lysine has been researched along with aminocaproic acid in 87 studies
| Timeframe | Studies, this research(%) | All Research% |
|---|---|---|
| pre-1990 | 28 (32.18) | 18.7374 |
| 1990's | 29 (33.33) | 18.2507 |
| 2000's | 18 (20.69) | 29.6817 |
| 2010's | 9 (10.34) | 24.3611 |
| 2020's | 3 (3.45) | 2.80 |
| Authors | Studies |
|---|---|
| Barker, HA; Bozler, G; Hensley, C; Ohsugi, M; Robertson, JM | 1 |
| Christensen, U | 2 |
| Cederholm-Williams, SA; Swain, A | 1 |
| Matsuda, H; Ohashi, H; Takada, A; Takada, Y | 1 |
| de Gaetano, G; Donati, MB; Farina, ML; Langer, M | 1 |
| DePasquale, JL; Markus, G; Wissler, FC | 1 |
| Evers, JL; Hobika, GH; Markus, G | 1 |
| Castellino, FJ; De Serrano, VS; Sehl, LC | 1 |
| Christensen, U; Mølgaard, L | 1 |
| Castellino, FJ; De Serrano, VS | 2 |
| Anonick, PK; Gonias, SL; Vasudevan, J | 1 |
| Mulichak, AM; Padmanabhan, K; Tulinsky, A; Wu, TP | 1 |
| Gaffney, PJ; Longstaff, C | 1 |
| Clough, AM; Gaffney, PJ; Longstaff, C | 1 |
| Castellino, FJ; Sehl, LC | 1 |
| Lin, BH; Mangel, WF; Ramakrishnan, V | 1 |
| Kudinov, SA; Matsuka, YV; Novokhatny, VV | 1 |
| Chang, BI; Chang, LC; Gong, CC; Lou, KL; Shi, GY; Wu, DH; Wu, HL | 1 |
| Kudinov, SA; Novokhatny, VV | 1 |
| Boyle, MD; Broeseker, TA; Lottenberg, R | 1 |
| Pannekoek, H; van Zonneveld, AJ; Veerman, H | 1 |
| Castellino, FJ; Chibber, BA; Morris, JP; Smith, JH | 1 |
| Gillessen, D; Lerch, PG; Lergier, W; Rickli, EE | 1 |
| Patthy, L; Váli, Z | 1 |
| Takada, A; Takada, Y | 1 |
| Machovich, R; Owen, WG | 1 |
| Fless, GM; Hoover-Plow, JL; Miles, LA; Plow, EF; Scanu, AM | 1 |
| Boettcher, BR; LoGrasso, PV; Mikol, V | 1 |
| Bakker, AH; Nieuwenbroek, NM; Verheijen, JH | 1 |
| Boffa, MB; Gabel, BR; Hancock, MA; Horrevoets, AJ; Koschinsky, ML; Marcovina, SM; Nesheim, ME; Sangrar, W; Walker, JB | 1 |
| Fless, GM; Furbee, J; Meredith, SC; Santiago, JY | 1 |
| Arai, K; Asakura, S; Madoiwa, S; Matsuda, M; Mimuro, J; Sakata, Y; Sako, T | 1 |
| Royston, D | 1 |
| Chiu, RC; Lee, A; Pelletier, MP; Solymoss, S | 1 |
| Gabel, BR; Koschinsky, ML | 1 |
| Cederholm-Williams, SA; Cockell, CS; Dawson, KM; Marshall, JM; Ponting, CP | 1 |
| Ljungh, A; Pantzar, M; Wadström, T | 1 |
| Choi, KS; Fitzpatrick, SL; Kang, HM; Kassam, G; Le, BH; Louie, P; Waisman, DM | 1 |
| Deadman, JJ; Ellis, V; Werner, F; Whawell, SA | 1 |
| Gonias, SL; Hembrough, TA; Karns, LR; Kralovich, KR; Li, L; Webb, DJ | 1 |
| Cheng, B; Klezovitch, O; Mochalkin, I; Scanu, AM; Tulinsky, A | 1 |
| Biswas, P; Perazella, MA | 1 |
| Fless, GM; Halfman, CJ; Kirk, EW | 1 |
| Dikshit, KL; Rajamohan, G | 1 |
| Brosch, G; Hoffmann, K; Jung, M; Loidl, P | 1 |
| Bock, PE; Boxrud, PD | 1 |
| Burke, TA; Felez, J; Herren, T; Jardi, M; Plow, EF | 1 |
| Hoover-Plow, J; Yuen, L | 1 |
| Gaubatz, JW; Ghazzaly, KG; Guevara, J; Hoffman, AS; Hoogeveen, RC; Koschinsky, ML; Morrisett, JD; Pownall, HJ | 1 |
| Becker, L; Chitayat, S; Koschinsky, ML; Nesheim, ME; Webb, BA | 1 |
| Barre, D | 1 |
| NAGAMATSU, A; OKUMA, T; WATANABE, M; YAMAMURA, Y | 1 |
| DONALDSON, VH | 1 |
| LOWNEY, ED | 1 |
| ERDOES, EG; SLOANE, EM; WOHLER, IM | 1 |
| KIM, S; PAIK, WK | 1 |
| FUDENBERG, H; TAYLOR, FB | 1 |
| DAVIES, MC; DERENZO, EC; ENGLERT, ME | 1 |
| ATCHLEY, WA; BHAGAVAN, NV; MASOUREDIS, SP | 1 |
| BRADY, BL | 1 |
| ALLISON, F; LANCASTER, MG | 1 |
| FUJII, S; MAKINO, S; MURAMATU, M; ONISHI, T; YAMAMURA, Y | 2 |
| LEWANDOWSKI, V; MAXWELL, RE; NICKEL, VS | 1 |
| Bean, RR; Bock, PE; Verhamme, IM | 1 |
| Davies, MJ; Pattison, DI | 1 |
| Stief, TW | 1 |
| McMurdy, N; Trudell, J | 1 |
| Blanchevoye, C; Garnotel, R; Gillery, P; Jaisson, S; Perreau, C; Sartelet, H | 1 |
| Bock, PE; Verhamme, IM | 1 |
| Cho, T; Jung, Y; Koschinsky, ML | 1 |
| Murata, M; Ono, H; Sakamoto, J; Takenaka, M | 1 |
