Literature for peptidase S01.151: trypsin 1

Summary Gene structure Alignment Tree Sequences Sequence features Distribution Structure Literature Substrates Pharma

(Topics flags: S Structure, A Assay, M Mutation, P Specificity, I Inhibitor, E Expression, V Review. To select only the references relevant to a single topic, click the link above. See explanation.)

2025

Campuzano-Gonzalez,A., Gil-Rodriguez,P., Quintana-Armas,A.X., Guerra,Y., Perez,Y. and Rudino-Pinera,E.
Structural determination of a new non-canonical inhibition complex between porcine trypsin and M271 a potato Kunitz-STI inhibitor
Biochem Biophys Res Commun768, 151818-151818. PubMed Europe PubMed DOI
Lai,J., Wang,D., Sheng,X., Ding,C.F. and Yan,Y.
A DNA tetrahedron-inspired magnetic hybrid with regular distribution of trypsin for ultra-fast digestion of proteins and glycoproteomics analysis
Analyst PubMed Europe PubMed DOI
Modenbach,J.M., Moller,C., Asgarbeik,S., Geist,N., Rimkus,N., Dorr,M., Wolfgramm,H., Steil,L., Susemihl,A., Graf,L., Schmoker,O., Bottcher,D., Hammer,E., Glaubitz,J., Lammers,M., Delcea,M., Volker,U., Aghdassi,A.A., Lerch,M.M., Weiss,F.U., Bornscheuer,U.T. and Sendler,M.
Biochemical analyses of cystatin-C dimers and cathepsin-B reveals a trypsin-driven feedback mechanism in acute pancreatitis
Nat Commun16, 1702-1702. PubMed Europe PubMed DOI

2024

Ahmad,M.S., Kalam,N., Akbar,Z., Shah,N., Rasheed,S. and Choudhary,M.I.
Structural basis for the binding of famotidine, cimetidine, guanidine, and pimagedine with serine protease
Biochem Biophys Res Commun733, 150603-150603. PubMed Europe PubMed DOI
Al-Shabib,N.A., Khan,J.M., Malik,A., Alamri,A., Rehman,M.T., Alajmi,M.F. and Husain,F.M.
Probing the interaction mechanisms between sunset yellow dye and trypsin protein leading to amorphous aggregation under low pH conditions
Int J Biol Macromol265, 130442-130442. PubMed Europe PubMed DOI
Allemann,A., Staubli,S.M. and Nebiker,C.A.
Trypsin and Trypsinogen Activation Peptide in the Prediction of Severity of Acute Pancreatitis
Life (Basel)14, PubMed Europe PubMed DOI V
Behshad,Y., Pazhang,M., Najavand,S. and Sabzi,M.
Enhancing Enzyme Stability and Functionality: Covalent Immobilization of Trypsin on Magnetic Gum Arabic Modified Fe(3)O(4) Nanoparticles
Appl Biochem Biotechnol196, 5283-5300. PubMed Europe PubMed DOI
Cai,H., Yuan,R., Huang,S., Huang,Y., Lin,C., Lin,Y., Luo,F., Lin,Z. and Wang,L.
Sensitive trypsin sensor based on the regulation of microscale ionic current rectification by the selectivity hydrolysis of hydrogel filled in microchannel
Talanta285, 127422-127422. PubMed Europe PubMed DOI
Crosby,H.A., Keim,K., Kwiecinski,J.M., Langouet-Astrie,C.J., Oshima,K., LaRiviere,W.B., Schmidt,E.P. and Horswill,A.R.
Host-derived protease promotes aggregation of Staphylococcus aureus by cleaving the surface protein SasG
MBio15, e0348323-e0348323. PubMed Europe PubMed DOI
Ofori,S., Desai,H.S., Shikwana,F., Boatner,L.M., Dominguez Iii,E.R., Castellon,J.O. and Backus,K.M.
Generating cysteine-trypsin cleavage sites with 2-chloroacetamidine capping
Chem Commun (Camb)60, 8856-8859. PubMed Europe PubMed DOI
Patel,C.K. and Mukherjee,T.K.
Biomolecular Condensation of Trypsin Prevents Autolysis and Promotes Ca(2+)-Mediated Activation of Esterase Activity
Biomacromolecules25, 6082-6092. PubMed Europe PubMed DOI
Song,H., Choi,H., Kim,Y.S. and Lee,S.H.
Micelle-based fluorogenic sensing of trypsin: a sensitive method in pancreatic disease diagnosis
Org Biomol Chem22, 4243-4248. PubMed Europe PubMed DOI
Wang,J., Kong,J. and Zhang,X.
Riboflavin-induced photo-ATRP electrochemical strategy for detection of biomarker trypsin
Talanta277, 126386-126386. PubMed Europe PubMed DOI
Xiang,Y., Jiang,Y. and Lu,L.
Low-Dose Trypsin Accelerates Wound Healing via Protease-Activated Receptor 2
ACS Pharmacol Transl Sci7, 274-284. PubMed Europe PubMed DOI

2023

Arora,A., Sharma,K. and Tripathi,S.K.
Impact of luminescent MoSe(2) quantum dots on activity of trypsin under different pH environment
Spectrochim Acta A Mol Biomol Spectrosc302, 122958-122958. PubMed Europe PubMed DOI
Bianchimano,P., Iwanowski,K., Smith,E.M., Cantor,A., Leone,P., Bongers,G., Gonzalez,C.G., Hongsup,Y., Elias,J., Weiner,H.L., Clemente,J.C. and Tankou,S.K.
Oral vancomycin treatment suppresses gut trypsin activity and preserves intestinal barrier function during EAE
iScience26, 108143-108143. PubMed Europe PubMed DOI
Chen,J., Xu,F. and Wang,Y.
Biomass-derived magnetic nanocomposites modified by choline chloride/citric acid based natural deep eutectic solvents for the magnetic solid phase extraction of trypsin
Analyst148, 2316-2326. PubMed Europe PubMed DOI
Kellnerova,S., Huber,S., Massri,M., Fleischer,V., Losso,K., Sarg,B., Kremser,L., Talasz,H., He,X., Varrone,E., Brigotti,M., Ardissino,G., Orth-Holler,D. and Wurzner,R.
Enzymatic Cleavage of Stx2a in the Gut and Identification of Pancreatic Elastase and Trypsin as Possible Main Cleavers
Microorganisms11, PubMed Europe PubMed DOI
Liu,X., Huang,Q., Pan,P., Fang,M., Zhang,Y., Yang,S., Li,M. and Liu,Y.
Comparative Study of the Preparation of High-Molecular-Weight Fibroin by Degumming Silk with Several Neutral Proteases
Polymers (Basel)15, PubMed Europe PubMed DOI
Solovyev,M., Kashinskaya,E. and Gisbert,E.
A meta-analysis for assessing the contributions of trypsin and chymotrypsin as the two major endoproteases in protein hydrolysis in fish intestine
Comp Biochem Physiol A Mol Integr Physiol278, 111372-111372. PubMed Europe PubMed DOI
Sun,Z., Xiao,W., Li,N., Chang,L., Xu,P. and Li,Y.
Large-Scale Profiling of Unexpected Tryptic Cleaved Sites at Ubiquitinated Lysines
J Proteome Res22, 1245-1254. PubMed Europe PubMed DOI
Vosahlova-Kadlecova,Z., Gilar,M., Molnarova,K., Kozlik,P. and Kalikova,K.
Mixed-mode column allows simple direct coupling with immobilized enzymatic reactor for on-line protein digestion
J Chromatogr B Analyt Technol Biomed Life Sci1228, 123866-123866. PubMed Europe PubMed DOI
Woessmann,J., Petrosius,V., Uresin,N., Kotol,D., Aragon-Fernandez,P., Hober,A., auf dem Keller,U., Edfors,F. and Schoof,E.M.
Assessing the Role of Trypsin in Quantitative Plasma and Single-Cell Proteomics toward Clinical Application
Anal Chem95, 13649-13658. PubMed Europe PubMed DOI
Wu,N.N., Chen,L.G., Xiao,M.Z., Yuan,R.Y. and Wang,H.B.
Determination of trypsin using protamine mediated fluorescent enhancement of DNA templated Au nanoclusters
Mikrochim Acta190, 158-158. PubMed Europe PubMed DOI

2022

Ai,Y., Xu,J., Gunawardena,H.P., Zare,R.N. and Chen,H.
Investigation of Tryptic Protein Digestion in Microdroplets and in Bulk Solution
J Am Soc Mass Spectrom33, 1238-1249. PubMed Europe PubMed DOI
Ansari,N., Rizzi,V. and Parrinello,M.
Water regulates the residence time of Benzamidine in Trypsin
Nat Commun13, 5438-5438. PubMed Europe PubMed DOI I
Arnaiz,A., Guembe-Garcia,M., Delgado-Pinar,E., Valente,A.J.M., Ibeas,S., Garcia,J.M. and Vallejos,S.
The role of polymeric chains as a protective environment for improving the stability and efficiency of fluorogenic peptide substrates
Sci Rep12, 8818-8818. PubMed Europe PubMed DOI
Li,H., Gao,Z. and Zhang,S.
Localization of trypsin, chymotrypsin and elastase in the digestive tract of amphioxus Branchiostoma japonicum with implications to the origin of vertebrate pancreas
Tissue Cell79, 101943-101943. PubMed Europe PubMed DOI
Li,Y., Watanabe,E., Kawashima,Y., Plichta,D.R., Wang,Z., Ujike,M., Ang,Q.Y., Wu,R., Furuichi,M., Takeshita,K., Yoshida,K., Nishiyama,K., Kearney,S.M., Suda,W., Hattori,M., Sasajima,S., Matsunaga,T., Zhang,X., Watanabe,K., Fujishiro,J., Norman,J.M., Olle,B., Matsuyama,S., Namkoong,H., Uwamino,Y., Ishii,M., Fukunaga,K., Hasegawa,N., Ohara,O., Xavier,R.J., Atarashi,K. and Honda,K.
Identification of trypsin-degrading commensals in the large intestine
Nature609, 582-589. PubMed Europe PubMed DOI
Park,S., Lee,H. and Yang,H.
Sensitive Affinity-Based Biosensor Using the Autocatalytic Activation of Trypsinogen Mutant by Trypsin with Low Self-activation
ACS Appl Bio Mater PubMed Europe PubMed DOI

2021

Fu,Z., Akula,S., Thorpe,M. and Hellman,L.
Marked difference in efficiency of the digestive enzymes pepsin, trypsin, chymotrypsin, and pancreatic elastase to cleave tightly folded proteins
Biol Chem402, 861-867. PubMed Europe PubMed DOI
Mahmoud,G.S., Hosny,G. and Sayed,S.A.
Hepatoprotective effect of trypsin/chymotrypsin against olanzapine-induced non-alcoholic steatohepatitis in rats
Can J Physiol Pharmacol1-9. PubMed Europe PubMed DOI
More,K.N., Lim,T.H., Kang,J. and Chang,D.J.
A Fluorogenic Assay: Analysis of Chemical Modification of Lysine and Arginine to Control Proteolytic Activity of Trypsin
Molecules26, PubMed Europe PubMed DOI
Pandeswari,P.B., Chary,R.N., Kamalanathan,A.S., Prabhakar,S. and Sabareesh,V.
Mimicking LysC Proteolysis by 'Arginine-Modification-cum-Trypsin digestion': Comparison of Bottom-Up & Middle-Down Proteomic Approaches by ESI-QTOF-MS
Protein Pept Lett PubMed Europe PubMed DOI
Rivera Del Rio,A., Keppler,J.K., Boom,R.M. and Janssen,A.E.M.
Protein acidification and hydrolysis by pepsin ensure efficient trypsin-catalyzed hydrolysis
Food Funct12, 4570-4581. PubMed Europe PubMed DOI
Taraskin,A.S., Semenov,K.K., Protasov,A.V., Lozhkov,A.A., Tyulin,A.A., Shaldzhyan,A.A., Ramsay,E.S., Mirgorodskaya,O.A., Klotchenko,S.A. and Zabrodskaya,Y.A.
Quench me if you can: Alpha-2-macroglobulin trypsin complexes enable serum biomarker analysis by MALDI mass spectrometry
Biochimie185, 87-95. PubMed Europe PubMed DOI
Yuan,N., Jia,L. and Zhu,J.
Label-free Fluorescence Turn on Trypsin Assay Based on Gemini Surfactant/heparin/Nile Red Supramolecular Assembly
J Fluoresc31, 1537-1545. PubMed Europe PubMed DOI

