2005
DOI: 10.1074/jbc.m412389200
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Agonist-mediated Conformational Changes in Acetylcholine-binding Protein Revealed by Simulation and Intrinsic Tryptophan Fluorescence

Abstract: Chemical signaling throughout the organism is initiated by molecular recognition of small biomolecules by receptor binding sites. Recognition is accompanied by conformational changes of the binding site, through induced fit, selection of pre-existing conformers, or a combination of the two, and these are amplified over distance and time to produce the biological response. In the case of rapidly gated synaptic receptors, the amplification propagates within the receptor macromolecule itself and occurs within as … Show more

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Cited by 126 publications
(145 citation statements)
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“…The C loop (residues 180-197 in each subunit) encloses the pocket in which the ligand would bind. This finding is consistent with previous studies (50,51) that indicate that the C loop is mobile when no ligand is present and that contact of the C loop with a bound ligand, as in the liganded AChBP structure (23), helps stabilize the binding pocket and the C loop in a more closed state. Therefore an open͞mobile C loop, in at least two subunits, seems to correlate with a closed state of the TM channel.…”
Section: Homology Model Analysissupporting
confidence: 82%
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“…The C loop (residues 180-197 in each subunit) encloses the pocket in which the ligand would bind. This finding is consistent with previous studies (50,51) that indicate that the C loop is mobile when no ligand is present and that contact of the C loop with a bound ligand, as in the liganded AChBP structure (23), helps stabilize the binding pocket and the C loop in a more closed state. Therefore an open͞mobile C loop, in at least two subunits, seems to correlate with a closed state of the TM channel.…”
Section: Homology Model Analysissupporting
confidence: 82%
“…The lack of motion in the Cys loop is somewhat contrary to previous observations seen in LBD-only simulations (32), and this difference likely represents the influence of the associated TMD. Movements of the C loop, similar to those seen here, have been observed (50,51), and the opposite behavior, with the C loop being held over the binding site by a ligand, also has been noted (50).…”
Section: Conclusion and Discussionsupporting
confidence: 57%
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“…McCammon and coworkers (17) also carried out targeted MD simulations, in which the C loop is pulled from the ''up'' to the ''down'' position (side view in Fig. S1B); the latter position is observed when an agonist is bound (20). This downward motion of the C loop triggers the motion of the tip of the F loop, the C terminus of ␤10, and the ␤1-␤2 loop in the opposite direction.…”
mentioning
confidence: 99%
“…17 The method we discuss here extends this analysis by (a) using multiple samples to calibrate state definitions and (b) demonstrating the ability to predict the states of a ligandbound AChBP structures.…”
Section: Introductionmentioning
confidence: 99%