the gating rate and equilibrium constants for receptors with point mutations of alpha-subunit residues located between the binding sites and the membrane domain (N95, A96, Y127, and I49). The maximum energy change caused by a side-chain substitution at alphaA96 was huge (approximately 8.6 kcal/mol, the largest value measured so far for any alpha-subunit amino acid). A Phi-value analysis suggests that alphaA96 experiences its change in energy (structure) approximately synchronously with residues alphaY127 and alphaI49, but after the agonist molecule and other residues in loop A. Double mutant-cycle experiments show that the energy changes at alphaA96 are strongly coupled with those of alphaY127 and alphaI49. We identify a column of mutation-sensitive residues in the alpha-subunit that may be a pathway for energy transfer through the extracellular domain in the gating isomerization.

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http://linkedlifedata.com/resource/pubmed/journal/0370626

http://linkedlifedata.com/resource/pubmed/chemical/Cholinergic Agonists, http://linkedlifedata.com/resource/pubmed/chemical/Receptors, Cholinergic

Aug

pubmed-author:AuerbachAnthonyA, pubmed-author:CaduganDavid JDJ

Electronic

99

Y

2011-8-25

2010

Department of Physiology and Biophysics, State University of New York, Buffalo, New York, USA.