| Bruzgo, I; Markowska, A; Midura-Nowaczek, K; Purwin, M | 1 |
| Doctor, V; Kouemo, S; McMillan, E | 1 |
| Murata, M; Nomi, Y; Ono, H; Sakamoto, J; Takenaka, M | 1 |
| Brunskill, SJ; Doree, C; Estcourt, LJ; Murphy, MF; Stanworth, S; Trivella, M; Wardrop, D | 1 |
| Beck, A; Breau, RH; Buenaventura, C; Cagiannos, I; Cowan, J; Fergusson, DA; Knoll, G; Kokolo, MB; Momoli, F; Morash, C; Niznick, N; Punjani, N; Ruzicka, M; Schachkina, S; Tinmouth, A; Xie, HY | 1 |
| Chytil, M; Kovalenko, A; Trojan, M | 1 |
| Brunskill, SJ; Desborough, M; Doree, C; Estcourt, LJ; Hopewell, S; Murphy, MF; Stanworth, SJ | 1 |
| Breau, RH; Cagiannos, I; Cnossen, S; Fergusson, DA; Fergusson, NA; Hutton, B; Lavallée, LT; Montroy, J; Morash, C | 1 |
| Baidoo, EE; Barajas, JF; Burdu, M; Keasling, JD; Wang, G; Zhang, J | 1 |
| Chen, P; Cheng, J; Song, A; Wang, D; Wang, Q | 1 |
| Breau, RH; Cagiannos, I; Fergusson, DA; Flaman, A; Hutton, B; Lavallée, LT; Montroy, J; Morash, C; Tinmouth, A | 1 |
| Jarocka-Karpowicz, I; Markowska, A; Markowski, AR | 1 |
| Gailani, D; Ivanov, I; Law, RHP; Litvak, M; Maddur, A; McCarty, OJT; Mohammed, BM; Shaban, R; Shamanaev, A; Srivastava, P; Sun, MF; Verhamme, IM | 1 |
8 review(s) available for lysine and aminocaproic acid
| Article | Year |
|---|---|
Aprotinin versus lysine analogues: the debate continues.
Topics: Aminocaproic Acid; Antifibrinolytic Agents; Aprotinin; Blood Transfusion; Cardiac Surgical Procedures; Hemostasis, Surgical; Hemostatics; Humans; Lysine; Tranexamic Acid | 1998 |
Current antifibrinolytic therapy for coronary artery revascularization.
Topics: Aminocaproic Acid; Antifibrinolytic Agents; Aprotinin; Blood Loss, Surgical; Blood Transfusion; Coronary Artery Bypass; Humans; Lysine; Patient Selection; Postoperative Hemorrhage; Risk Factors; Safety Management; Serine Proteinase Inhibitors; Tranexamic Acid; Treatment Outcome | 2008 |
Antifibrinolytics (lysine analogues) for the prevention of bleeding in patients with haematological disorders.
Topics: Aminocaproic Acid; Antifibrinolytic Agents; Erythrocyte Transfusion; Hematologic Diseases; Hemorrhage; Humans; Lysine; Platelet Transfusion; Thrombocytopenia; Tranexamic Acid | 2013 |
The effects of lysine analogs during pelvic surgery: a systematic review and meta-analysis.
Topics: Aminocaproic Acid; Blood Loss, Surgical; Blood Transfusion; Gynecologic Surgical Procedures; Hemorrhage; Humans; Lysine; Randomized Controlled Trials as Topic; Risk; Surgical Procedures, Operative; Thrombosis; Tranexamic Acid; Treatment Outcome; Urologic Surgical Procedures, Male | 2014 |
Antifibrinolytics (lysine analogues) for the prevention of bleeding in people with haematological disorders.
Topics: Aminocaproic Acid; Antifibrinolytic Agents; Erythrocyte Transfusion; Hematologic Diseases; Hemorrhage; Humans; Lysine; Platelet Transfusion; Thrombocytopenia; Thromboembolism; Tranexamic Acid | 2016 |
The Safety and Efficacy of Lysine Analogues in Cancer Patients: A Systematic Review and Meta-Analysis.
Topics: Adult; Aminocaproic Acid; Blood Loss, Surgical; Blood Transfusion; Erythrocyte Transfusion; Humans; Lysine; Neoplasms; Patient Safety; Platelet Transfusion; Randomized Controlled Trials as Topic; Tranexamic Acid; Treatment Outcome; Venous Thrombosis | 2017 |
Expanding lysine industry: industrial biomanufacturing of lysine and its derivatives.
Topics: Amino Acids; Amino Acids, Neutral; Aminocaproic Acid; Biocompatible Materials; Cadaverine; Caprolactam; Chemistry, Pharmaceutical; Corynebacterium glutamicum; Escherichia coli; Fermentation; Green Chemistry Technology; Industrial Microbiology; Lactams; Lysine; Pipecolic Acids; Piperidones; Polymers | 2018 |
The Importance of 6-Aminohexanoic Acid as a Hydrophobic, Flexible Structural Element.
