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Origins of the specificity of tissue-type plasminogen activator

Origins of the specificity of tissue-type plasminogen activator

http://www.wikidata.org/entity/Q33993454

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Internally quenched fluorescent peptide substrates disclose the subsite preferences of human caspases 1, 3, 6, 7 and 8 Profiling constitutive proteolytic events in vivo Determinants of Affinity and Proteolytic Stability in Interactions of Kunitz Family Protease Inhibitors with Mesotrypsin Structural mapping of the active site specificity determinants of human tissue-type plasminogen activator. Implications for the design of low molecular weight substrates and inhibitors Reaction kinetics of protease with substrate phage. Kinetic model developed using stromelysin.Substrate specificity of human collagenase 3 assessed using a phage-displayed peptide library.A unique substrate recognition profile for matrix metalloproteinase-2.Discovery of substrate for type I signal peptidase SpsB from Staphylococcus aureus.Synthesis of positional-scanning libraries of fluorogenic peptide substrates to define the extended substrate specificity of plasmin and thrombin.Rapid and general profiling of protease specificity by using combinatorial fluorogenic substrate libraries Engineering exosite peptides for complete inhibition of factor VIIa using a protease switch with substrate phage.Substrate specificity of the Escherichia coli outer membrane protease OmpT.Phage display substrate: a blind method for determining protease specificity.Role of P225 and the C136-C201 disulfide bond in tissue plasminogen activator.Structural and energetic determinants of the S1-site specificity in serine proteases.The amyloid precursor protein/protease nexin 2 Kunitz inhibitor domain is a highly specific substrate of mesotrypsin.Structural and kinetic determinants of protease substrates Structural requirements for activation of latent platelet-derived growth factor CC by tissue plasminogen activator.Screening E3 substrates using a live phage display library Proteolytic regulation of epithelial sodium channels by urokinase plasminogen activator: cutting edge and cleavage sites.Why Ser and not Thr brokers catalysis in the trypsin fold Small Molecule Active Site Directed Tools for Studying Human Caspases Distinguishing the specificities of closely related proteases. Role of P3 in substrate and inhibitor discrimination between tissue-type plasminogen activator and urokinase.Novel cross-talk between three cardiovascular regulators: thrombin cleavage fragment of Jagged1 induces fibroblast growth factor 1 expression and release A residue in the S2 subsite controls substrate selectivity of matrix metalloproteinase-2 and matrix metalloproteinase-9.Molecular determinants involved in activation of caspase 7 Microglial-mediated PDGF-CC activation increases cerebrovascular permeability during ischemic stroke.Revisiting catalysis by chymotrypsin family serine proteases using peptide substrates and inhibitors with unnatural main chains.Lysine 156 promotes the anomalous proenzyme activity of tPA: X-ray crystal structure of single-chain human tPA.An overview of serine proteases.Localization of epitopes for monoclonal antibodies to urokinase-type plasminogen activator: relationship between epitope localization and effects of antibodies on molecular interactions of the enzyme.Substrate hydrolysis by matrix metalloproteinase-9.Optimal subsite occupancy and design of a selective inhibitor of urokinase.Identification of a hydrophobic exosite on tissue type plasminogen activator that modulates specificity for plasminogen.Variants of tissue-type plasminogen activator that display extraordinary resistance to inhibition by the serpin plasminogen activator inhibitor type 1.Directing sequence-specific proteolysis to new targets. The influence of loop size and target sequence on selective proteolysis by tissue-type plasminogen activator and urokinase-type plasminogen activator.Trimeresurus stejnegeri snake venom plasminogen activator. Site-directed mutagenesis and molecular modeling.

P2860

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P2860

Origins of the specificity of tissue-type plasminogen activator

http://www.wikidata.org/entity/Q33993454

description

1995 nî lūn-bûn

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1995 թուականի Օգոստոսին հրատարակուած գիտական յօդուած

@hyw

1995 թվականի օգոստոսին հրատարակված գիտական հոդված

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1995年の論文

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1995年論文

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1995年論文

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1995年論文

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1995年論文

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1995年論文

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1995年论文

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name

Origins of the specificity of tissue-type plasminogen activator

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Origins of the specificity of tissue-type plasminogen activator

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Origins of the specificity of tissue-type plasminogen activator

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Origins of the specificity of tissue-type plasminogen activator

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prefLabel

Origins of the specificity of tissue-type plasminogen activator

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Origins of the specificity of tissue-type plasminogen activator

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P1433

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P932

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P356

PNAS.92.17.7627

P1433

Proceedings of the National Academy of Sciences of the United States of America

P1476

Origins of the specificity of tissue-type plasminogen activator

@en

P2093

D R Corey

http://www.w3.org/2001/XMLSchema#string

E L Madison

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L Ding

http://www.w3.org/2001/XMLSchema#string

L Strandberg

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M Navre

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P2860

Determination of the operational molarity of solutions of bovine alpha-chymotrypsin, trypsin, thrombin and factor Xa by spectrofluorimetric titration

Kinetics of the activation of plasminogen by human tissue plasminogen activator. Role of fibrin

Structural basis of substrate specificity in the serine proteases

Peptides on phage: a vast library of peptides for identifying ligands

Rapid identification of highly active and selective substrates for stromelysin and matrilysin using bacteriophage peptide display libraries.

Substrate phage: selection of protease substrates by monovalent phage display.

Proteolytic processing and physiological regulation.

The versatility of proteolytic enzymes.

Evolution of proteolytic enzymes.

Cloning and expression of human tissue-type plasminogen activator cDNA in E. coli.

P304

7627-7631

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scholarly article

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17

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92

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41198

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