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Literature for peptidase C47.002: staphopain B

Summary Alignment Tree Sequences Sequence features Distribution Structure Literature Substrates

(Topics flags: S Structure, V Review. To select only the references relevant to a single topic, click the link above. See explanation.)

    2020
  1. Williams,M.R., Cau,L., Wang,Y., Kaul,D., Sanford,J.A., Zaramela,L.S., Khalil,S., Butcher,A.M., Zengler,K., Horswill,A.R., Dupont,C.L., Hovnanian,A. and Gallo,R.L.
    Interplay of staphylococcal and host proteases promotes skin barrier disruption in Netherton syndrome
    Cell Rep30, 2923-2933. PubMed  Europe PubMed DOI
    2. 2019
  2. Gimza,B.D., Larias,M.I., Budny,B.G. and Shaw,L.N.
    Mapping the global network of extracellular protease regulation in Staphylococcus aureus
    mSphere4, PubMed  Europe PubMed DOI
    3. 2014
  3. Jusko,M., Potempa,J., Kantyka,T., Bielecka,E., Miller,H.K., Kalinska,M., Dubin,G., Garred,P., Shaw,L.N. and Blom,A.M.
    Staphylococcal proteases aid in evasion of the human complement system
    J Innate Immun6, 31-46. PubMed  Europe PubMed DOI
    4. 2013
  4. Mootz,J.M., Malone,C.L., Shaw,L.N. and Horswill,A.R.
    Staphopains modulate Staphylococcus aureus biofilm integrity
    Infect Immun81, 3227-3238. PubMed  Europe PubMed DOI
    5. 2012
  5. Kantyka,T., Shaw,L.N. and Potempa,J.
    Staphopain B
    [ISSN:978-0-12-407743-0]3, 2157-2163. DOI
    6. 2011
  6. Kantyka,T., Shaw,L.N. and Potempa,J.
    Papain-like proteases of Staphylococcus aureus
    Adv Exp Med Biol712, 1-14. PubMed  Europe PubMed DOI  V
  7. Kantyka,T. and Potempa,J.
    Human SCCA serpins inhibit staphylococcal cysteine proteases by forming classic "serpin-like" covalent complexes
    Methods Enzymol499, 331-345. PubMed  Europe PubMed DOI
  8. Kantyka,T., Plaza,K., Koziel,J., Florczyk,D., Stennicke,H.R., Thogersen,I.B., Enghild,J.J., Silverman,G.A., Pak,S.C. and Potempa,J.
    Inhibition of Staphylococcus aureus cysteine proteases by human serpin potentially limits staphylococcal virulence
    Biol Chem392, 483-489. PubMed  Europe PubMed DOI
  9. Ohbayashi,T., Irie,A., Murakami,Y., Nowak,M., Potempa,J., Nishimura,Y., Shinohara,M. and Imamura,T.
    Degradation of fibrinogen and collagen by staphopains, cysteine proteases released from Staphylococcus aureus
    Microbiology (Reading)157, 786-792. PubMed  Europe PubMed DOI
    10. 2010
  10. Nickerson,N., Ip,J., Passos,D.T. and McGavin,M.J.
    Comparison of staphopain A (ScpA) and B (SspB) precursor activation mechanisms reveals unique secretion kinetics of proSspB (staphopain B), and a different interaction with its cognate staphostatin, SspC
    Mol Microbiol75, 161-177. PubMed  Europe PubMed DOI
    11. 2009
  11. Smagur,J., Guzik,K., Magiera,L., Bzowska,M., Gruca,M., Thogersen,I.B., Enghild,J.J. and Potempa,J.
    A new pathway of staphylococcal pathogenesis: apoptosis-like death induced by staphopain B in human neutrophils and monocytes
    J Innate Immun1, 98-108. PubMed  Europe PubMed DOI
  12. Smagur,J., Guzik,K., Bzowska,M., Kuzak,M., Zarebski,M., Kantyka,T., Walski,M., Gajkowska,B. and Potempa,J.
    Staphylococcal cysteine protease staphopain B (SspB) induces rapid engulfment of human neutrophils and monocytes by macrophages
    Biol Chem390, 361-371. PubMed  Europe PubMed DOI
    13. 2007
  13. Dubin,G., Wladyka,B., Stec-Niemczyk,J., Chmiel,D., Zdzalik,M., Dubin,A. and Potempa,J.
    The staphostatin family of cysteine protease inhibitors in the genus Staphylococcus as an example of parallel evolution of protease and inhibitor specificity
    Biol Chem388, 227-235. PubMed  Europe PubMed DOI
  14. Kulig,P., Zabel,B.A., Dubin,G., Allen,S.J., Ohyama,T., Potempa,J., Handel,T.M., Butcher,E.C. and Cichy,J.
    Staphylococcus aureus-derived staphopain B, a potent cysteine protease activator of plasma chemerin