Topics: Amino Acid Sequence; Amino Acids; Aminocaproic Acid; Antifibrinolytic Agents; Binding Sites; Humans; Hydrophobic and Hydrophilic Interactions; Lysine; Peptides | 2021 |
79 other study(ies) available for lysine and aminocaproic acid
| Article | Year |
|---|---|
Metabolism of L-beta-lysine in a Pseudomonas: conversion of 6-N-acetyl-L-beta-lysine to 3-keto-6-acetamidohexanoate and of 4-aminobutyrate to succinic semialdehyde by different transaminases.
Topics: Aminocaproates; Aminocaproic Acid; Enzyme Induction; gamma-Aminobutyric Acid; Hydrogen-Ion Concentration; Kinetics; Lysine; Pseudomonas; Pyridoxal Phosphate; Pyruvates; Substrate Specificity; Transaminases | 1979 |
Allosteric effects of some antifibrinolytic amino acids on the catalytic activity of human plasmin.
Topics: Allosteric Regulation; Allosteric Site; Aminocaproic Acid; Antifibrinolytic Agents; Binding Sites; Catalysis; Enzyme Activation; Fibrinolysin; Humans; Kinetics; Lysine; Mathematics; Tranexamic Acid | 1978 |
The effect of fibrinogen degradation products and some lysine analogues on the dissociation of plasmin(ogen)-fibrin complexes.
Topics: Aminocaproic Acid; Animals; Cattle; Fibrin; Fibrin Fibrinogen Degradation Products; Fibrinolysin; Fibrinolysis; Humans; Lysine; Plasminogen; Protein Binding; Tranexamic Acid | 1979 |
Effects of tranexamic acid, cis-AMCHA, and 6-aminohexanoic acid on the activation rate of plasminogen by urokinase in the presence of clot.
Topics: Aminocaproates; Aminocaproic Acid; Animals; Antifibrinolytic Agents; Blood Coagulation; Cattle; Cyclohexanecarboxylic Acids; Endopeptidases; Humans; Isomerism; Lysine; Oligopeptides; Plasminogen; Thrombin; Tranexamic Acid; Urokinase-Type Plasminogen Activator | 1979 |
Antiplatelet treatment in septic shock with severe bleeding and thrombocytopenia.
Topics: Adult; Aminocaproic Acid; Aspirin; Dipyridamole; Female; Humans; Lysine; Platelet Aggregation; Purpura, Thrombotic Thrombocytopenic; Shock, Septic | 1977 |
Quantitative determination of the binding of epsilon-aminocaproic acid to native plasminogen.
Topics: Aminocaproates; Aminocaproic Acid; Binding, Competitive; Humans; Lysine; Plasminogen; Protein Binding; Ultrafiltration | 1978 |
Comparison of some properties of native (Glu) and modified (Lys) human plasminogen.
Topics: Aminocaproic Acid; Enzyme Activation; Glutamates; Humans; Lysine; Plasminogen; Protein Conformation; Streptokinase | 1978 |
Direct identification of lysine-33 as the principal cationic center of the omega-amino acid binding site of the recombinant kringle 2 domain of tissue-type plasminogen activator.
Topics: Amino Acid Sequence; Aminocaproic Acid; Base Sequence; Binding Sites; Humans; Lysine; Models, Molecular; Molecular Sequence Data; Peptide Fragments; Protein Conformation; Recombinant Proteins; Structure-Activity Relationship; Tissue Plasminogen Activator | 1992 |
Positive co-operative binding at two weak lysine-binding sites governs the Glu-plasminogen conformational change.
Topics: Aminocaproic Acid; Binding Sites; Fluorescence Polarization; Humans; Kinetics; Lysine; Peptide Fragments; Plasminogen; Protein Conformation; Tranexamic Acid | 1992 |
The cationic locus on the recombinant kringle 2 domain of tissue-type plasminogen activator that stabilizes its interaction with omega-amino acids.
Topics: Amino Acid Sequence; Amino Acids; Aminocaproic Acid; Base Sequence; Binding Sites; Cations; DNA; Enzyme Stability; Escherichia coli; Lysine; Models, Molecular; Molecular Sequence Data; Molecular Structure; Mutagenesis, Site-Directed; Peptide Fragments; Plasmids; Recombinant Proteins; Tissue Plasminogen Activator; Tranexamic Acid | 1992 |
Antifibrinolytic activities of alpha-N-acetyl-L-lysine methyl ester, epsilon-aminocaproic acid, and tranexamic acid. Importance of kringle interactions and active site inhibition.
Topics: alpha-Macroglobulins; Amidohydrolases; Aminocaproic Acid; Binding Sites; Binding, Competitive; Blood Coagulation; Fibrinolysin; Fibrinolysis; Humans; Kinetics; Lysine; Peptide Fragments; Serum Globulins; Tranexamic Acid | 1992 |
The refined structure of the epsilon-aminocaproic acid complex of human plasminogen kringle 4.
Topics: Amino Acid Sequence; Aminocaproic Acid; Binding Sites; Humans; Lysine; Models, Molecular; Molecular Sequence Data; Peptide Fragments; Plasminogen; X-Ray Diffraction | 1991 |
Serpin-serine protease binding kinetics: alpha 2-antiplasmin as a model inhibitor.
Topics: alpha-Macroglobulins; Aminocaproic Acid; Binding Sites; Chymotrypsin; Fibrinolysin; Humans; Kinetics; Lysine; Models, Biological; Structure-Activity Relationship; Thermodynamics; Tranexamic Acid | 1991 |
Kinetics of plasmin activation of single chain urinary-type plasminogen activator (scu-PA) and demonstration of a high affinity interaction between scu-PA and plasminogen.
