2006
DOI: 10.1074/jbc.m605530200
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Crystal Structure of Thrombin in a Self-inhibited Conformation

Abstract: The activating effect of Na ؉ on thrombin is allosteric and depends on the conformational transition from a low activity Na ؉ -free (slow) form to a high activity Na ؉ -bound (fast) form. The structures of these active forms have been solved. Recent structures of thrombin obtained in the absence of Na ؉ have also documented inactive conformations that presumably exist in equilibrium with the active slow form. The validity of these inactive slow form structures, however, is called into question by the presence … Show more

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Cited by 46 publications
(106 citation statements)
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“…The results have been interpreted in terms of molecular dynamics calculations as a gross perturbation of the active site moiety propagating long-range from the site of deletion in the A chain [9]. Notably, the perturbed structure produced by modeling contains features documented in the X-ray crystal structure of the inactive form of thrombin E* [25]. Recent measurements of the pKa of the catalytic His57 further support a direct effect on active site residues [10].…”
Section: Resultsmentioning
confidence: 99%
“…The results have been interpreted in terms of molecular dynamics calculations as a gross perturbation of the active site moiety propagating long-range from the site of deletion in the A chain [9]. Notably, the perturbed structure produced by modeling contains features documented in the X-ray crystal structure of the inactive form of thrombin E* [25]. Recent measurements of the pKa of the catalytic His57 further support a direct effect on active site residues [10].…”
Section: Resultsmentioning
confidence: 99%
“…However, the structure documents a large conformational change that propagates from Phe-34 and Arg-73 in exosite I to Trp-215 in the aryl binding site and Arg-221a in the 220-loop located up to 28-Å away on the opposite side of the active site relative to exosite I. The conformational change is revealed by comparison of the structure of D102N bound to the fragment of PAR1 at exosite I with that of the free mutant solved recently (42). The free mutant D102N folds in a self-inhibited conformation with the active site occluded (Fig.…”
Section: Resultsmentioning
confidence: 99%
“…Further downstream from Trp-215, Arg-221a relinquishes its ion-pair interaction with Glu-146 in the autolysis loop and penetrates the 220-loop to engage the carboxylate of Asp-189 in the primary specificity pocket with its guanidinium group. The drastic rearrangement of the 215-219 ␤-strand and the 220-loop shift the orientation of the Cys-191:Cys-220 disulfide bond and propagate the perturbation up to the oxyanion hole where the backbone N atom of Gly-193 is flipped relative to wild type (42). Binding of PAR1 to exosite I reverses all of these drastic changes and shifts the conformation of D102N into that of wild-type thrombin (21, 41) using a long-range allosteric communication between exosite I and the active site.…”
Section: Resultsmentioning
confidence: 99%
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