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Literature for peptidase S01.151: trypsin 1

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

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    2018
  1. 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
  2. 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
  3. 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
    4. 2017
  4. 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
  5. 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
  6. 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
    7. 2016
  7. 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
  8. 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
    9. 2015
  9. 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
  10. 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
  11. 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
    12. 2014
  12. 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
  13. 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
  14. 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
    15. 2013
  15. 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
    16. 2011
  16. Xue,W., Zhang,G. and Zhang,D.
    A sensitive colorimetric label-free assay for trypsin and inhibitor screening with gold nanoparticles
    Analyst136, 3136-3141. PubMed  Europe PubMed DOI  A
    17. 2004
  17. [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
    18. 2001
  18. [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
    19. 1998
  19. [YEAR:15-12-1998]Grahn,S., Ullmann,D. and Jakubke,H.
    Design and synthesis of fluorogenic trypsin peptide substrates based on resonance energy transfer
    Anal Biochem265, 225-231. PubMed  Europe PubMed DOI  A
    20. 1968
  20. 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
    21. 1963
  21. Roth,M.
    [Fluorimetric determination of trypsin]
    Clin Chim Acta8, 574-578. PubMed  Europe PubMed  A
    22. 1959
  22. Hummel,B.C.
    A modified spectrophotometric determination of chymotrypsin, trypsin, and thrombin
    Can J Biochem Physiol37, 1393-1399. PubMed  Europe PubMed  A
  23. 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
    24. 1955
  24. Schwert,G.W. and Takenaka,Y.
    A spectrophotometric determination of trypsin and chymotrypsin
    Biochim Biophys Acta16, 570-575. PubMed  Europe PubMed  A
    25. 1939
  25. [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

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