Topics: Aminocaproic Acid; Enzyme Activation; Glutamine; Humans; Kinetics; Lysine; Molecular Conformation; Plasminogen; Protein Precursors; Substrate Specificity; Urokinase-Type Plasminogen Activator | 1992 |
Thermodynamic properties of the binding of alpha-, omega-amino acids to the isolated kringle 4 region of human plasminogen as determined by high sensitivity titration calorimetry.
Topics: Amino Acid Sequence; Amino Acids; Aminocaproates; Aminocaproic Acid; beta-Alanine; Binding Sites; Calorimetry; gamma-Aminobutyric Acid; Humans; Hydrogen-Ion Concentration; Lysine; Molecular Sequence Data; Plasminogen; Structure-Activity Relationship; Thermodynamics | 1990 |
Characterization of an extremely large, ligand-induced conformational change in plasminogen.
Topics: Aminocaproic Acid; Binding Sites; Chemical Phenomena; Chemistry, Physical; Circular Dichroism; Deuterium; Humans; Lysine; Neutrons; Plasminogen; Plasminogen Activators; Protein Conformation; Scattering, Radiation; Urokinase-Type Plasminogen Activator; Water | 1990 |
Fluorescence spectroscopic analysis of ligand binding to kringle 1 + 2 + 3 and kringle 1 fragments from human plasminogen.
Topics: Amines; Aminocaproic Acid; Arginine; Binding Sites; Humans; Ligands; Lysine; Pepsin A; Peptide Fragments; Plasminogen; Spectrometry, Fluorescence | 1990 |
Interaction of plasminogen and fibrin in plasminogen activation.
Topics: Aminocaproic Acid; Fibrin; Fibrin Fibrinogen Degradation Products; Humans; Kinetics; Lysine; Molecular Weight; Peptide Fragments; Plasminogen; Tissue Plasminogen Activator | 1990 |
Analysis of ligand binding to kringles 4 and 5 fragments from human plasminogen.
Topics: Amines; Aminocaproic Acid; Arginine; Binding Sites; Humans; In Vitro Techniques; Kinetics; Lysine; Pentanoic Acids; Plasminogen; Thermodynamics | 1989 |
Characterization of the interaction of human plasmin with its specific receptor on a group A streptococcus.
Topics: Aminocaproic Acid; Arginine; Binding, Competitive; Cations, Divalent; Fibrinolysin; Humans; Hydrogen-Ion Concentration; Kinetics; Lysine; Plasminogen; Streptococcus pyogenes | 1988 |
On the interaction of the finger and the kringle-2 domain of tissue-type plasminogen activator with fibrin. Inhibition of kringle-2 binding to fibrin by epsilon-amino caproic acid.
Topics: Aminocaproates; Aminocaproic Acid; Animals; Binding Sites; Chromatography, Affinity; Fibrin; Humans; Lysine; Mice; Peptide Fragments; Protein Conformation; Recombinant Proteins; Tissue Plasminogen Activator | 1986 |
The role of the lysine binding sites of human plasminogen in the fibrinogen stimulated rate of active site formation in the streptokinase-plasminogen equimolar complex.
Topics: Aminocaproic Acid; Binding Sites; Chemical Phenomena; Chemistry; Fibrin Fibrinogen Degradation Products; Humans; Kinetics; Lysine; Plasminogen; Streptokinase | 1984 |
The AH-site of plasminogen and two C-terminal fragments. A weak lysine-binding site preferring ligands not carrying a free carboxylate function.
Topics: Aminocaproates; Aminocaproic Acid; Binding Sites; Chromatography, Affinity; Ligands; Lysine; Macromolecular Substances; Models, Biological; Plasminogen | 1984 |
Localization of individual lysine-binding regions in human plasminogen and investigations on their complex-forming properties.
Topics: Amino Acid Sequence; Aminocaproic Acid; Binding Sites; Chymotrypsin; Humans; Kinetics; Lysine; Pancreatic Elastase; Peptide Fragments; Plasminogen; Protein Binding; Protein Conformation | 1980 |
Essential carboxyl- and guanidino-group in the lysine-binding site of human plasminogen.
Topics: Aminocaproic Acid; Binding Sites; Ethyldimethylaminopropyl Carbodiimide; Humans; Kinetics; Lysine; Plasminogen; Protein Binding; Sepharose | 1980 |
Influence of omega-aminoacids on the activation of the first component of complement at low ionic strength.
Topics: Amino Acids; Aminocaproic Acid; Arginine; Complement Activation; Complement C1; Humans; Hydrogen-Ion Concentration; Lysine; Ornithine | 1981 |
Facilitation of plasminogen activation by a plasmin substrate containing a lysyl residue.
Topics: Aminocaproic Acid; Animals; Binding Sites; Enzyme Activation; Fibrinolysin; Humans; Hydrolysis; Kringles; Lysine; Oligopeptides; Plasminogen; Substrate Specificity; Swine; Urokinase-Type Plasminogen Activator | 1993 |
Comparison of the lysine binding functions of lipoprotein(a) and plasminogen.
Topics: Acetylation; Amino Acid Sequence; Aminocaproic Acid; Binding Sites; Humans; Hydrogen-Ion Concentration; Iodine Radioisotopes; Kringles; Lipoprotein(a); Lysine; Molecular Sequence Data; Plasminogen; Sepharose; Sequence Homology; Structure-Activity Relationship; Tranexamic Acid | 1993 |
Specific anionic residues of the recombinant kringle 2 domain of tissue-type plasminogen activator that are responsible for stabilization of its interaction with omega-amino acid ligands.