2020

Ahmed Al-Hadhrami,N., Ladwig,A., Rahman,A., Rozas,I., Paul,G.M. and Evans,P.
Synthesis of 2-guanidinyl pyridines and their trypsin inhibition and docking
Bioorg Med Chem28, 115612-115612. PubMed Europe PubMed DOI
Bubis,J.A., Gorshkov,V., Gorshkov,M.V. and Kjeldsen,F.
PhosphoShield: Improving Trypsin Digestion of Phosphoproteins by Shielding the Negatively Charged Phosphate Moiety
J Am Soc Mass Spectrom PubMed Europe PubMed DOI
Chen,X., Chen,D., Huang,L., Chen,X., Zhou,M., Xi,X., Ma,C., Chen,T. and Wang,L.
Identification and Target-Modification of SL-BBI: A Novel Bowman-Birk Type Trypsin Inhibitor from Sylvirana latouchii
Biomolecules10, PubMed Europe PubMed DOI
Dau,T., Bartolomucci,G. and Rappsilber,J.
Proteomics Using Protease Alternatives to Trypsin Benefits from Sequential Digestion with Trypsin
Anal Chem92, 9523-9527. PubMed Europe PubMed DOI
Duan,X., Li,N., Wang,G. and Su,X.
High sensitive ratiometric fluorescence analysis of trypsin and dithiothreitol based on WS2 QDs
Talanta219, 121171-121171. PubMed Europe PubMed DOI
Estaras,M., Ameur,F.Z., Estevez,M., Diaz-Velasco,S. and Gonzalez,A.
The lysine derivative aminoadipic acid, a biomarker of protein oxidation and diabetes-risk, induces production of reactive oxygen species and impairs trypsin secretion in mouse pancreatic acinar cells
Food Chem Toxicol111594-111594. PubMed Europe PubMed DOI
Hu,Q., Bao,Y., Gan,S., Zhang,Y., Han,D. and Niu,L.
Electrochemically controlled grafting of polymers for ultrasensitive electrochemical assay of trypsin activity
Biosens Bioelectron165, 112358-112358. PubMed Europe PubMed DOI
Jaimes,J., Millet,J. and Whittaker,G.
Proteolytic Cleavage of the SARS-CoV-2 Spike Protein and the Role of the Novel S1/S2 Site
SSRN3581359-3581359. PubMed Europe PubMed DOI
Kahler,U., Kamenik,A.S., Waibl,F., Kraml,J. and Liedl,K.R.
Protein-Protein Binding as a Two-Step Mechanism: Preselection of Encounter Poses during the Binding of BPTI and Trypsin
Biophys J119, 652-666. PubMed Europe PubMed DOI
Ma,H., Zou,T., Li,H. and Cheng,H.
The interaction of sodium dodecyl sulfate with trypsin: Multi-spectroscopic analysis, molecular docking, and molecular dynamics simulation
Int J Biol Macromol PubMed Europe PubMed DOI
Melikishvili,S., Dizon,M. and Hianik,T.
Application of high-resolution ultrasonic spectroscopy for real-time monitoring of trypsin activity in beta-casein solution
Food Chem337, 127759-127759. PubMed Europe PubMed DOI
Millan-Martin,S., Jakes,C., Carillo,S., Buchanan,T., Guender,M., Kristensen,D.B., Sloth,T.M., Orgaard,M., Cook,K. and Bones,J.
Inter-laboratory study of an optimised peptide mapping workflow using automated trypsin digestion for monitoring monoclonal antibody product quality attributes
Anal Bioanal Chem PubMed Europe PubMed DOI
Mourao,C.B.F., Brand,G.D., Fernandes,J.P.C., Prates,M.V., Bloch,C., Jr., Barbosa,J.A.R.G., Freitas,S.M., Restano-Cassulini,R., Possani,L.D. and Schwartz,E.F.
Head-to-Tail Cyclization after Interaction with Trypsin: A Scorpion Venom Peptide that Resembles Plant Cyclotides
J Med Chem PubMed Europe PubMed DOI
Nanjundaiah,S.N., Ma,J., Sukumaran,S. and Sambasivam,G.
Development of clone with novel TrpE fusion tag in E. coli for overexpression of trypsin in a bench-scale bioreactor
Prep Biochem Biotechnol1-9. PubMed Europe PubMed DOI
Niu,B., Martinelli Ii,M., Jiao,Y., Wang,C., Cao,M., Wang,J. and Meinke,E.
Nonspecific cleavages arising from reconstitution of trypsin under mildly acidic conditions
PLoS ONE15, e0236740-e0236740. PubMed Europe PubMed DOI
Retzl,B., Hellinger,R., Muratspahic,E., Pinto,M.E.F., Bolzani,V.S. and Gruber,C.W.
Discovery of a Beetroot Protease Inhibitor to Identify and Classify Plant-Derived Cystine Knot Peptides
J Nat Prod PubMed Europe PubMed DOI
Smith,D., Cwiklinski,K., Jewhurst,H., Tikhonova,I.G. and Dalton,J.P.
An atypical and functionally diverse family of Kunitz-type cysteine/serine proteinase inhibitors secreted by the helminth parasite Fasciola hepatica
Sci Rep10, 20657-20657. PubMed Europe PubMed DOI
Totsch,N. and Hoffmann,D.
Bayesian Data Integration Questions Classic Study on Protease Self-Digest Kinetics
ACS Omega5, 15162-15168. PubMed Europe PubMed DOI

2018

Gallegos,D.A., Sauri,J., Cohen,R.D., Wan,X., Videau,P., Vallota-Eastman,A.O., Shaala,L.A., Youssef,D.T.A., Williamson,R.T., Martin,G.E., Philmus,B., Sikora,A.E., Ishmael,J.E. and McPhail,K.L.
Jizanpeptins, cyanobacterial protease inhibitors from a Symploca sp. cyanobacterium collected in the Red Sea
J Nat Prod81, 1417-1425. PubMed Europe PubMed DOI I
Liu,L., Yu,H., Du,K., Wang,Z., Gan,Y. and Huang,H.
Enhanced trypsin thermostability in Pichia pastoris through truncating the flexible region
Microb Cell Fact17, 165-165. PubMed Europe PubMed DOI
Perutka,Z. and Sebela,M.
Pseudotrypsin: a little-known trypsin proteoform
Molecules23, PubMed Europe PubMed DOI
Sato,D., Kondo,T. and Kato,T.
Dual emissive bispyrene peptide probes for highly sensitive measurements of trypsin activity and evaluation of trypsin inhibitors
Bioorg Med Chem26, 3468-3473. PubMed Europe PubMed DOI A
Schiebel,J., Gaspari,R., Wulsdorf,T., Ngo,K., Sohn,C., Schrader,T.E., Cavalli,A., Ostermann,A., Heine,A. and Klebe,G.
Intriguing role of water in protein-ligand binding studied by neutron crystallography on trypsin complexes
Nat Commun9, 3559-3559. PubMed Europe PubMed DOI S
Wang,M., Su,D., Wang,G. and Su,X.
A fluorometric sensing method for sensitive detection of trypsin and its inhibitor based on gold nanoclusters and gold nanoparticles
Anal Bioanal Chem410, 6891-6900. PubMed Europe PubMed DOI A
Wang,Y., Zhou,L., Kang,Q. and Yu,L.
Simple and label-free liquid crystal-based sensor for detecting trypsin coupled to the interaction between cationic surfactant and BSA
Talanta183, 223-227. PubMed Europe PubMed DOI A

2017

Aithal,M., PavanKumar,N.N., Buddha,M., UmamaheshwaraRao,K. and Hazra,P.
Kinetic and structural differentiation of trypsin from different origins
BioPharm Int30, 38-43, 56.
Liu,B., Xiao,H., Li,J., Geng,S., Ma,H. and Liang,G.
Interaction of phenolic acids with trypsin: experimental and molecular modeling studies
Food Chem228, 1-6. PubMed Europe PubMed DOI I
Momeni,L., Mahmodian,S., Shareghi,B., Saboury,A.A. and Farhadian,S.
The functional and structural stabilization of trypsin by sucrose
Int J Biol Macromol99, 343-349. PubMed Europe PubMed DOI
Wu,M., Wang,X., Wang,K. and Guo,Z.
An ultrasensitive fluorescent nanosensor for trypsin based on upconversion nanoparticles
Talanta174, 797-802. PubMed Europe PubMed DOI A
Xia,T., Ma,Q., Hu,T. and Su,X.
A novel magnetic/photoluminescence bifunctional nanohybrid for the determination of trypsin
Talanta170, 286-290. PubMed Europe PubMed DOI A
Zhao,D., Chen,C., Zhao,J., Sun,J. and Yang,X.
Label-free fluorescence turn-on strategy for trypsin activity based on thiolate-protected gold nanoclusters with bovine serum albumin as the substrate
Sens Actuators, B Chem247, 392-399. DOI A

2016

Andre,J., Saleh,D., Syldatk,C. and Hausmann,R.
Effect of spacer modification on enzymatic synthetic and hydrolytic activities of immobilized trypsin
J Mol Catal B Enzym125, 88-96. DOI
Cleary,J.A. and Malthouse,J.P.G.
A new lysine derived glyoxal inhibitor of trypsin, its properties and utilization for studying the stabilization of tetrahedral adducts by trypsin
Biochem Biophys Rep5, 272-284. PubMed Europe PubMed DOI I
Erturk,G., Hedstrom,M. and Mattiasson,B.
A sensitive and real-time assay of trypsin by using molecular imprinting-based capacitive biosensor
Biosens Bioelectron86, 557-565. PubMed Europe PubMed DOI A
Pazhang,M., Mehrnejad,F., Pazhang,Y., Falahati,H. and Chaparzadeh,N.
Effect of sorbitol and glycerol on the stability of trypsin and difference between their stabilization effects in the various solvents
Biotechnol Appl Biochem63, 206-213. PubMed Europe PubMed DOI
Raskovic,B., Vatic,S., Andelkovic,B., Blagojevic,V. and Polovic,N.
Optimizing storage conditions to prevent cold denaturation of trypsin for sequencing and to prolong its shelf life
Biochem Eng J105, 168-176. DOI
Schittmayer,M., Fritz,K., Liesinger,L., Griss,J. and Birner-Gruenberger,R.
Cleaning out the litterbox of proteomic scientists' favorite pet: optimized data analysis avoiding trypsin artifacts
J Proteome Res15, 1222-1229. PubMed Europe PubMed DOI
Zeng,H.J., Wang,Y.P., Yang,R., You,J. and Qu,L.B.
Inhibitory effects of daidzein and genistein on trypsin: insights from spectroscopic and molecular docking studies
Int J Biol Macromol89, 336-343. PubMed Europe PubMed DOI I
Zhao,X.-R., Chen,Y.-L., Wang,L., Wang,W.-F. and Chen,X.-G.
Highly sensitive fluorescence detection of trypsin based on gold nanoparticle probes
Anal Methods8, 393-400. DOI A