    J Immunol178, 3713-3720. PubMed  Europe PubMed
    15. 2006
  15. Potempa,J., Travis,J., Golonka,E. and Shaw,L.
    Poison-antidote systems in bacteria: the co-evolution of functional counterparts
    Cell Mol Biol (Noisy-le-grand)52, 18-22. PubMed  Europe PubMed DOI  V
    16. 2005
  16. [YEAR:16-5-2005]Imamura,T., Tanase,S., Szmyd,G., Kozik,A., Travis,J. and Potempa,J.
    Induction of vascular leakage through release of bradykinin and a novel kinin by cysteine proteinases from Staphylococcus aureus
    J Exp Med201, 1669-1676. PubMed  Europe PubMed DOI
  17. Potempa,J., Golonka,E., Filipek,R. and Shaw,L.N.
    Fighting an enemy within: cytoplasmic inhibitors of bacterial cysteine proteases
    Mol Microbiol57, 605-610. PubMed  Europe PubMed DOI
    18. 2004
  18. [YEAR:9-11-2004]Filipek,R., Szczepanowski,R., Sabat,A., Potempa,J. and Bochtler,M.
    Prostaphopain B structure: a comparison of proregion-mediated and staphostatin-mediated protease inhibition
    Biochemistry43, 14306-14315. PubMed  Europe PubMed DOI  S
  19. Golonka,E., Filipek,R., Sabat,A., Sinczak,A. and Potempa,J.
    Genetic characterization of staphopain genes in Staphylococcus aureus
    Biol Chem385, 1059-1067. PubMed  Europe PubMed DOI
  20. Imamura,T., Potempa,J. and Travis,J.
    Activation of the kallikrein-kinin system and release of new kinins through alternative cleavage of kininogens by microbial and human cell proteinases
    Biol Chem385, 989-996. PubMed  Europe PubMed DOI  V
  21. Potempa,J. and Travis,J.
    Staphopains
    [ISSN:0-12-079610-4]2, 1249-1253.  V
  22. Shaw,L., Golonka,E., Potempa,J. and Foster,S.J.
    The role and regulation of the extracellular proteases of Staphylococcus aureus
    Microbiology (Reading, Engl )150, 217-228. PubMed  Europe PubMed
    23. 2003
  23. Dubin,G.
    Defense against own arms: staphylococcal cysteine proteases and their inhibitors
    Acta Biochim Pol50, 715-724. PubMed  Europe PubMed DOI
  24. [YEAR:17-10-2003]Filipek,R., Rzychon,M., Oleksy,A., Gruca,M., Dubin,A., Potempa,J. and Bochtler,M.
    The staphostatin-staphopain complex: a forward binding inhibitor in complex with its target cysteine protease
    J Biol Chem278, 40959-40966. PubMed  Europe PubMed DOI  S
  25. Rzychon,M., Sabat,A., Kosowska,K., Potempa,J. and Dubin,A.
    Staphostatins: an expanding new group of proteinase inhibitors with a unique specificity for the regulation of staphopains, Staphylococcus spp. cysteine proteinases
    Mol Microbiol49, 1051-1066. PubMed  Europe PubMed DOI
    26. 2002
  26. Dubin,G.
    Extracellular proteases of Staphylococcus spp
    Biol Chem383, 1075-1086. PubMed  Europe PubMed DOI
  27. [YEAR:1-11-2002]Massimi,I., Park,E., Rice,K., Muller-Esterl,W., Sauder,D. and McGavin,M.J.
    Identification of a novel maturation mechanism and restricted substrate specificity for the SspB cysteine protease of Staphylococcus aureus
    J Biol Chem277, 41770-41777. PubMed  Europe PubMed DOI
    28. 2001
  28. Dubin,G., Chmiel,D., Mak,P., Rakwalska,M., Rzychon,M. and Dubin,A.
    Molecular cloning and biochemical characterisation of proteases from Staphylococcus epidermidis
    Biol Chem382, 1575-1582. PubMed  Europe PubMed DOI
  29. Karlsson,A., Saravia-Otten,P., Tegmark,K., Morfeldt,E. and Arvidson,S.
    Decreased amounts of cell wall-associated protein A and fibronectin-binding proteins in Staphylococcus aureus sarA mutants due to up-regulation of extracellular proteases
    Infect Immun69, 4742-4748. PubMed  Europe PubMed DOI
  30. Rice,K., Peralta,R., Bast,D., de Azavedo,J. and McGavin,M.J.
    Description of staphylococcus serine protease (ssp) operon in Staphylococcus aureus and nonpolar inactivation of sspA-encoded serine protease
    Infect Immun69, 159-169. PubMed  Europe PubMed DOI

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