Topics: Amino Acid Sequence; Amino Acids; Aminocaproic Acid; Anions; Base Sequence; Binding Sites; Escherichia coli; Lysine; Magnetic Resonance Spectroscopy; Molecular Sequence Data; Molecular Structure; Mutagenesis, Site-Directed; Peptide Fragments; Recombinant Proteins; Thermodynamics; Tissue Plasminogen Activator; Tranexamic Acid; X-Ray Diffraction | 1993 |
Crystal structures of apolipoprotein(a) kringle IV37 free and complexed with 6-aminohexanoic acid and with p-aminomethylbenzoic acid: existence of novel and expected binding modes.
Topics: 4-Aminobenzoic Acid; Amino Acid Sequence; Aminocaproic Acid; Apolipoproteins A; Binding Sites; Crystallization; Crystallography, X-Ray; Kringles; Ligands; Lysine; Models, Molecular; Molecular Sequence Data; Molecular Structure; para-Aminobenzoates; Plasminogen; Protein Binding; Sequence Alignment | 1996 |
Domain-domain interactions in hybrids of tissue-type plasminogen activator and urokinase-type plasminogen activator.
Topics: Amino Acid Sequence; Aminocaproic Acid; Animals; Base Sequence; Binding Sites; CHO Cells; Chromatography, Affinity; Cloning, Molecular; Consensus Sequence; Cricetinae; DNA Primers; Electrophoresis, Polyacrylamide Gel; Fibrin; Kringles; Lysine; Models, Molecular; Molecular Sequence Data; Mutagenesis, Site-Directed; Protein Binding; Protein Engineering; Recombinant Proteins; Tissue Plasminogen Activator; Urokinase-Type Plasminogen Activator | 1995 |
The solution phase interaction between apolipoprotein(a) and plasminogen inhibits the binding of plasminogen to a plasmin-modified fibrinogen surface.
Topics: Aminocaproic Acid; Apolipoproteins A; Binding Sites; Cells, Cultured; Electrophoresis, Polyacrylamide Gel; Fibrinogen; Fibrinolysin; Fluorescent Dyes; Humans; Kidney; Kringles; Lysine; Mutagenesis; Plasminogen; Protein Binding; Recombinant Proteins | 1997 |
Specificity of ligand-induced conformational change of lipoprotein(a).
Topics: Aminocaproic Acid; Glutamic Acid; Ligands; Lipoprotein(a); Lysine; Models, Chemical; Molecular Weight; Osmolar Concentration; Particle Size; Proline; Protein Conformation; Protein Denaturation; Salts; Tranexamic Acid; Ultracentrifugation | 1997 |
Role of the kringle domain in plasminogen activation with staphylokinase.
Topics: Aminocaproic Acid; Binding Sites; Catalysis; Fibrinolysin; Humans; Kringles; Lysine; Metalloendopeptidases; Plasminogen; Protein Binding; Recombinant Proteins | 1998 |
Negative reexploration for cardiac postoperative bleeding: can it be therapeutic?
Topics: Aged; alpha-2-Antiplasmin; Aminocaproic Acid; Antifibrinolytic Agents; Antithrombins; Aortic Valve; Blood Coagulation; Capillaries; Cardiac Surgical Procedures; Coronary Artery Bypass; Fibrin Fibrinogen Degradation Products; Fibrinogen; Fibrinolysis; Fibrinolytic Agents; Hemostasis, Surgical; Hemostatics; Humans; Lysine; Mediastinum; Microcirculation; Mitral Valve; Plasminogen Activator Inhibitor 1; Postoperative Hemorrhage; Reoperation; Serine Proteinase Inhibitors; Therapeutic Irrigation | 1998 |
Sequences within apolipoprotein(a) kringle IV types 6-8 bind directly to low-density lipoprotein and mediate noncovalent association of apolipoprotein(a) with apolipoprotein B-100.
Topics: Aminocaproic Acid; Apolipoprotein B-100; Apolipoproteins; Apolipoproteins B; Apoprotein(a); Humans; Kringles; Lipoprotein(a); Lipoproteins, LDL; Lysine; Proline; Protein Binding; Radioligand Assay; Recombinant Proteins | 1998 |
Evidence that the conformation of unliganded human plasminogen is maintained via an intramolecular interaction between the lysine-binding site of kringle 5 and the N-terminal peptide.
Topics: Amino Acid Substitution; Aminocaproic Acid; Animals; Binding Sites; CHO Cells; Chromatography, High Pressure Liquid; Cricetinae; Enzyme Activation; Glutamic Acid; Humans; Kringles; Ligands; Lysine; Molecular Weight; Mutagenesis, Site-Directed; Plasminogen; Protein Conformation; Recombinant Proteins; Urokinase-Type Plasminogen Activator | 1998 |
Plasminogen binding and activation at the surface of Helicobacter pylori CCUG 17874.
Topics: Aminocaproic Acid; Binding, Competitive; Chromogenic Compounds; Enzyme Activation; Helicobacter pylori; Kringles; Lysine; Membrane Proteins; Oligopeptides; Peptide Fragments; Plasminogen; Plasminogen Activators; Protein Binding | 1998 |
The p11 subunit of the annexin II tetramer plays a key role in the stimulation of t-PA-dependent plasminogen activation.
Topics: alpha-2-Antiplasmin; Aminocaproic Acid; Annexin A2; Cells, Cultured; Enzyme Activation; Fibrinolysin; Humans; Lysine; Mutagenesis; Plasminogen; Plasminogen Activator Inhibitor 1; Receptors, Cell Surface; Recombinant Proteins; Sequence Deletion; Tissue Plasminogen Activator | 1998 |
Assembly of urokinase receptor-mediated plasminogen activation complexes involves direct, non-active-site interactions between urokinase and plasminogen.