2015

Aguirre,C., Condado-Morales,I., Olguin,L.F. and Costas,M.
Isothermal titration calorimetry determination of individual rate constants of trypsin catalytic activity
Anal Biochem479, 18-27. PubMed Europe PubMed DOI
Batt,A.R., St Germain,C.P., Gokey,T., Guliaev,A.B. and Baird,T., Jr.
Engineering trypsin for inhibitor resistance
Protein Sci24, 1463-1474. PubMed Europe PubMed DOI
Burke,M.C., Wang,Y., Lee,A.E., Dixon,E.K., Castaneda,C.A., Fushman,D. and Fenselau,C.
Unexpected trypsin cleavage at ubiquitinated lysines
Anal Chem87, 8144-8148. PubMed Europe PubMed DOI
Cui,F., Yang,K. and Li,Y.
Investigate the binding of catechins to trypsin using docking and molecular dynamics simulation
PLoS ONE10, e0125848- PubMed Europe PubMed DOI I
Ding,X. and Yang,K.L.
Quantitative serine protease assays based on formation of copper(II)-oligopeptide complexes
Analyst140, 340-345. PubMed Europe PubMed DOI A
Dong,M., Qi,H., Ding,S. and Li,M.
Electrochemical determination of trypsin using a heptapeptide substrate self-assembled on a gold electrode
Mikrochim Acta182, 43-49. DOI A
Dycka,F., Franc,V., Frycak,P., Raus,M., Rehulka,P., Lenobel,R., Allmaier,G., Marchetti-Deschmann,M. and Sebela,M.
Evaluation of pseudotrypsin cleavage specificity towards proteins by MALDI-TOF mass spectrometry
Protein Pept Lett22, 1123-1132. PubMed Europe PubMed P
Gizurarson,J.G. and Filippusson,H.
Conjugation of d-glucosamine to bovine trypsin increases thermal stability and alters functional properties
Enzyme Microb Technol75-76, 1-9. PubMed Europe PubMed DOI
Khangembam,B.K. and Chakrabarti,R.
Trypsin from the digestive system of carp Cirrhinus mrigala: purification, characterization and its potential application
Food Chem175, 386-394. PubMed Europe PubMed DOI
Ou,L.J., Li,X.Y., Li,L.J., Liu,H.W., Sun,A.M. and Liu,K.J.
A sensitive assay for trypsin using poly(thymine)-templated copper nanoparticles as fluorescent probes
Analyst140, 1871-1875. PubMed Europe PubMed DOI A
Pinto,S.C., Rodrigues,A.R., Saraiva,J.A. and Lopes-da-Silva,J.A.
Catalytic activity of trypsin entrapped in electrospun poly(epsilon-caprolactone) nanofibers
Enzyme Microb Technol79-80, 8-18. PubMed Europe PubMed DOI
Shu,M., Shen,W., Wang,X., Wang,F., Ma,L. and Zhai,C.
Expression, activation and characterization of porcine trypsin in Pichia pastoris GS115
Protein Expr Purif114, 149-155. PubMed Europe PubMed DOI E
Slechtova,T., Gilar,M., Kalikova,K. and Tesarova,E.
Insight into trypsin miscleavage: comparison of kinetic constants of problematic peptide sequences
Anal Chem87, 7636-7643. PubMed Europe PubMed DOI P
Yang,M., Huang,X., Zhang,Y.-W., Ping,X.-Q., Long,J. and Cao,R.-Y.
Cloning and expression of porcine trypsin mutant gene in Escherichia coli and its activity analysis
Chin J Pharm Biotechnol22, 283-287. E
Zhao,M., Wu,F. and Xu,P.
Development of a rapid high-efficiency scalable process for acetylated Sus scrofa cationic trypsin production from Escherichia coli inclusion bodies
Protein Expr Purif116, 120-126. PubMed Europe PubMed DOI E

2014

Boechi,L., Pierce,L., Komives,E.A. and McCammon,J.A.
Trypsinogen activation as observed in accelerated molecular dynamics simulations
Protein Sci23, 1550-1558. PubMed Europe PubMed DOI
Buettner,K., Kreisig,T., Strater,N. and Zuchner,T.
Protein surface charge of trypsinogen changes its activation pattern
BMC Biotechnol14, 960-960. PubMed Europe PubMed DOI
Castello Serrano,I., Stoica,G., Matas Adams,A. and Palomares,E.
Dual core quantum dots for highly quantitative ratiometric detection of trypsin activity in cystic fibrosis patients
Nanoscale6, 13623-13629. PubMed Europe PubMed DOI A
Ding,X., Ge,D. and Yang,K.-L.
Colorimetric protease assay by using gold nanoparticles and oligopeptides
Sens Actuators, B Chem201, 234-239. DOI A
Franke,L., Liebscher,S. and Bordusa,F.
Engineering the oxyanion hole of trypsin for promoting the reverse of proteolysis
J Pept Sci20, 128-136. PubMed Europe PubMed DOI
Gershon,P.D.
Cleaved and missed sites for trypsin, Lys-C, and Lys-N can be predicted with high confidence on the basis of sequence context
J Proteome Res13, 702-709. PubMed Europe PubMed DOI P
Hong,M.L., Li,L.J., Han,H.X. and Chu,X.
A label-free fluorescence assay for trypsin based on the electron transfer between oligonucleotide-stabilized ag nanoclusters and cytochrome c
Anal Sci30, 811-815. PubMed Europe PubMed A
Kim,N.-S., Yu,H.-Y., Chung,N.-D., Kwon,T.-H. and Yang,M.-S.
High-level production of recombinant trypsin in transgenic rice cell culture through utilization of an alternative carbon source and recycling system
Enzyme Microb Technol63, 21-27. PubMed Europe PubMed DOI E
Lacerda,C.D., Teixeira,A.E., Oliveira,J.S., Silva,S.F., Vasconcelos,A.V., Gouveia,D.G., Silva,A.R., Santoro,M.M., Mares-Guia,M.L. and Santos,A.M.
Gamma trypsin: Purification and physicochemical characterization of a novel bovine trypsin isoform
Int J Biol Macromol70, 179-186. PubMed Europe PubMed DOI
Liebscher,S., Schopfel,M., Aumuller,T., Sharkhuukhen,A., Pech,A., Hoss,E., Parthier,C., Jahreis,G., Stubbs,M.T. and Bordusa,F.
N-Terminal protein modification by substrate-activated reverse proteolysis
Angew Chem Int Ed Engl53, 3024-3028. PubMed Europe PubMed DOI
Pan,Y., Cheng,K., Mao,J., Liu,F., Liu,J., Ye,M. and Zou,H.
Quantitative proteomics reveals the kinetics of trypsin-catalyzed protein digestion
Anal Bioanal Chem406, 6247-6256. PubMed Europe PubMed DOI P
Weiz,A.R., Ishida,K., Quitterer,F., Meyer,S., Kehr,J.C., Muller,K.M., Groll,M., Hertweck,C. and Dittmann,E.
Harnessing the evolvability of tricyclic microviridins to dissect protease-inhibitor interactions
Angew Chem Int Ed Engl53, 3735-3738. PubMed Europe PubMed DOI S I

2013

Bunkenborg,J., Espadas,G. and Molina,H.
Cutting edge proteomics: benchmarking of six commercial trypsins
J Proteome Res12, 3631-3641. PubMed Europe PubMed DOI P
Crowell,A.M., Stewart,E.J., Take,Z.S. and Doucette,A.A.
Critical assessment of the spectroscopic activity assay for monitoring trypsin activity in organic-aqueous solvent
Anal Biochem435, 131-136. PubMed Europe PubMed DOI A
Ganachaud,C., Bernin,D., Isaksson,D. and Holmberg,K.
An anomalous behavior of trypsin immobilized in alginate network
Appl Microbiol Biotechnol97, 4403-4414. PubMed Europe PubMed DOI
Karna,N., Debowski,D., Gitlin,A., Legowska,A. and Rolka,K.
Investigation of peptide splicing using two-peptide-chain analogs of trypsin inhibitor SFTI-1
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Liebschner,D., Dauter,M., Brzuszkiewicz,A. and Dauter,Z.
On the reproducibility of protein crystal structures: five atomic resolution structures of trypsin
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Liu,F., Ye,M., Wang,C., Hu,Z., Zhang,Y., Qin,H., Cheng,K. and Zou,H.
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Masuda,Y., Nitanai,Y., Mizutani,R. and Noguchi,S.
Crystal structure of 6-guanidinohexanoyl trypsin near the optimum pH reveals the acyl-enzyme intermediate to be deacylated
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Meng,Y., Yuan,Y., Zhu,Y., Guo,Y., Li,M., Wang,Z., Pu,X. and Jiang,L.
Effects of organic solvents and substrate binding on trypsin in acetonitrile and hexane media
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Vandermarliere,E., Mueller,M. and Martens,L.
Getting intimate with trypsin, the leading protease in proteomics
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Zhang,H., Zhou,Q., Cao,J. and Wang,Y.
Mechanism of cinnamic acid-induced trypsin inhibition: a multi-technique approach
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Zheng,H., Mei,Y.J., Du,K., Shi,Q.Y. and Zhang,P.F.
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2012

Baird,T.T., Jr. and Craik,C.S.
Trypsin
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Dosa,S., Stirnberg,M., Lulsdorff,V., Haussler,D., Maurer,E. and Gutschow,M.
Active site mapping of trypsin, thrombin and matriptase-2 by sulfamoyl benzamidines
Bioorg Med Chem20, 6489-6505. PubMed Europe PubMed DOI I
Gokey,T., Baird,T.T., Jr. and Guliaev,A.B.
Conformational dynamics of threonine 195 and the S1 subsite in functional trypsin variants
J Mol Model18, 4941-4954. PubMed Europe PubMed DOI
Salameh,M.A., Soares,A.S., Alloy,A. and Radisky,E.S.
Presence versus absence of hydrogen bond donor Tyr-39 influences interactions of cationic trypsin and mesotrypsin with protein protease inhibitors
Protein Sci21, 1103-1112. PubMed Europe PubMed DOI S

