Literature for peptidase C14.004: caspase-7

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2018
1. Akazawa,K., Sugihara,F., Nakamura,T., Mizukami,S. and Kikuchi,K.
   Highly sensitive detection of caspase-3/7 activity in living mice using enzyme-responsive (19)F MRI nanoprobes
   Bioconjug Chem29, 1720-1728. PubMed  Europe PubMed DOI  L
2. Pal,A. and Rehemtulla,A.
   Imaging proteolytic activities in mouse models of cancer
   1731, 247-260. PubMed  Europe PubMed DOI  L
2015
3. Limpachayaporn,P., Schafers,M. and Haufe,G.
   Isatin sulfonamides: potent caspases-3 and -7 inhibitors, and promising PET and SPECT radiotracers for apoptosis imaging
   Future Med Chem7, 1173-1196. PubMed  Europe PubMed DOI  L  I
4. Udemba,A., Smith,G., Nguyen,Q.D., Kaliszczak,M., Carroll,L., Fortt,R., Fuchter,M.J. and Aboagye,E.O.
   Design, synthesis and initial characterisation of a radiolabelled [(18)F]pyrimidoindolone probe for detecting activated caspase-3/7
   Org Biomol Chem13, 5418-5423. PubMed  Europe PubMed DOI  L
5. Waldmann,C.M., Hermann,S., Faust,A., Riemann,B., Schober,O., Schafers,M., Haufe,G. and Kopka,K.
   Novel fluorine-18 labeled 5-(1-pyrrolidinylsulfonyl)-7-azaisatin derivatives as potential PET tracers for in vivo imaging of activated caspases in apoptosis
   Bioorg Med Chem23, 5734-5739. PubMed  Europe PubMed DOI  L
6. Yuan,Y., Sun,H., Ge,S., Wang,M., Zhao,H., Wang,L., An,L., Zhang,J., Zhang,H., Hu,B., Wang,J. and Liang,G.
   Controlled intracellular self-assembly and disassembly of 19F nanoparticles for MR imaging of caspase 3/7 in zebrafish
   ACS Nano9, 761-768. PubMed  Europe PubMed DOI  L
2014
7. Adamova,E., Liskova,M., Matalova,E. and Kleparnik,K.
   A miniaturized device for bioluminescence analysis of caspase-3/7 activity in a single apoptotic cell
   Anal Bioanal Chem406, 5389-5394. PubMed  Europe PubMed DOI  L
8. Ye,D., Shuhendler,A.J., Pandit,P., Brewer,K.D., Tee,S.S., Cui,L., Tikhomirov,G., Rutt,B. and Rao,J.
   Caspase-responsive smart gadolinium-based contrast agent for magnetic resonance imaging of drug-induced apoptosis
   Chem Sci4, 3845-3852. PubMed  Europe PubMed DOI  L
2013
9. Galban,S., Jeon,Y.H., Bowman,B.M., Stevenson,J., Sebolt,K.A., Sharkey,L.M., Lafferty,M., Hoff,B.A., Butler,B.L., Wigdal,S.S., Binkowski,B.F., Otto,P., Zimmerman,K., Vidugiris,G., Encell,L.P., Fan,F., Wood,K.V., Galban,C.J., Ross,B.D. and Rehemtulla,A.
   Imaging proteolytic activity in live cells and animal models
   PLoS ONE8, e66248-e66248. PubMed  Europe PubMed DOI  L
10. Krause-Heuer,A.M., Howell,N.R., Matesic,L., Dhand,G., Young,E.L., Burgess,L., Jiang,C.D., Lengkeek,N.A., Fookes,C.J.R., Pham,T.Q., Sobrio,F., Greguric,I. and Fraser,B.H.
    A new class of fluorinated 5-pyrrolidinylsulfonyl isatin caspase inhibitors for PET imaging of apoptosis
    MedChemComm4, 347-352. DOI  L  I
2012
11. Nguyen,Q.D., Challapalli,A., Smith,G., Fortt,R. and Aboagye,E.O.
    Imaging apoptosis with positron emission tomography: 'Bench to bedside' development of the caspase-3/7 specific radiotracer [(18)F]ICMT-11
    Eur J Cancer48, 432-440. PubMed  Europe PubMed DOI  L
2011
12. Scabini,M., Stellari,F., Cappella,P., Rizzitano,S., Texido,G. and Pesenti,E.
    In vivo imaging of early stage apoptosis by measuring real-time caspase-3/7 activation
    Apoptosis16, 198-207. PubMed  Europe PubMed DOI  L