Topics: Aminocaproic Acid; Binding Sites; Biosensing Techniques; Cell Membrane; Enzyme Activation; Enzyme Inhibitors; Humans; Lysine; Macromolecular Substances; Oligopeptides; Peptide Fragments; Plasminogen; Plasminogen Activators; Receptors, Cell Surface; Receptors, Urokinase Plasminogen Activator; U937 Cells; Urokinase-Type Plasminogen Activator | 1999 |
Characterization of the binding sites for plasminogen and tissue-type plasminogen activator in cytokeratin 8 and cytokeratin 18.
Topics: Aminocaproic Acid; Binding Sites; Binding, Competitive; Dimerization; Glutathione Transferase; Keratins; Lysine; Mutation; Plasminogen; Recombinant Fusion Proteins; Solutions; Tissue Plasminogen Activator | 1998 |
Recombinant kringle IV-10 modules of human apolipoprotein(a): structure, ligand binding modes, and biological relevance.
Topics: Aminocaproic Acid; Apolipoproteins A; Arginine; Crystallization; Crystallography, X-Ray; Humans; Ligands; Lysine; Models, Molecular; Peptide Fragments; Protein Binding; Recombinant Proteins | 1999 |
Acute hyperkalemia associated with intravenous epsilon-aminocaproic acid therapy.
Topics: Acute Disease; Aged; Aminocaproic Acid; Arginine; Blood Loss, Surgical; Coronary Artery Bypass; Humans; Hyperkalemia; Kidney Failure, Chronic; Lysine; Male; Postoperative Complications | 1999 |
The relationship between the effect of lysine analogues and salt on the conformation of lipoprotein(a).
Topics: Aminocaproic Acid; Citrates; Humans; Kringles; Lipoprotein(a); Lysine; Models, Chemical; Protein Binding; Protein Conformation; Salts; Sodium Chloride; Sodium Citrate; Sodium Iodide | 2000 |
Role of the N-terminal region of staphylokinase (SAK): evidence for the participation of the N-terminal region of SAK in the enzyme-substrate complex formation.
Topics: Amino Acid Sequence; Amino Acid Substitution; Aminocaproic Acid; Binding Sites; Catalysis; Dose-Response Relationship, Drug; Fibrinolysin; Humans; Iodine Radioisotopes; Kinetics; Kringles; Lysine; Metalloendopeptidases; Molecular Sequence Data; Mutation; Peptide Fragments; Plasminogen; Plasminogen Activators; Protein Binding; Protein Processing, Post-Translational; Staphylococcus aureus | 2000 |
First non-radioactive assay for in vitro screening of histone deacetylase inhibitors.
Topics: Aminocaproic Acid; Animals; Chromatography, High Pressure Liquid; Drug Evaluation, Preclinical; Enzyme Inhibitors; Fluorescent Dyes; Histone Deacetylase Inhibitors; Histone Deacetylases; Histones; Liver; Lysine; Rats; Spectrometry, Fluorescence | 2000 |
Streptokinase binds preferentially to the extended conformation of plasminogen through lysine binding site and catalytic domain interactions.
Topics: Amino Acid Chloromethyl Ketones; Aminocaproic Acid; Binding Sites; Catalytic Domain; Chlorides; Fibrinolysin; Glutamic Acid; Humans; Lysine; Plasminogen; Protein Conformation; Serine Proteinase Inhibitors; Streptokinase | 2000 |
Regulation of plasminogen binding to neutrophils.
Topics: Amino Acid Chloromethyl Ketones; Aminocaproic Acid; Animals; Aprotinin; Carboxypeptidase B; Carboxypeptidases; Cathepsin G; Cathepsins; Cell Line; Cells, Cultured; Drug Synergism; Enzyme Activation; Fibrinolysin; Humans; Leukocyte Elastase; Lysine; Mice; Mice, Inbred C57BL; Neutrophils; Peritonitis; Plasminogen; Protease Inhibitors; Protein Binding; Proteins; Respiratory Burst; Serine Endopeptidases; Serpins; Structure-Activity Relationship; Superoxides; Tetradecanoylphorbol Acetate; Tissue Plasminogen Activator; Trypsin Inhibitor, Kunitz Soybean; U937 Cells | 2001 |
Plasminogen binding is increased with adipocyte differentiation.
Topics: 3T3 Cells; Adipocytes; Aminocaproic Acid; Animals; Cell Differentiation; Cells, Cultured; Dose-Response Relationship, Drug; Ligands; Lysine; Mice; Mice, Knockout; Plasminogen; Protein Binding; Stromal Cells; Tranexamic Acid | 2001 |
Isolation, quantitation, and characterization of a stable complex formed by Lp[a] binding to triglyceride-rich lipoproteins.
Topics: Aminocaproic Acid; Apolipoproteins A; Arginine; Chromatography, Gel; Electrophoresis, Polyacrylamide Gel; Enzyme-Linked Immunosorbent Assay; Humans; Hypertriglyceridemia; Immunoblotting; Lipoprotein(a); Lysine; Macromolecular Substances; Molecular Weight; Plasmapheresis; Proline; Protein Binding; Tranexamic Acid; Triglycerides; Ultracentrifugation | 2001 |
A ligand-induced conformational change in apolipoprotein(a) enhances covalent Lp(a) formation.
Topics: Aminocaproic Acid; Apolipoproteins; Apoprotein(a); Calorimetry, Differential Scanning; Cell Line; Disulfides; Dose-Response Relationship, Drug; Fluorescent Dyes; Humans; Kinetics; Ligands; Lipoprotein(a); Lysine; Models, Biological; Protein Binding; Protein Conformation; Protein Structure, Tertiary; Spectrometry, Fluorescence; Temperature; Transfection; Tryptophan; Ultracentrifugation; Water | 2003 |
Human lipoprotein (a)-induced reduction of platelet aggregation is not mediated by apolipoprotein A's lysine-binding regions.