2011

Brandt,T., Holzmann,N., Muley,L., Khayat,M., Wegscheid-Gerlach,C., Baum,B., Heine,A., Hangauer,D. and Klebe,G.
Congeneric but still distinct: how closely related trypsin ligands exhibit different thermodynamic and structural properties
J Mol Biol405, 1170-1187. PubMed Europe PubMed DOI I
Iyaguchi,D.
Inhibition mechanism of trypsin by Schiff base metal chelate inhibitors
Yakugaku Zasshi131, 1299-1303. PubMed Europe PubMed DOI I
Kawamura,K., Yamada,T., Kurihara,K., Tamada,T., Kuroki,R., Tanaka,I., Takahashi,H. and Niimura,N.
X-ray and neutron protein crystallographic analysis of the trypsin-BPTI complex
Acta Crystallogr D Biol Crystallogr67, 140-148. PubMed Europe PubMed DOI S
Kim,N.S., Yu,H.Y., Chung,N.D., Shin,Y.J., Kwon,T.H. and Yang,M.S.
Production of functional recombinant bovine trypsin in transgenic rice cell suspension cultures
Protein Expr Purif76, 121-126. PubMed Europe PubMed DOI E
Li,P., Liu,Y., Wang,X. and Tang,B.
A new FRET nanoprobe for trypsin using a bridged beta-cyclodextrin dimer-dye complex and its biological imaging applications
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Marques,D., Pessela,B.C., Betancor,L., Monti,R., Carrascosa,A.V., Rocha-Martin,J., Guisan,J.M. and Fernandez-Lorente,G.
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Biotechnol Prog27, 677-683. PubMed Europe PubMed DOI
Mu,Y., Lin,J. and Liu,R.
Interaction of sodium benzoate with trypsin by spectroscopic techniques
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Ray,K. and Jalili,P.R.
Characterization of TrypZean: a plant-based alternative to bovine-derived trypsin
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Ruark,C.D., Hack,C.E., Robinson,P.J. and Gearhart,J.M.
Quantitative structure-activity relationships for organophosphates binding to trypsin and chymotrypsin
J Toxicol Environ Health A74, 1-23. PubMed Europe PubMed DOI I
Schopfel,M., Tziridis,A., Arnold,U. and Stubbs,M.T.
Towards a restriction proteinase: construction of a self-activating enzyme
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Wahlgren,W.Y., Pal,G., Kardos,J., Porrogi,P., Szenthe,B., Patthy,A., Graf,L. and Katona,G.
The catalytic aspartate is protonated in the Michaelis complex formed between trypsin and an in vitro evolved substrate-like inhibitor: a refined mechanism of serine protease action
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Xue,W., Zhang,G. and Zhang,D.
A sensitive colorimetric label-free assay for trypsin and inhibitor screening with gold nanoparticles
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Zhou,Y. and Zhang,Y.
Serine protease acylation proceeds with a subtle re-orientation of the histidine ring at the tetrahedral intermediate
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2010

Chai,S.J., Lai,Y.F., Zheng,H. and Zhang,P.F.
A novel trypsin-catalyzed three-component Mannich reaction
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Kawamura,K., Yamada,T., Kurihara,K., Tamada,T., Kuroki,R., Tanaka,I., Takahashi,H. and Niimura,N.
A preliminary neutron crystallography on the trypsin-bovine pancreatic trypsin inhibitor complex
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Mannocci,L., Melkko,S., Buller,F., Molnar,I., Bianke,J.P., Dumelin,C.E., Scheuermann,J. and Neri,D.
Isolation of potent and specific trypsin inhibitors from a DNA-encoded chemical library
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Wartmann,T., Mayerle,J., Kahne,T., Sahin-Toth,M., Ruthenburger,M., Matthias,R., Kruse,A., Reinheckel,T., Peters,C., Weiss,F.U., Sendler,M., Lippert,H., Schulz,H.U., Aghdassi,A., Dummer,A., Teller,S., Halangk,W. and Lerch,M.M.
Cathepsin L inactivates human trypsinogen, whereas cathepsin L-deletion reduces the severity of pancreatitis in mice
Gastroenterology138, 726-737. PubMed Europe PubMed DOI
Zhang,H., Huang,R.Y., Jalili,P.R., Irungu,J.W., Nicol,G.R., Ray,K.B., Rohrs,H.W. and Gross,M.L.
Improved mass spectrometric characterization of protein glycosylation reveals unusual glycosylation of maize-derived bovine trypsin
Anal Chem82, 10095-10101. PubMed Europe PubMed DOI E

2009

Di Cera,E.
Serine proteases
IUBMB Life61, 510-515. PubMed Europe PubMed DOI V
Kereszturi,E., Szmola,R., Kukor,Z., Simon,P., Weiss,F.U., Lerch,M.M. and Sahin-Toth,M.
Hereditary pancreatitis caused by mutation-induced misfolding of human cationic trypsinogen: a novel disease mechanism
Hum Mutat30, 575-582. PubMed Europe PubMed DOI M
Zakharova,E., Horvath,M.P. and Goldenberg,D.P.
Structure of a serine protease poised to resynthesize a peptide bond
Proc Natl Acad Sci U S A106, 11034-11039. PubMed Europe PubMed DOI

2008

Gombos,L., Kardos,J., Patthy,A., Medveczky,P., Szilagyi,L., Malnasi-Csizmadia,A. and Graf,L.
Probing conformational plasticity of the activation domain of trypsin: the role of glycine hinges
Biochemistry47, 1675-1684. PubMed Europe PubMed DOI
Rodriguez,J., Gupta,N., Smith,R.D. and Pevzner,P.A.
Does trypsin cut before proline?
J Proteome Res7, 300-305. PubMed Europe PubMed DOI P

2007

Baumann,H.I., Keller,S., Wolter,F.E., Nicholson,G.J., Jung,G., Sussmuth,R.D. and Juttner,F.
Planktocyclin, a cyclooctapeptide protease inhibitor produced by the freshwater cyanobacterium Planktothrix rubescens
J Nat Prod70, 1611-1615. PubMed Europe PubMed DOI I
Czodrowski,P., Sotriffer,C.A. and Klebe,G.
Protonation changes upon ligand binding to trypsin and thrombin: structural interpretation based on pK(a) calculations and ITC experiments
J Mol Biol367, 1347-1356. PubMed Europe PubMed DOI
Di Fenza,A., Heine,A., Koert,U. and Klebe,G.
Understanding binding selectivity toward trypsin and factor Xa: the role of aromatic interactions
ChemMedChem2, 297-308. PubMed Europe PubMed DOI I
Ito,T., Sugita,Y., Takao,K., Ikeguchi,Y. and Shirahata,A.
Amine modification of digested peptide at C-terminal end during protein digestion by protease
Biol Pharm Bull30, 1838-1843. PubMed Europe PubMed DOI
Manea,M., Mezo,G., Hudecz,F. and Przybylski,M.
Mass spectrometric identification of the trypsin cleavage pathway in lysyl-proline containing oligotuftsin peptides
J Pept Sci13, 227-236. PubMed Europe PubMed DOI P
Sherawat,M., Kaur,P., Perbandt,M., Betzel,C., Slusarchyk,W.A., Bisacchi,G.S., Chang,C., Jacobson,B.L., Einspahr,H.M. and Singh,T.P.
Structure of the complex of trypsin with a highly potent synthetic inhibitor at 0.97 A resolution
Acta Crystallogr D Biol Crystallogr63, 500-507. PubMed Europe PubMed DOI S I

2006

[YEAR:22-9-2006]Angel,P.M. and Orlando,R.
Trypsin is the primary mechanism by which the (18)O isotopic label is lost in quantitative proteomic studies
Anal Biochem359, 26-34. PubMed Europe PubMed DOI
[YEAR:2-5-2006]Baird,T.T., Jr., Wright,W.D. and Craik,C.S.
Conversion of trypsin to a functional threonine protease
Protein Sci15, 1229-1238. PubMed Europe PubMed DOI
[YEAR:6-3-2006]Caracciolo,G., Martelli,A., Boumis,G., Bellelli,A., Caminiti,R., Congiu-Castellano,A. and Amiconi,G.
Conformational changes of bovine beta-trypsin and trypsinogen induced by divalent ions: an energy-dispersive X-ray diffraction and functional study
Arch Biochem Biophys449, 157-163. PubMed Europe PubMed DOI
[YEAR:2-5-2006]Ishida,T.
Low-barrier hydrogen bond hypothesis in the catalytic triad residue of serine proteases: correlation between structural rearrangement and chemical shifts in the acylation process
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[YEAR:26-6-2006]Paul,J.J., Kircus,S.R., Sorrell,T.N., Ropp,P.A. and Thorp,H.H.
Effects of coordinating metal Ions on the mediated inhibition of trypsin by bis(benzimidazoles) and related compounds
Inorg Chem45, 5126-5135. PubMed Europe PubMed DOI I
[YEAR:2-5-2006]Radisky,E.S., Lee,J.M., Lu,C.J. and Koshland,D.E., Jr.
Insights into the serine protease mechanism from atomic resolution structures of trypsin reaction intermediates
Proc Natl Acad Sci U S A103, 6835-6840. PubMed Europe PubMed DOI S
Shibli,A., Smoum,R., Goldberg,I., Rubinstein,A. and Srebnik,M.
alpha-Amino boronates as cyanoborane complexes: crystal structure and inhibition properties for the serine proteases: alpha-chymotrypsin and trypsin
Appl Organomet Chem20, 459-462. DOI S I
Transue,T.R., Gabel,S.A. and London,R.E.
NMR and crystallographic characterization of adventitious borate binding by trypsin
Bioconjug Chem17, 300-308. PubMed Europe PubMed DOI S I

2005

[YEAR:1-2-2005]Guvench,O., Price,D.J. and Brooks,C.L., III
Receptor rigidity and ligand mobility in trypsin-ligand complexes
Proteins58, 407-417. PubMed Europe PubMed DOI
Shamaladevi,N. and Pattabhi,V.
Secondary binding site of trypsin: revealed by crystal structure of trypsin-peptide complex
J Biomol Struct Dyn22, 635-642. PubMed Europe PubMed DOI S
[YEAR:5-8-2005]Yang,L., Gao,Z., Cao,Y., Xing,R. and Zhang,X.
Effect of PbII on the secondary structure and biological activity of trypsin
Chembiochem6, 1191-1195. PubMed Europe PubMed DOI

2004

Halfon,S., Baird,T.T., Jr. and Craik,C.S.
Trypsin
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[YEAR:1-4-2004]Khajehpour,M., Troxler,T. and Vanderkooi,J.M.
Probing the active site of trypsin with rose bengal: insights into the photodynamic inactivation of the enzyme
Photochem Photobiol80, 359-365. PubMed Europe PubMed DOI
Leiros,H.K., Brandsdal,B.O., Andersen,O.A., Os,V., Leiros,I., Helland,R., Otlewski,J., Willassen,N.P. and Smalas,A.O.
Trypsin specificity as elucidated by LIE calculations, X-ray structures, and association constant measurements
Protein Sci13, 1056-1070. PubMed Europe PubMed DOI S
[YEAR:19-3-2004]Olsen,J.V., Ong,S.E. and Mann,M.
Trypsin cleaves exclusively C-terminal to arginine and lysine residues
Mol Cell Proteomics3, 608-614. PubMed Europe PubMed DOI
Rauh,D., Klebe,G. and Stubbs,M.T.
Understanding protein-ligand interactions: the price of protein flexibility
J Mol Biol335, 1325-1341. PubMed Europe PubMed DOI S
Transue,T.R., Krahn,J.M., Gabel,S.A., DeRose,E.F. and London,R.E.
X-ray and NMR characterization of covalent complexes of trypsin, borate, and alcohols
Biochemistry43, 2829-2839. PubMed Europe PubMed DOI S I
[YEAR:18-6-2004]Zablotna,E., Dysasz,H., Lesner,A., Jaskiewicz,A., Kazmierczak,K., Miecznikowska,H. and Rolka,K.
A simple method for selection of trypsin chromogenic substrates using combinatorial chemistry approach
Biochem Biophys Res Commun319, 185-188. PubMed Europe PubMed DOI A

