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OCA

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 ==Overview==
-Tissue-type plasminogen activator (t-PA), a multidomainal serine, proteinase of the trypsin-family, catalyses the rate-limiting step in, fibrinolysis, the activation of plasminogen to the fibrin-degrading, proteinase plasmin. Trigonal crystals have been obtained of the, recombinant catalytic domain of human-two-chain t-PA, consisting of a 17, residue A chain and the 252 residue B chain. Its X-ray crystal structure, has been solved applying Patterson and isomorphous replacement methods, and has been crystallographically refined to an R-value of 0.184 at 2.3 A, resolution. The chain fold, active-site geometry and Ile276-Asp477 salt, bridge are similar to that observed for trypsin. A few surface-located, insertion loops differ significantly, however. The disulfide bridge, Cys315-Cys384, practically unique to the plasminogen activators, is, incorporated without drastic conformational changes as the insertion loop, preceding Cys384 makes a bulge on the molecular surface. The unique basic, insertion loop Lys296-Arg304 flanking the primed subsites, which has been, shown to be of importance for PAI-1 binding and for fibrin specificity, is, partially disordered; it can therefore freely adapt to proteins docking to, the active site. The S1 pocket of t-PA is almost identical to that of, trypsin, whereas the S2 site is considerably reduced in size by the, imposing Tyr368 side-chain, in agreement with the measured preference for, P1 Arg and P2 Gly residues. The neighbouring S3-S4 hydrophobic groove is, mainly hydrophobic in nature. The structure of the proteinase domain of, two-chain t-PA suggests that the formation of a salt bridge between Lys429, and Asp477 may contribute to the unusually high catalytic activity of, single-chain t-PA, thus stabilizing the catalytically active conformation, without unmasking the Ile276 amino terminus. Modeling studies show that, the covalently bound kringle 2 domain in full-length t-PA could interact, with an extended hydrophobic groove in the catalytic domain; in such a, docking geometry its "lysine binding site" and the "fibrin binding patch", of the catalytic domain are in close proximity.
+Tissue-type plasminogen activator (t-PA), a multidomainal serine proteinase of the trypsin-family, catalyses the rate-limiting step in fibrinolysis, the activation of plasminogen to the fibrin-degrading proteinase plasmin. Trigonal crystals have been obtained of the recombinant catalytic domain of human-two-chain t-PA, consisting of a 17 residue A chain and the 252 residue B chain. Its X-ray crystal structure has been solved applying Patterson and isomorphous replacement methods, and has been crystallographically refined to an R-value of 0.184 at 2.3 A resolution. The chain fold, active-site geometry and Ile276-Asp477 salt bridge are similar to that observed for trypsin. A few surface-located insertion loops differ significantly, however. The disulfide bridge Cys315-Cys384, practically unique to the plasminogen activators, is incorporated without drastic conformational changes as the insertion loop preceding Cys384 makes a bulge on the molecular surface. The unique basic insertion loop Lys296-Arg304 flanking the primed subsites, which has been shown to be of importance for PAI-1 binding and for fibrin specificity, is partially disordered; it can therefore freely adapt to proteins docking to the active site. The S1 pocket of t-PA is almost identical to that of trypsin, whereas the S2 site is considerably reduced in size by the imposing Tyr368 side-chain, in agreement with the measured preference for P1 Arg and P2 Gly residues. The neighbouring S3-S4 hydrophobic groove is mainly hydrophobic in nature. The structure of the proteinase domain of two-chain t-PA suggests that the formation of a salt bridge between Lys429 and Asp477 may contribute to the unusually high catalytic activity of single-chain t-PA, thus stabilizing the catalytically active conformation without unmasking the Ile276 amino terminus. Modeling studies show that the covalently bound kringle 2 domain in full-length t-PA could interact with an extended hydrophobic groove in the catalytic domain; in such a docking geometry its "lysine binding site" and the "fibrin binding patch" of the catalytic domain are in close proximity.
 ==Disease==
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 [[Category: serine protease]]
-''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Fri Feb 15 16:49:53 2008''
+''Page seeded by [http://oca.weizmann.ac.il/oca OCA ] on Thu Feb 21 14:54:18 2008''