Topics: Aminocaproic Acid; Apolipoproteins A; Binding Sites; Humans; Lipoprotein(a); Lysine; Platelet Aggregation; Platelet Aggregation Inhibitors; Protein Binding; Protein Structure, Tertiary; Tumor Cells, Cultured; U937 Cells | 2003 |
THE INHIBITION OF PLASMIN BY SOME AMINO ACID DERIVATIVES.
Topics: Aminocaproates; Aminocaproic Acid; Arginine; Enzyme Inhibitors; Fibrinolysin; Lysine; Research; Spectrophotometry | 1963 |
ACTIVATION OF PARTIALLY PURIFIED PLASMINOGEN IN THE PRESENCE OF EPSILON-AMINOCAPROIC ACID. A TECHNIQUE FOR PREPARING PLASMIN FREE OF EXTRINSIC ACTIVATORS.
Topics: Aminocaproates; Aminocaproic Acid; Caseins; Deoxyribonuclease I; Fibrinolysin; Fibrinolysis; Lysine; Plasminogen; Research; Sodium Chloride; Streptodornase and Streptokinase; Streptokinase | 1964 |
EFFECTS OF EPSILON-AMINOCAPROIC ACID ON THE TUBERCULIN REACTION IN MAN.
Topics: Aminocaproates; Aminocaproic Acid; Histamine; Lysine; Pharmacology; Pheniramine; Tuberculin; Tuberculin Test | 1964 |
CARBOXYPEPTIDASE IN BLOOD AND OTHER FLUIDS. I. PROPERTIES, DISTRIBUTION, AND PARTIAL PURIFICATION OF THE ENZYME.
Topics: Aminocaproates; Aminocaproic Acid; Arginine; Blood; Carboxypeptidases; Chromatography; Guinea Pigs; Humans; Lymph; Lysine; Ornithine; Pancreas; Peptides; Phenylalanine; Research; Spectrophotometry; Urine | 1964 |
COLORIMETRIC DIFFERENTIATION OF ALPHA- AND EPSILON-N-SUBSTITUTED LYSINE DERIVATIVES.
Topics: Aminocaproates; Aminocaproic Acid; Asparagine; Aspartic Acid; Chemical Phenomena; Chemistry; Colorimetry; Lysine; Ornithine; Research | 1964 |
INHIBITION OF THE C'-1 COMPONENT OF COMPLEMENT BY AMINO ACIDS.
Topics: Amino Acids; Aminocaproates; Aminocaproic Acid; Calcium Chloride; Complement System Proteins; Dialysis; Erythrocytes; Esterases; Hemolysis; Lysine; Pharmacology; Plasminogen; Renal Dialysis; Research | 1964 |
INTERACTION OF STREPTOKINASE AND HUMAN PLASMINOGEN. I. COMBINING OF STREPTOKINASE AND PLASMINOGEN OBSERVED IN THE ULTRACENTRIFUGE UNDER A VARIETY OF EXPERIMENTAL CONDITIONS.
Topics: Albumins; Aminocaproates; Aminocaproic Acid; Chromatography; Deoxyribonuclease I; gamma-Globulins; Humans; Lysine; Plasminogen; Streptodornase and Streptokinase; Streptokinase; Ultracentrifugation | 1964 |
INFLUENCE OF IONIC STRENGTH ON THE REACTION BETWEEN ANTI-D AND D POSITIVE RED CELLS.
Topics: Absorption; Aminocaproates; Aminocaproic Acid; Antigen-Antibody Reactions; Arginine; Buffers; Carbohydrates; Erythrocytes; Ethylamines; Glycine; Iodine Isotopes; Isoantibodies; Lactose; Lysine; Osmolar Concentration; Radiometry; Research; Rho(D) Immune Globulin; Sucrose | 1964 |
UTILIZATION OF AMINO COMPOUNDS BY YEASTS OF THE GENUS SACCHAROMYCES.
Topics: Amines; Amino Acids; Aminobutyrates; Aminocaproates; Aminocaproic Acid; Aniline Compounds; Ethylamines; Glucosamine; Guanidines; Lysine; Metabolism; Research; Saccharomyces; Spermine; Urea; Yeasts | 1965 |
PATHOGENESIS OF ACUTE INFLAMMATION. VI. INFLUENCE OF OSMOLARITY AND CERTAIN METABOLIC ANTAGONISTS UPON PHAGOCYTOSIS AND ADHESIVENESS BY LEUCOCYTES RECOVERED FROM MAN.
Topics: Adhesiveness; Aminocaproates; Aminocaproic Acid; Citrulline; Dinitrophenols; Edetic Acid; Glycine; Hypertonic Solutions; Inflammation; Isoflurophate; Leukocytes; Lysine; Neutrophils; Ornithine; Osmolar Concentration; Pathology; Phagocytosis; Pharmacology; Pralidoxime Compounds; Quinidine; Research | 1965 |
INHIBITION OF CASEINOLYTIC ACTIVITY OF PLASMIN BY VARIOUS SYNTHETIC INHIBITORS.
Topics: Aminocaproates; Aminocaproic Acid; Caseins; Enzyme Inhibitors; Fibrinolysin; Fibrinolysis; Lysine; Research; Sulfonic Acids; Toluene | 1965 |
INHIBITION OF FIBRINOLYTIC ACTIVITY OF PLASMIN BY VARIOUS SYNTHETIC INHIBITORS.
Topics: Aminocaproates; Aminocaproic Acid; Enzyme Inhibitors; Fibrinolysin; Fibrinolysis; Lysine; Pharmacology; Research | 1965 |
EFFECTS OF SOME AMINO ACIDS ON THE INHIBITION OF PLASMIN BY ANTIPLASMIN.