2003

Chen,J.M., Kukor,Z., Le Marechal,C., Toth,M., Tsakiris,L., Raguenes,O., Ferec,C. and Sahin-Toth,M.
Evolution of trypsinogen activation peptides
Mol Biol Evol20, 1767-1777. PubMed Europe PubMed DOI
Hanquier,J., Sorlet,Y., Desplancq,D., Baroche,L., Ebtinger,M., Lefevre,J.F., Pattus,F., Hershberger,C.L. and Vertes,A.A.
A single mutation in the activation site of bovine trypsinogen enhances its accumulation in the fermentation broth of the yeast Pichia pastoris
Appl Environ Microbiol69, 1108-1113. PubMed Europe PubMed DOI E
[YEAR:31-10-2003]Helland,R., Czapinska,H., Leiros,I., Olufsen,M., Otlewski,J. and Smalas,A.O.
Structural consequences of accommodation of four non-cognate amino acid residues in the S1 pocket of bovine trypsin and chymotrypsin
J Mol Biol333, 845-861. PubMed Europe PubMed DOI
[YEAR:31-10-2003]Schmidt,A., Jelsch,C., Ostergaard,P., Rypniewski,W. and Lamzin,V.S.
Trypsin revisited: crystallography at (sub) atomic resolution and quantum chemistry revealing details of catalysis
J Biol Chem278, 43357-43362. PubMed Europe PubMed DOI S

2002

Bianchini,E.P., Louvain,V.B., Marque,P.E., Juliano,M.A., Juliano,L. and le Bonniec,B.F.
Mapping of the catalytic groove preferences of factor Xa reveals an inadequate selectivity for its macromolecule substrates
J Biol Chem277, 20527-20534. PubMed Europe PubMed DOI P
Cuesta-Seijo,J.A. and Garcia-Granda,S.
Trypsin as a model for high resolution X-ray diffraction in proteins
Bol R Soc Hist Nat Sec Geol97, 123-129.
Cui,J., Marankan,F., Fu,W., Crich,D., Mesecar,A. and Johnson,M.E.
An oxyanion-hole selective serine protease inhibitor in complex with trypsin
Bioorg Med Chem10, 41-46. PubMed Europe PubMed DOI S
Johnson,K.D., Clark,A. and Marshall,S.
A functional comparison of ovine and porcine trypsins
Comp Biochem Physiol B Biochem Mol Biol131, 423-431. PubMed Europe PubMed DOI I

2001

Darvesh,S., Kumar,R., Roberts,S., Walsh,R. and Martin,E.
Butyrylcholinesterase-mediated enhancement of the enzymatic activity of trypsin
Cell Mol Neurobiol21, 285-296. PubMed Europe PubMed DOI
Dormitzer,P.R., Greenberg,H.B. and Harrison,S.C.
Proteolysis of monomeric recombinant rotavirus VP4 yields an oligomeric VP5*core
J Virol75, 7339-7350. PubMed Europe PubMed DOI
Katz,B.A., Sprengeler,P.A., Luong,C., Verner,E., Elrod,K., Kirtley,M., Janc,J., Spencer,J.R., Breitenbucher,J.G., Hui,H., McGee,D., Allen,D., Martelli,A. and Mackman,R.L.
Engineering inhibitors highly selective for the S1 sites of Ser190 trypsin-like serine protease drug targets
Chem Biol8, 1107-1121. PubMed Europe PubMed DOI S
Leiros,H.K., McSweeney,S.M. and Smalas,A.O.
Atomic resolution structures of trypsin provide insight into structural radiation damage
Acta Crystallogr D Biol Crystallogr57, 488-497. PubMed Europe PubMed DOI S
[YEAR:3-8-2001]Lesner,A., Kupryszewski,G. and Rolka,K.
Chromogenic substrates of bovine beta-trypsin: the influence of an amino acid residue in P1 position on their interaction with the enzyme
Biochem Biophys Res Commun285, 1350-1353. PubMed Europe PubMed DOI A P
O'Reilly,D.A., Yang,B.M., Creighton,J.E., Demaine,A.G. and Kingsnorth,A.N.
Mutations of the cationic trypsinogen gene in hereditary and non-hereditary pancreatitis
Digestion64, 54-60. PubMed Europe PubMed DOI M
Pasternak,A., White,A., Jeffery,C.J., Medina,N., Cahoon,M., Ringe,D. and Hedstrom,L.
The energetic cost of induced fit catalysis: crystal structures of trypsinogen mutants with enhanced activity and inhibitor affinity
Protein Sci10, 1331-1342. PubMed Europe PubMed DOI
Tomoo,K., Satoh,K., Tsuda,Y., Wanaka,K., Okamoto,S., Hijikata-Okunomiya,A., Okada,Y. and Ishida,T.
Binding diversity of a noncovalent-type low-molecular-weight serine protease inhibitor and function of a catalytic water molecule: X-ray crystal structure of PKSI-527-inhibited trypsin
J Biochem129, 455-460. PubMed Europe PubMed S I
[YEAR:19-1-2001]Toyota,E., Ng,K.K., Sekizaki,H., Itoh,K., Tanizawa,K. and James,M.N.
X-ray crystallographic analyses of complexes between bovine beta-trypsin and Schiff base copper(II) or iron(III) chelates
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[YEAR:9-3-2001]Xu,S., Rall,K. and Bordusa,F.
Enzymatic coupling of specific peptides at nonspecific ligation sites: effect of Asp189Glu mutation in trypsin on substrate mimetic-mediated reactions
J Org Chem66, 1627-1632. PubMed Europe PubMed DOI

2000

Bass,D.M. and Qiu,S.
Proteolytic processing of the astrovirus capsid
J Virol74, 1810-1814. PubMed Europe PubMed DOI
[YEAR:5-7-2000]Harris,J.L., Backes,B.J., Leonetti,F., Mahrus,S., Ellman,J.A. and Craik,C.S.
Rapid and general profiling of protease specificity by using combinatorial fluorogenic substrate libraries
Proc Natl Acad Sci U S A97, 7754-7759. PubMed Europe PubMed DOI P
Hijikata-Okunomiya,A., Tamao,Y., Kikumoto,R. and Okamoto,S.
Selective inhibition of trypsin by (2R,4R)-4-phenyl-1-[Nalpha-(7-methoxy-2-naphthalenesulfonyl)-L-arginyl]-2-piperidinecarboxylic acid
J Biol Chem275, 18995-18999. PubMed Europe PubMed DOI I
Katz,B.A., Mackman,R., Luong,C., Radika,K., Martelli,A., Sprengeler,P.A., Wang,J., Chan,H. and Wong,L.
Structural basis for selectivity of a small molecule, S1-binding, submicromolar inhibitor of urokinase-type plasminogen activator
Chem Biol7, 299-312. PubMed Europe PubMed DOI S
Rester,U., Moser,M., Huber,R. and Bode,W.
L-Isoaspartate 115 of porcine beta-trypsin promotes crystallization of its complex with bdellastasin
Acta Crystallogr D Biol Crystallogr56, 581-588. PubMed Europe PubMed DOI S

1999

[YEAR:16-11-1999]Johnson,A., Gautham,N. and Pattabhi,V.
Crystal structure at 1.63 A resolution of the native form of porcine beta-trypsin: revealing an acetate ion binding site and functional water network
Biochim Biophys Acta1435, 7-21. PubMed Europe PubMed DOI S
Katz,B.A. and Luong,C.
Recruiting Zn2+ to mediate potent, specific inhibition of serine proteases
J Mol Biol292, 669-684. PubMed Europe PubMed DOI S I
Otani,T. and Matsukura,A.
Cathepsin B inhibitors do not prevent the intracellular trypsinogen activation by secretagogue hyperstimulation
Pancreas19, 210-211. PubMed Europe PubMed I
Pasternak,A., Ringe,D. and Hedstrom,L.
Comparison of anionic and cationic trypsinogens: the anionic activation domain is more flexible in solution and differs in its mode of BPTI binding in the crystal structure
Protein Sci8, 253-258. PubMed Europe PubMed DOI
Polticelli,F., Ascenzi,P., Bolognesi,M. and Honig,B.
Structural determinants of trypsin affinity and specificity for cationic inhibitors
Protein Sci8, 2621-2629. PubMed Europe PubMed DOI I
Recacha,R., Carson,M., Costanzo,M.J., Maryanoff,B., DeLucas,L.J. and Chattopadhyay,D.
Structure of the RWJ-51084-bovine pancreatic beta-trypsin complex at 1.8 A
Acta Crystallogr D Biol Crystallogr55, 1785-1791. PubMed Europe PubMed DOI S I
Szabo,E., Bocskei,Z., Naray-Szabo,G. and Graf,L.
The three-dimensional structure of Asp189Ser trypsin provides evidence for an inherent structural plasticity of the protease
Eur J Biochem263, 20-26. PubMed Europe PubMed DOI
[YEAR:8-1-1999]Wu,C., Robertson,D.H., Hubbard,S.J., Gaskell,S.J. and Beynon,R.J.
Proteolysis of native proteins. Trapping of a reaction intermediate
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Zhu,Y., Huang,Q., Qian,M., Jia,Y. and Tang,Y.
Crystal structure of the complex formed between bovine beta-trypsin and MCTI-A, a trypsin inhibitor of squash family, at 1.8-A resolution
J Protein Chem18, 505-509. PubMed Europe PubMed DOI S

1998

Chobert,J.M., Briand,L. and Haertle,T.
Influence of G187W/K188F/D189Y mutation in the substrate binding pocket of trypsin on beta-casein processing
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Design and synthesis of fluorogenic trypsin peptide substrates based on resonance energy transfer
Anal Biochem265, 225-231. PubMed Europe PubMed DOI A
Katz,B.A., Clark,J.M., Finer-Moore,J.S., Jenkins,T.E., Johnson,C.R., Ross,M.J., Luong,C., Moore,W.R. and Stroud,R.M.
Design of potent selective zinc-mediated serine protease inhibitors
Nature391, 608-612. PubMed Europe PubMed DOI S I
Krishnan,R., Zhang,E., Hakansson,K., Arni,R.K., Tulinsky,A., Lim-Wilby,M.S., Levy,O.E., Semple,J.E. and Brunck,T.K.
Highly selective mechanism-based thrombin inhibitors: structures of thrombin and trypsin inhibited with rigid peptidyl aldehydes
Biochemistry37, 12094-12103. PubMed Europe PubMed DOI S I
Ni,L.M. and Powers,J.C.
Synthesis and kinetic studies of an amidine-containing phosphonofluoridate: a novel potent inhibitor of trypsin-like enzymes
Bioorg Med Chem6, 1767-1773. PubMed Europe PubMed DOI I
[YEAR:1-12-1998]Presnell,S.R., Patil,G.S., Mura,C., Jude,K.M., Conley,J.M., Bertrand,J.A., Kam,C.M., Powers,J.C. and Williams,L.D.
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Biochemistry37, 17068-17081. PubMed Europe PubMed DOI S I
Varallyay,E., Pal,G., Patthy,A., Szilagyi,L. and Graf,L.
Two mutations in rat trypsin confer resistance against autolysis
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1997

Kaslik,G., Kardos,J., Szabo,E., Szilagyi,L., Zavodszky,P., Westler,W.M., Markley,J.L. and Graf,L.
Effects of serpin binding on the target proteinase: global stabilization, localized increased structural flexibility, and conserved hydrogen bonding at the active site
Biochemistry36, 5455-5464. PubMed Europe PubMed DOI
Kurth,T., Ullmann,D., Jakubke,H.D. and Hedstrom,L.
Converting trypsin to chymotrypsin: Structural determinants of S1' specificity
Biochemistry36, 10098-10104. PubMed Europe PubMed DOI
Li,X.F., Tang,J.G. and Zhang,L.X.
Autolytic site mutant R105C of rat trypsin
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Roach,J.C., Wang,K., Gan,L. and Hood,L.
The molecular evolution of the vertebrate trypsinogens
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Takahashi,K.
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Varallyay,E., Lengyel,Z., Graf,L. and Szilagyi,L.
The role of disulfide bond C191-C220 in trypsin and chymotrypsin
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1996