Topics: Amino Acids; Aminobutyrates; Aminocaproates; Aminocaproic Acid; Antifibrinolytic Agents; Arginine; Citrulline; Enzyme Inhibitors; Fatty Acids; Fibrinolysin; Kinetics; Lysine; Ornithine; Research | 1965 |
Role of the streptokinase alpha-domain in the interactions of streptokinase with plasminogen and plasmin.
Topics: Aminocaproic Acid; Binding Sites; Catalysis; Catalytic Domain; Chlorine; Fibrinolysin; Gene Deletion; Humans; Lipopolysaccharides; Lysine; Microscopy, Fluorescence; Mutation; Plasminogen; Protein Binding; Protein Conformation; Protein Folding; Protein Structure, Tertiary; Recombinant Proteins; Streptokinase; Thermodynamics | 2005 |
Kinetic analysis of the role of histidine chloramines in hypochlorous acid mediated protein oxidation.
Topics: Amides; Amines; Aminocaproic Acid; Arginine; Chloramines; Chromatography, High Pressure Liquid; Glycine; Histidine; Hypochlorous Acid; Imidazoles; Kinetics; Lysine; Oligopeptides; Oxidation-Reduction; Protein Conformation; Tyrosine | 2005 |
In vitro simulation of thrombolysis inhibition.
Topics: Aminocaproic Acid; Antifibrinolytic Agents; Aprotinin; Humans; Lysine; Tranexamic Acid | 2008 |
Involvement of lysine 1047 in type I collagen-mediated activation of polymorphonuclear neutrophils.
Topics: Amino Acid Sequence; Aminocaproic Acid; Animals; Collagen Type I; Cyanogen Bromide; Humans; Lysine; Molecular Sequence Data; Neutrophil Activation; Neutrophils; Peptides; Rats; Rats, Sprague-Dawley | 2008 |
Rapid-reaction kinetic characterization of the pathway of streptokinase-plasmin catalytic complex formation.
Topics: Aminocaproic Acid; Benzamidines; Binding Sites; Catalysis; Fibrinolysin; Gene Deletion; Humans; Kinetics; Ligands; Lysine; Mutation; Protein Binding; Protein Conformation; Protein Structure, Tertiary; Streptokinase | 2008 |
Apolipoprotein(a), through its strong lysine-binding site in KIV(10'), mediates increased endothelial cell contraction and permeability via a Rho/Rho kinase/MYPT1-dependent pathway.
Topics: Actins; Amides; Aminocaproic Acid; Antifibrinolytic Agents; Apolipoproteins A; Atherosclerosis; Binding Sites; Capillary Permeability; Cell Line; Cytoskeleton; Endothelial Cells; Enzyme Inhibitors; Humans; Lysine; Myosin Light Chains; Myosin-Light-Chain Phosphatase; Phosphorylation; Plasminogen; Protein Structure, Tertiary; Pyridines; rho GTP-Binding Proteins; rho-Associated Kinases; Sequence Homology, Amino Acid; Signal Transduction | 2008 |
Novel yellow compounds, dilysyldipyrrolones A and B, formed from xylose and lysine by the Maillard reaction.
Topics: Aminocaproates; Aminocaproic Acid; Chromatography, High Pressure Liquid; Lysine; Magnetic Resonance Spectroscopy; Maillard Reaction; Models, Molecular; Pyrroles; Spectrometry, Mass, Electrospray Ionization; Spectrophotometry, Ultraviolet; Xylose | 2009 |
Short peptides containing L-lysine and epsilon-aminocaproic acid as potential plasmin inhibitors.
Topics: Aminocaproic Acid; Buffers; Fibrinolysin; Fibrinolytic Agents; Lysine; Magnetic Resonance Spectroscopy; Peptides; Structure-Activity Relationship; Thrombin; Trypsin Inhibitors | 2009 |
Mechanism of the synergistic effect between oversulfated chondroitin-6-sulfate and lysine or 6-aminohexanoic acid in enhancing the in-vitro activation of glutamic plasminogen by tissue plasminogen activator or urokinase.
Topics: Aminocaproic Acid; Chondroitin Sulfates; Drug Synergism; Humans; Lysine; Plasminogen; Tissue Plasminogen Activator; Urokinase-Type Plasminogen Activator | 2010 |
Conditions for the formation of dilysyl-dipyrrolones A and B, and novel yellow dipyrrolone derivatives formed from xylose and amino acids in the presence of lysine.
Topics: Aminocaproates; Aminocaproic Acid; Hydrogen-Ion Concentration; Lysine; Maillard Reaction; Pyrroles; Solutions; Xylose | 2011 |
Study on mutual interactions and electronic structures of hyaluronan with Lysine, 6-Aminocaproic acid and Arginine.
Topics: Aminocaproic Acid; Arginine; Binding Sites; Hyaluronic Acid; Lysine; Models, Molecular; Viscosity | 2016 |
Application of an Acyl-CoA Ligase from Streptomyces aizunensis for Lactam Biosynthesis.
Topics: Amino Acids, Neutral; Aminocaproic Acid; Bacterial Proteins; Coenzyme A Ligases; gamma-Aminobutyric Acid; Lactams; Lysine; Open Reading Frames; Streptomyces | 2017 |
Lysine analogue use during cancer surgery: a survey from a Canadian tertiary care centre.
Topics: Aminocaproic Acid; Blood Loss, Surgical; Humans; Lysine; Neoplasms; Ontario; Surveys and Questionnaires; Tertiary Care Centers; Tranexamic Acid | 2020 |
Model for surface-dependent factor XII activation: the roles of factor XII heavy chain domains.
Topics: Aminocaproic Acid; Blood Coagulation; Factor XII; Fibronectins; Lysine; Prekallikrein | 2022 |