[YEAR:12-3-1996]Bertrand,J.A., Oleksyszyn,J., Kam,C.M., Boduszek,B., Presnell,S., Plaskon,R.R., Suddath,F.L., Powers,J.C. and Williams,L.D.
Inhibition of trypsin and thrombin by amino(4-amidinophenyl)methanephosphonate diphenyl ester derivatives: X-ray structures and molecular models
Biochemistry35, 3147-3155. PubMed Europe PubMed DOI S I
Hedstrom,L., Lin,T.Y. and Fast,W.
Hydrophobic interactions control zymogen activation in the trypsin family of serine proteases
Biochemistry35, 4515-4523. PubMed Europe PubMed DOI
Hedstrom,L.
Trypsin: a case study in the structural determinants of enzyme specificity
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Kurinov,I.V. and Harrison,R.W.
Two crystal structures of the leupeptin-trypsin complex
Protein Sci5, 752-758. PubMed Europe PubMed DOI S I
Sreedharan,S.K., Verma,C., Caves,L.S., Brocklehurst,S.M., Gharbia,S.E., Shah,H.N. and Brocklehurst,K.
Demonstration that 1-trans-epoxysuccinyl-L-leucylamido- (4-guanidino)butane (E-64) is one of the most effective low Mr inhibitors of trypsin-catalysed hydrolysis. Characterization by kinetic analysis and by energy minimization and molecular dynamics simulation of the E-64-beta-trypsin complex
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1995

Matsuzaki,T., Umeyama,H. and Kikumoto,R.
Mechanisms of the selective inhibition of thrombin, factor Xa, plasmin and trypsin
Pharmacochem Libr23, 83-95. DOI S I
Odagaki,Y., Nakai,H., Senokuchi,K., Kawamura,M., Hamanaka,N., Nakamura,M., Tomoo,K. and Ishida,T.
Unique binding of a novel synthetic inhibitor, N-[3-[4-[4-(amidinophenoxy)carbonyl]phenyl]-2-methyl-2-propenoyl]-N-allylglycine methanesulfonate, to bovine trypsin, revealed by the crystal structure of the complex
Biochemistry34, 12849-12853. PubMed Europe PubMed DOI S I

1994

[YEAR:26-7-1994]Hedstrom,L., Farr-Jones,S., Kettner,C.A. and Rutter,W.J.
Converting trypsin to chymotrypsin: ground-state binding does not determine substrate specificity
Biochemistry33, 8764-8769. PubMed Europe PubMed DOI I
[YEAR:26-7-1994]Hedstrom,L., Perona,J.J. and Rutter,W.J.
Converting trypsin to chymotrypsin: residue 172 is a substrate specificity determinant
Biochemistry33, 8757-8763. PubMed Europe PubMed DOI
Huang,Q., Wang,Z., Li,Y., Liu,S. and Tang,Y.
Refined 1.8 A resolution crystal structure of the porcine epsilon-trypsin
Biochim Biophys Acta1209, 77-82. PubMed Europe PubMed DOI S
Lee,A.Y., Smitka,T.A., Bonjouklian,R. and Clardy,J.
Atomic structure of the trypsin-A90720A complex: a unified approach to structure and function
Chem Biol1, 113-117. PubMed Europe PubMed DOI S I
Rypniewski,W.R., Perrakis,A., Vorgias,C.E. and Wilson,K.S.
Evolutionary divergence and conservation of trypsin
Protein Eng7, 57-64. PubMed Europe PubMed
[YEAR:12-4-1994]Schellenberger,V., Turck,C.W. and Rutter,W.J.
Role of the S' subsites in serine protease catalysis. Active-site mapping of rat chymotrypsin, rat trypsin, alpha-lytic protease, and cercarial protease from Schistosoma mansoni
Biochemistry33, 4251-4257. PubMed Europe PubMed

1992

[YEAR:6-3-1992]Hedstrom,L., Szilagyi,L. and Rutter,W.J.
Converting trypsin to chymotrypsin: the role of surface loops
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Takeuchi,Y., Nonaka,T., Nakamura,K.T., Kojima,S., Miura,K. and Mitsui,Y.
Crystal structure of an engineered subtilisin inhibitor complexed with bovine trypsin
Proc Natl Acad Sci U S A89, 4407-4411. PubMed Europe PubMed DOI S

1990

Chow,M.M., Meyer,E.F., Jr., Bode,W., Kam,C.M., Radhakrishnan,R., Vijayalakshmi,J. and Powers,J.C.
The 2.2-_ resolution x-ray crystal structure of the complex of trypsin inhibited by 4-chloro-3-ethoxy-7-guanidinoisocoumarin: a proposed model of the thrombin-inhibitor complex
J Am Chem Soc112, 7783-7789. S I
Schmitt,S., Goetschel,J.D., Rommelt,E.M. and Adler,C.
One-step purification of trypsin and alpha-chymotrypsin by affinity chromatography on Eupergit-aprotinin, a novel carrier for purification of serine proteases
J Chromatogr510, 239-242. PubMed Europe PubMed DOI

1989

Bartunik,H.D., Summers,L.J. and Bartsch,H.H.
Crystal structure of bovine beta-trypsin at 1.5 A resolution in a crystal form with low molecular packing density. Active site geometry, ion pairs and solvent structure
J Mol Biol210, 813-828. PubMed Europe PubMed S
Zhou,J.M., Liu,C. and Tsou,C.L.
Kinetics of trypsin inhibition by its specific inhibitors
Biochemistry28, 1070-1076. PubMed Europe PubMed

1988

Graf,L., Jancso,A., Szilagyi,L., Hegyi,G., Pinter,K., Naray-Szabo,G., Hepp,J., Medzihradszky,K. and Rutter,W.J.
Electrostatic complementarity within the substrate-binding pocket of trypsin
Proc Natl Acad Sci U S A85, 4961-4965. PubMed Europe PubMed

1987

[YEAR:1-2-1987]Angliker,H., Wikstrom,P., Rauber,P. and Shaw,E.
The synthesis of lysylfluoromethanes and their properties as inhibitors of trypsin, plasmin and cathepsin B
Biochem J241, 871-875. PubMed Europe PubMed I
Fletcher,T.S., Alhadeff,M., Craik,C.S. and Largman,C.
Isolation and characterization of a cDNA encoding rat cationic trypsinogen
Biochemistry26, 3081-3086. PubMed Europe PubMed

1984

Bode,W., Walter,J., Huber,R., Wenzel,H.R. and Tschesche,H.
The refined 2.2-A (0.22-nm) X-ray crystal structure of the ternary complex formed by bovine trypsinogen, valine-valine and the Arg15 analogue of bovine pancreatic trypsin inhibitor
Eur J Biochem144, 185-190. PubMed Europe PubMed S
Craik,C.S., Choo,Q.L., Swift,G.H., Quinto,C., Macdonald,R.J. and Rutter,W.J.
Structure of two related rat pancreatic trypsin genes
J Biol Chem259, 14255-14264. PubMed Europe PubMed
Honey,N.K., Sakaguchi,A.Y., Lalley,P.A., Quinto,C., Macdonald,R.J., Craik,C., Bell,G.I., Rutter,W.J. and Naylor,S.L.
Chromosomal assignments of genes for trypsin, chymotrypsin B, and elastase in mouse
Somat Cell Mol Genet10, 377-383. PubMed Europe PubMed

1983

Malthouse,J.P.G., Mackenzie,N.E., Boyd,A.S.F. and Scott,A.I.
Detection of a tetrahedral adduct in a trypsin-chloromethyl ketone specific inhibitor complex by 13C NMR
J Am Chem Soc105, 1685-1686. I
Marquart,M., Walter,J., Deisenhofer,J., Bode,W. and Huber,R.
The geometry of the reactive site and of the peptide groups in trypsin, trypsinogen and its complexes with inhibitors
Acta Crystallographica Section B-Structural Science39, 480-490. DOI
Walter,J. and Bode,W.
The X-ray crystal structure analysis of the refined complex formed by bovine trypsin and p-amidinophenylpyruvate at 1.4 A resolution
Hoppe Seylers Z Physiol Chem364, 949-959. PubMed Europe PubMed S

1982

[YEAR:25-12-1982]Bolognesi,M., Gatti,G., Menagatti,E., Guarneri,M., Marquart,M., Papamokos,E. and Huber,R.
Three-dimensional structure of the complex between pancreatic secretory trypsin inhibitor (Kazal type) and trypsinogen at 1.8 A resolution. Structure solution, crystallographic refinement and preliminary structural interpretation
J Mol Biol162, 839-868. PubMed Europe PubMed S
[YEAR:25-8-1982]Macdonald,R.J., Stary,S.J. and Swift,G.H.
Two similar but nonallelic rat pancreatic trypsinogens. Nucleotide sequences of the cloned cDNAs
J Biol Chem257, 9724-9732. PubMed Europe PubMed

1981

[YEAR:27-10-1981]Kossiakoff,A.A. and Spencer,S.A.
Direct determination of the protonation states of aspartic acid-102 and histidine-57 in the tetrahedral intermediate of the serine proteases: neutron structure of trypsin
Biochemistry20, 6462-6474. PubMed Europe PubMed
McRae,B.J., Kurachi,K., Heimark,R.L., Fujikawa,K., Davie,E.W. and Powers,J.C.
Mapping the active sites of bovine thrombin, factor IXa, factor Xa, factor XIa, factor XIIa, plasma kallikrein, and trypsin with amino acid and peptide thioesters: development of new sensitive substrates
Biochemistry20, 7196-7206. PubMed Europe PubMed

1979

[YEAR:5-2-1979]Bode,W.
The transition of bovine trypsinogen to a trypsin-like state upon strong ligand binding. II. The binding of the pancreatic trypsin inhibitor and of isoleucine-valine and of sequentially related peptides to trypsinogen and to p-guanidinobenzoate-trypsinogen
J Mol Biol127, 357-374. PubMed Europe PubMed I

1978

Bloom,J.W. and Hunter,M.J.
Interactions of alpha1-antitrypsin with trypsin and chymotrypsin
J Biol Chem253, 547-559. PubMed Europe PubMed
[YEAR:15-6-1978]Bode,W. and Huber,R.
Crystal structure analysis and refinement of two variants of trigonal trypsinogen: trigonal trypsin and PEG (polyethylene glycol) trypsinogen and their comparison with orthorhombic trypsin and trigonal trypsinogen
FEBS Lett90, 265-269. PubMed Europe PubMed DOI
[YEAR:5-1-1978]Bode,W., Schwager,P. and Huber,R.
The transition of bovine trypsinogen to a trypsin-like state upon strong ligand binding. The refined crystal structures of the bovine trypsinogen-pancreatic trypsin inhibitor complex and of its ternary complex with Ile-Val at 1.9 A resolution
J Mol Biol118, 99-112. PubMed Europe PubMed
DeTraglia,M.C., Brand,J.S. and Tometsko,A.M.
Characterization of azidobenzamidines as photoaffinity labels for trypsin
J Biol Chem253, 1846-1852. PubMed Europe PubMed I
Huber,R. and Bode,W.
Structural basis of the activation and action of trypsin
Acc Chem Res11, 114-122. S
Lively,M.O. and Powers,J.C.
Specificity and reactivity of human granulocyte elastase and cathepsin G, porcine pancreatic elastase, bovine chymotrypsin and trypsin toward inhibition with sulfonyl fluorides
Biochim Biophys Acta525, 171-179. PubMed Europe PubMed I
[YEAR:31-10-1978]Porubcan,M.A., Neves,D.E., Rausch,S.K. and Markley,J.L.
Active site in zymogens. Proton magnetic resonance pH titration curves of histidine-57 in porcine and bovine trypsinogens and in their complexes with bovine pancreatic trypsin inhibitor (Kunitz)
Biochemistry17, 4640-4647. PubMed Europe PubMed

1977

Fehlhammer,H., Bode,W. and Huber,R.
Crystal structure of bovine trypsinogen at 1-8 A resolution. II. Crystallographic refinement, refined crystal structure and comparison with bovine trypsin
J Mol Biol111, 415-438. PubMed Europe PubMed S
Kossiakoff,A.A., Chambers,J.L., Kay,L.M. and Stroud,R.M.
Structure of bovine trypsinogen at 1.9 A resolution
Biochemistry16, 654-664. PubMed Europe PubMed S
Kraut,J.
Serine proteases: structure and mechanism of catalysis
Annu Rev Biochem46, 331-358. PubMed Europe PubMed DOI
[YEAR:13-10-1977]Tamura,Y., Hirado,M., Okamura,K., Minato,Y. and Fujii,S.
Synthetic inhibitors of trypsin, plasmin, kallikrein, thrombin, C1r, and C1 esterase
Biochim Biophys Acta484, 417-422. PubMed Europe PubMed I

1976

Bode,W., Fehlhammer,H. and Huber,R.
Crystal structure of bovine trypsinogen at 1-8 A resolution. I. Data collection, application of patterson search techniques and preliminary structural interpretation
J Mol Biol106, 325-335. PubMed Europe PubMed S
Casey,R. and Lang,A.
Tryptic hydrolysis at asparagine residues in globin chains
Biochim Biophys Acta434, 184-188. PubMed Europe PubMed P
Geratz,J.D., Cheng,M.C. and Tidwell,R.R.
Novel bis(benzamidino) compounds with an aromatic central link. Inhibitors of thrombin, pancreatic kallikrein, trypsin, and complement
J Med Chem19, 634-639. PubMed Europe PubMed I

1975

[YEAR:15-11-1975]Bode,W. and Schwager,P.
The refined crystal structure of bovine beta-trypsin at 1.8 A resolution. II. Crystallographic refinement, calcium binding site, benzamidine binding site and active site at pH 7.0
J Mol Biol98, 693-717. PubMed Europe PubMed S I
Fehlhammer,H. and Bode,W.
The refined crystal structure of bovine beta-trypsin at 1.8 A resolution. I. Crystallization, data collection and application of patterson search technique
J Mol Biol98, 683-692. PubMed Europe PubMed S
Geratz,J.D., Mar,E.C., Loeffler,L.J. and Fox,L.B.
Synthesis of isosteres of p-amidinophenylpyruvic acid. Inhibitors of trypsin, thrombin and pancreatic kallikrein
J Med Chem18, 287-292. PubMed Europe PubMed I
Harpel,P.C. and Cooper,N.R.
Studies on human plasma C1 inactivator-enzyme interactions. I. Mechanisms of interaction with C1s, plasmin, and trypsin
J Clin Invest55, 593-604. PubMed Europe PubMed DOI
[YEAR:30-5-1975]Huber,R., Bode,W., Kukla,D., Kohl,U. and Ryan,C.A.
The structure of the complex formed by bovine trypsin and bovine pancreatic trypsin inhibitor III. Structure of the anhydro-trypsin-inhibitor complex
Biophys Struct Mech1, 189-201. PubMed Europe PubMed S
[YEAR:8-4-1975]Titani,K., Ericsson,L.H., Neurath,H. and Walsh,K.A.
Amino acid sequence of dogfish trypsin
Biochemistry14, 1358-1366. PubMed Europe PubMed

1974

[YEAR:15-10-1974]Huber,R., Kukla,D., Bode,W., Schwager,P., Bartels,K., Deisenhofer,J. and Steigemann,W.
Structure of the complex formed by bovine trypsin and bovine pancreatic trypsin inhibitor. II. Crystallographic refinement at 1.9 A resolution
J Mol Biol89, 73-101. PubMed Europe PubMed S
[YEAR:25-2-1974]Krieger,M., Kay,L.M. and Stroud,R.M.
Structure and specific binding of trypsin: comparison of inhibited derivatives and a model for substrate binding
J Mol Biol83, 209-230. PubMed Europe PubMed I
[YEAR:24-9-1974]Sweet,R.M., Wright,H.T., Janin,J., Chothia,C.H. and Blow,D.M.
Crystal structure of the complex of porcine trypsin with soybean trypsin inhibitor (Kunitz) at 2.6-A resolution
Biochemistry13, 4212-4228. PubMed Europe PubMed S

1973

Baratti,J., Maroux,S. and Louvard,D.
Effect of ionic strength and calcium ions on the activation of trypsinogen by enterokinase. A modified test for the quantitative evaluation of this enzyme
Biochim Biophys Acta321, 632-638. PubMed Europe PubMed
Coats,E.A.
Comparative inhibition of thrombin, plasmin, trypsin, and complement by benzamidines using substituent constants and regression analysis
J Med Chem16, 1102-1106. PubMed Europe PubMed I
Jameson,G.W., Roberts,D.V., Adams,R.W., Kyle,W.S. and Elmore,D.T.
Determination of the operational molarity of solutions of bovine alpha-chymotrypsin, trypsin, thrombin and factor Xa by spectrofluorimetric titration
Biochem J131, 107-117. PubMed Europe PubMed I
[YEAR:10-3-1973]Luthy,J.A., Praissman,M., Finkenstadt,W.R. and Laskowski,M., Jr.
Detailed mechanism of interaction of bovine beta-trypsin with soybean trypsin inhibitor (Kunitz). I. Stopped flow measurements
J Biol Chem248, 1760-1771. PubMed Europe PubMed
Ohlsson,K. and Tegner,H.
Anionic and cationic dog trypsin. Isolation and partial characterization
Biochim Biophys Acta317, 328-337. PubMed Europe PubMed
Rinderknecht,H. and Geokas,M.C.
Anionic and cationic trypsinogens (trypsins) in mammalian pancreas
Enzyme14, 116-130.
Ruhlmann,A., Kukla,D., Schwager,P., Bartels,K. and Huber,R.
Structure of the complex formed by bovine trypsin and bovine pancreatic trypsin inhibitor. Crystal structure determination and stereochemistry of the contact region
J Mol Biol77, 417-436. PubMed Europe PubMed S

1972

[YEAR:28-6-1972]Ako,H., Foster,R.J. and Ryan,C.A.
The preparation of anhydro-trypsin and its reactivity with naturally occurring proteinase inhibitors
Biochem Biophys Res Commun47, 1402-1407. PubMed Europe PubMed
Geratz,J.D.
Kinetic aspects of the irreversible inhibition of trypsin and related enzymes by p-[m(m-fluorosulfonylphenylureido)phenoxyethoxy]benzamidine
FEBS Lett20, 294-296. PubMed Europe PubMed I

1971

Keil-Dlouha V,V., Zylber,N., Imhoff,J., Tong,N. and Keil,B.
Proteolytic activity of pseudotrypsin
FEBS Lett16, 291-295. PubMed Europe PubMed
Keil,B.
8. Trypsin
Enzymes3, 249-275. DOI
[YEAR:25-11-1971]Kemmler,W., Peterson,J.D. and Steiner,D.F.
Studies on the conversion of proinsulin to insulin. I. Conversion in vitro with trypsin and carboxypeptidase B
J Biol Chem246, 6786-6791. PubMed Europe PubMed

1970

Feinstein,G.
Purification of trypsin by affinity chromatography on ovomucoid-Sepharose resin
FEBS Lett7, 353-355. PubMed Europe PubMed
Walsh,K.A.
Trypsinogens and trypsins of various species
Methods Enzymol19, 41-63. DOI V
Zahnley,J.C. and Davis,J.G.
Determination of trypsin-inhibitor complex dissociation by use of the active site titrant, p-nitrophenyl p'-guanidinobenzoate
Biochemistry9, 1428-1433. PubMed Europe PubMed I

1969

Abita,J.P., Delaage,M. and Lazdunski,M.
The mechanism of activation of trypsinogen. The role of the four N-terminal aspartyl residues
Eur J Biochem8, 314-324. PubMed Europe PubMed
Chase,T., Jr. and Shaw,E.
Comparison of the esterase activities of trypsin, plasmin, and thrombin on guanidinobenzoate esters. Titration of the enzymes
Biochemistry8, 2212-2224. PubMed Europe PubMed DOI I
Smith,R.L. and Shaw,E.
Pseudotrypsin. A modified bovine trypsin produced by limited autodigestion
J Biol Chem244, 4704-4712. PubMed Europe PubMed I

1968

Baker,B.R. and Erickson,E.H.
Irreversible enzyme inhibitors. CXV. Proteolytic enzymes. V. Active-site-directed irreversible inhibitors of trypsin derived from p-(phenoxyalkoxy) benzamidines with a terminal sulfonyl fluoride
J Med Chem11, 245-249. PubMed Europe PubMed I
Elmore,D.T. and Smyth,J.J.
A new method for determining the absolute molarity of solutions of trypsin and chymotrypsin by using p-nitrophenyl N2-acetyl-N1-benzylcarbazate
Biochem J107, 103-107. PubMed Europe PubMed I
Elmore,D.T. and Smyth,J.J.
The behaviour of trypsin towards alpha-N-methyl-alpha-N-toluene-p-sulfonyl-L-lysine beta-naphthyl ester. A new method for determining the absolute molarity of solutions of trypsin
Biochem J107, 97-102. PubMed Europe PubMed A
Tanizawa,K., Ishii,S.I. and Kanaoka,Y.
Trypsin substrates derived from benzamidine: application to active site titration and isolation of acyl-enzyme intermediate
Biochem Biophys Res Commun32, 893-897. PubMed Europe PubMed I

1967

[YEAR:30-11-1967]Chase,T., Jr. and Shaw,E.
p-Nitrophenyl-p'-guanidinobenzoate HCl: a new active site titrant for trypsin
Biochem Biophys Res Commun29, 508-514. PubMed Europe PubMed I
Elmore,D.T., Roberts,D.V. and Smyth,J.J.
Kinetics and mechanism of catalysis by proteolytic enzymes: the kinetics of hydrolysis of derivatives of l-lysine and S-(beta-aminoethyl)-l-cysteine(thialysine)by bovine trypsin
Biochem J102, 728-734. PubMed Europe PubMed
Rovery,M.
[25] Chromatography of trypsin to remove chymotrypsin, and of chymotrypsin to remove trypsin
Methods Enzymol11, 231-236. DOI

1966

Bender,M.L., Begue-Canton,M.L., Blakeley,R.L., Brubacher,L.J., Feder,J., Gunter,C.R., Kezdy,F.J., Killheffer,J.V., Jr., Marshall,T.H., Miller,C.G., Roeske,R.W. and Stoops,J.K.
The determination of the concentration of hydrolytic enzyme solutions: alpha-chymotrypsin, trypsin, papain, elastase, subtilisin, and acetylcholinesterase
J Am Chem Soc88, 5890-5913. PubMed Europe PubMed
[YEAR:25-11-1966]Feinstein,G. and Feeney,R.E.
Interaction of inactive derivatives of chymotrypsin and trypsin with protein inhibitors
J Biol Chem241, 5183-5189. PubMed Europe PubMed

1965

Hartley,B.S., Brown,J.R., Kauffman,D.L. and Smillie,L.B.
Evolutionary similarities between pancreatic proteolytic enzymes
Nature207, 1157-1159. PubMed Europe PubMed DOI
Mares-Guia,M. and Shaw,E.
Studies on the active center of trypsin. The binding of amidines and guanidines as models of the substrate side chain
J Biol Chem240, 1579-1585. PubMed Europe PubMed I
Plapinger,R.E., Nachlas,M.M., Seligman,M.L. and Seligman,A.M.
Synthesis of chromogenic arginine derivatives as substrates for trypsin
J Org Chem30, 1781-1785. PubMed Europe PubMed
Shaw,E., Mares-Guia,M. and Cohen,W.
Evidence for an active-center histidine in trypsin through use of a specific reagent, 1-chloro-3-tosylamido-7-amino-2-heptanone, the chloromethyl ketone derived from Nalpha-tosyl-L-lysine
Biochemistry4, 2219-2224. I

1964

Walsh,K.A., Kauffman,D.L., Kumar,K.S. and Neurath,H.
ON THE STRUCTURE AND FUNCTION OF BOVINE TRYPSINOGEN AND TRYPSIN
Proc Natl Acad Sci U S A51, 301-308. PubMed Europe PubMed
Walsh,K.A. and Neurath,H.
Trypsinogen and chymotrypsinogen as homologous proteins
Proc Natl Acad Sci U S A52, 884-889. PubMed Europe PubMed

1963

Fahrney,D.E. and Gold,A.M.
Sulfonyl fluorides as inhibitors of esterases. I. Rates of reaction with acetylcholinesterase, alpha-chymotrypsin, and trypsin
J Am Chem Soc85, 997-1000. DOI I
Inagami,T. and Murachi,T.
Induced activation of the catalytic site of trypsin
J Biol Chem238, C1905-C1907. PubMed Europe PubMed
Roth,M.
[Fluorimetric determination of trypsin]
Clin Chim Acta8, 574-578. PubMed Europe PubMed A
Trowbridge,C.G., Krehbiel,A. and Laskowski,M., Jr.
Substrate activation of trypsin
Biochemistry2, 843-850. PubMed Europe PubMed
Wolf,J.P., III and Niemann,C.
The alpha-chymotrypsin-catalyzed hydrolysis of a series of analogs of acetylglycine methyl ester
Biochemistry2, 493-497. PubMed Europe PubMed

1962

Allende,J.E. and Richards,F.M.
The action of trypsin on ribonuclease-S
Biochemistry1, 295-304. PubMed Europe PubMed
Travis,J. and Liener,I.E.
The crystallization of pork trypsin
Arch Biochem Biophys97, 218-219. PubMed Europe PubMed
[YEAR:17-12-1962]Walsh,K.A., Kauffman,D.L. and Neurath,H.
Peptides isolated from tryptic and chymotryptic hydrolysates of S-sulfotrypsinogen
Biochim Biophys Acta65, 540-543. PubMed Europe PubMed

1959

Greenbaum,L.M., Hirshkowitz,A. and Shoichet,I.
The activation of trypsinogen by cathepsin B
J Biol Chem234, 2885-2890. PubMed Europe PubMed
Hummel,B.C.
A modified spectrophotometric determination of chymotrypsin, trypsin, and thrombin
Can J Biochem Physiol37, 1393-1399. PubMed Europe PubMed A
Riedel,A., Wunsch,E. and Hartl,A.
Nalpha-Benzoyl-arginin-á-naphthylamid als Substrat zur quantitaven kolorimetrischen Bestimmung von Trypsin
Hoppe Seylers Z Physiol Chem316, 61-70. A

1958

Dixon,G.H., Kauffman,D.L. and Neurath,H.
Amino acid sequence in the region of di-isopropyl phosphoryl binding in dip-trypsin
J Am Chem Soc80, 1260-1261. I
Dixon,G.H., Kauffman,D.L. and Neurath,H.
Amino acid sequence in the region of diisopropylphosphoryl binding in diisopropylphosphoryl-trypsin
J Biol Chem233, 1373-1381. PubMed Europe PubMed I

1957

Green,N.M.
Kinetics of the reaction between trypsin and the pancreatic trypsin inhibitor
Biochem J66, 407-415. PubMed Europe PubMed

1956

Dixon,G.H. and Neurath,H.
The reaction of DFP with trypsin
Biochim Biophys Acta20, 572-574. PubMed Europe PubMed I
Watson,J.
Trypsin-catalyzed reactions of lysyl-lysine ethyl ester
Institute of Physics Online Archive52, 592-605.

1955

Davie,E.W. and Neurath,H.
Identification of a peptide released during autocatalytic activation of trypsinogen
J Biol Chem212, 515-529. PubMed Europe PubMed
Laskowski,M.
[3] Trypsinogen and trypsin
Methods Enzymol2, 26-36. DOI V
Schwert,G.W. and Takenaka,Y.
A spectrophotometric determination of trypsin and chymotrypsin
Biochim Biophys Acta16, 570-575. PubMed Europe PubMed A

1954

Ram,J.S., Terminiello,L., Bier,M. and Nord,F.F.
On the mechanism of enzyme action. LVII. Interaction between trypsin and ovomucoid
Arch Biochem52, 451-463. PubMed Europe PubMed

1953

Green,N.M. and Work,E.
Pancreatic trypsin inhibitor. II. Reaction with trypsin
Biochem J54, 347-352. PubMed Europe PubMed
Green,N.M. and Neurath,H.
The effects of divalent cations on trypsin
J Biol Chem204, 379-390. PubMed Europe PubMed

1951

Sanger,F. and Tuppy,H.
Amino-acid sequence in the phenylalanyl chain of insulin. 2. The investigation of peptides from enzymic hydrolysates
Biochem J49, 481-490. PubMed Europe PubMed P

1950

Neurath,H. and Schwert,G.W.
The mode of action of the crystalline pancreatic proteolytic enzymes
Chem Rev46, 69-153. PubMed Europe PubMed V

1948

Schwert,G.W. and Neurath,H.
The specific esterase activity of trypsin
J Biol Chem172, 221-239. PubMed Europe PubMed

1947

[YEAR:20-3-1947]Kunitz,M.
Isolation of a crystalline protein compound of trypsin and of soybean trypsin-inhibitor
J Gen Physiol30, 311-320. PubMed Europe PubMed DOI

1946

McDonald,M.R. and Kunitz,M.
An improved method for the crystallization of trypsin
J Gen Physiol29, 155-156. PubMed Europe PubMed DOI

1941

Butler,J.A.V.
The molecular kinetics of trypsin action
J Am Chem Soc63, 2971-2974.
[YEAR:20-9-1941]McDonald,M.R. and Kunitz,M.
The effect of calcium and other ions on the autocatalytic formation of trypsin from trypsinogen
J Gen Physiol25, 53-73. PubMed Europe PubMed DOI

1939

Hofmann,K. and Bergmann,M.
The specificity of trypsin. II
J Biol Chem130, 81-86.
[YEAR:20-3-1939]Kunitz,M.
Formation of trypsin from crystalline trypsinogen by means of enterokinase
J Gen Physiol22, 429-446. PubMed Europe PubMed DOI
[YEAR:20-9-1938]Anson,M.L.
The estimation of pepsin, trypsin, papain and cathepsin with hemoglobin
J Gen Physiol22, 79-89. PubMed Europe PubMed DOI A

1938

[YEAR:20-5-1938]Kunitz,M.
Formation of trypsin from trypsinogen by an enzyme produced by a mold of the genus Penicillium
J Gen Physiol21, 601-620. PubMed Europe PubMed DOI

1936

Kunitz,M. and Northrop,J.H.
Isolation from beef pancreas of crystalline trypsinogen, trypsin, a trypsin inhibitor, and an inhibitor-trypsin compound
J Gen Physiol19, 991-1007. PubMed Europe PubMed DOI

1935

Bergmann,M., Zervas,L. and Fruton,J.S.
A synthetic peptide as substrate for tryptic proteinase
Science81, 180-180. PubMed Europe PubMed DOI

1934

[YEAR:20-3-1934]Kunitz,M. and Northrop,J.H.
Inactivation of crystalline trypsin
J Gen Physiol17, 591-615. PubMed Europe PubMed DOI

1932

[YEAR:20-11-1932]Northrop,J.H.
Crystalline trypsin: V. Kinetics of the digestion of proteins with crude and crystalline trypsin
J Gen Physiol16, 339-348. PubMed Europe PubMed DOI
[YEAR:20-11-1932]Northrop,J.H. and Kunitz,M.
Crystalline trypsin: II. General properties
J Gen Physiol16, 295-311. PubMed Europe PubMed DOI
[YEAR:20-11-1932]Northrop,J.H. and Kunitz,M.
Crystalline trypsin: III. Experimental procedure and methods of measuring activity
J Gen Physiol16, 313-321. PubMed Europe PubMed DOI
[YEAR:20-11-1932]Northrop,J.H.
Crystalline trypsin: IV. Reversibility of the inactivation and denaturation of trypsin by heat
J Gen Physiol16, 323-337. PubMed Europe PubMed DOI
Northrop,J.H. and Kunitz,M.
Crystalline trypsin. I. Isolation and tests of purity
J Gen Physiol16, 267-294. PubMed Europe PubMed DOI

1925

[YEAR:20-3-1924]Northrop,J.H.
The kinetics of trypsin digestion: II. Conditions under which the reaction is monomolecular
J Gen Physiol6, 417-428. PubMed Europe PubMed DOI
[YEAR:20-3-1924]Northrop,J.H.
The kinetics of trypsin digestion: III. The course of the reaction with constant substrate under conditions causing inactivation of the enzyme
J Gen Physiol6, 429-437. PubMed Europe PubMed DOI
[YEAR:20-3-1924]Northrop,J.H.
The kinetics of trypsin digestion: IV. The course of the reaction when both substrate and enzyme concentrations are decreasing
J Gen Physiol6, 439-452. PubMed Europe PubMed DOI
[YEAR:20-1-1924]Northrop,J.H.
The kinetics of trypsin digestion: I. Experimental evidence concerning the existence of an intermediate compound
J Gen Physiol6, 239-243. PubMed Europe PubMed DOI
[YEAR:20-7-1924]Northrop,J.H.
The kinetics of trypsin digestion: V. Schutz's rule
J Gen Physiol6, 723-729. PubMed Europe PubMed DOI
[YEAR:20-1-1924]Northrop,J.H.
A test for diffusible ions: I. The ionic nature of trypsin
J Gen Physiol6, 337-347. PubMed Europe PubMed DOI

1923

[YEAR:20-1-1923]Northrop,J.H. and Hussey,R.G.
A method for the quantitative determination of trypsin and pepsin
J Gen Physiol5, 353-358. PubMed Europe PubMed DOI
[YEAR:20-5-1922]Northrop,J.H.
Does the kinetics of trypsin digestion depend on the formation of a compound between enzyme and substrate
J Gen Physiol4, 487-509. PubMed Europe PubMed DOI

1911

White,G.F. and Crozier,W.
Comparative proteolysis experiments with trypsin
J Am Chem Soc30, 2042-2048.

1905

Hedin,S.G.
Observations on the action of trypsin
J Physiol32, 468-485. PubMed Europe PubMed DOI