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  1. 1.   Drug-Linker Constructs Bearing Unique Dual-Mechanism Tubulin Binding Payloads Tethered through Cleavable and Non-Cleavable Linkers
  2. Ford, Jacob W; VanNatta, Jennifer M; Mondal, Deboprosad; Lin, Chen-Ming; Deng, Yuling; Bai, Ruoli; Hamel,Ernest; Trawick, Mary Lynn; Pinney, Kevin G
  3. Tetrahedron. 2025, Feb 01; 171
  1. 2.   Glypican-3-Specific Antibody Drug Conjugates Targeting Hepatocellular Carcinoma
  2. Fu, Ying; Urban, Daniel J.; Nani, Roger R.; Zhang, Yi-Fan; Li, Nan; Fu, Haiying; Shah, Hamzah; Gorka, Alexander P.; Guha, Rajarshi; Chen, Lu; Hall, Matthew D.; Schnermann,Martin; Ho, Mitchell
  3. Hepatology (Baltimore, Md.). 2019, AUG; 70(2): 563-576.
  1. 3.   Identification of a myeloid-derived suppressor cell cystatin-like protein that inhibits metastasis
  2. Boutte, A. M.; Friedman, D. B.; Bogyo, M.; Min, Y. F.; Yang, L.; Lin, P. C.
  3. Faseb Journal. 2011, Aug; 25(8): 2626-2637.
  1. 4.   Distinct Patterns of IFITM-Mediated Restriction of Filoviruses, SARS Coronavirus, and Influenza A Virus
  2. Huang, I. C.; Bailey, C. C.; Weyer, J. L.; Radoshitzky, S. R.; Becker, M. M.; Chiang, J. J.; Brass, A. L.; Ahmed, A. A.; Chi, X. L.; Dong, L. A.; Longobardi, L. E.; Boltz, D.; Kuhn, J. H.; Elledge, S. J.; Bavari, S.; Denison, M. R.; Choe, H.; Farzan, M.
  3. Plos Pathogens. 2011, Jan; 7(1): 13.
  1. 5.   Aprotease-resistant immunotoxin against CD22 with greatly increased activity against CLL and diminished animal toxicity
  2. Weldon, J. E.; Xiang, L. M.; Chertov, O.; Margulies, I.; Kreitman, R. J.; FitzGerald, D. J.; Pastan, I.
  3. Blood. 2009 113(16): 3792-3800.
  1. 6.   Design, synthesis, and evaluation of in vivo potency and selectivity of epoxysuccinyl-based inhibitors of papain-family cysteine proteases
  2. Sadaghiani, A. M.; Verhelst, S. H. L.; Gocheva, V.; Hill, K.; Majerova, E.; Stinson, S.; Joyce, J. A.; Bogyo, M.
  3. Chemistry & Biology. 2007, May; 14(5): 499-511.
  1. 7.   Cockroach allergen Bla g 2: An unusual aspartic proteinase
  2. Wunschmann, S.; Gustchina, A.; Chapman, M. D.; Pomes, A.
  3. Journal of Allergy and Clinical Immunology. 2005, JUL; 116(1): 140-145.
  1. 8.   Discordant regulation of granzyme H and granzyme B expression in human lymphocytes
  2. Sedelies, K. A.; Sayers, T. J.; Edwards, K. M.; Chen, W. S.; Pellicci, D. G.; Godfrey, D. I.; Trapani, J. A.
  3. Journal of Biological Chemistry. 2004 279(25): 26581-26587.
  1. 9.   Identification of neutrophil granule protein cathepsin G as a novel chemotactic agonist for the G protein-coupled formyl peptide receptor
  2. Sun, R. H.; Iribarren, P.; Zhang, N.; Zhou, Y.; Gong, W. H.; Cho, E. H.; Lockett, S.; Chertov, O.; Bednar, F.; Rogers, T. J.; Oppenheim, J. J.; Wang, J. M.
  3. Journal of Immunology. 2004 173(1): 428-436.
  1. 10.   The neutrophil granule protein Cathepsin G is a chemotactic agonist for the G protein coupled formyl peptide receptor FPR
  2. Wang, J. M.; Sun, R. H.; Iribarren, P.; Zhang, N.; Zhou, Y.; Gong, W. H.; Cho, E. H.; Lockett, S.; Chertov, O.; Bednar, F.; Rogers, T. J.; Oppenheim, J. J.
  3. Journal of Leukocyte Biology. 2004 (Suppl. S): 24-24.
  1. 11.   Novel uncomplexed and complexed structures of plasmepsin II, an aspartic protease from Plasmodium falciparum
  2. Asojo, O. A.; Gulnik, S. V.; Afonina, E.; Yu, B.; Ellman, J. A.; Haque, T. S.; Silva, A. M.
  3. Journal of Molecular Biology. 2003 327(1): 173-181.
  1. 12.   alpha(1)-antichymotrypsin is the human plasma inhibitor of macrophage ectoenzymes that cleave pro-macrophage stimulating protein
  2. Skeel, A.; Leonard, E. J.
  3. Journal of Biological Chemistry. 2001 276(24): 21932-21937.
  1. 13.   The role of mammalian antimicrobial peptides and proteins in awakening of innate host defenses and adaptive immunity
  2. Yang, D.; Chertov, O.; Oppenheim, J. J.
  3. Cellular and Molecular Life Sciences. 2001 58(7): 978-989.
  1. 14.   The neutrophil granule protein cathepsin G activates murine T lymphocytes and upregulates antigen-specific Ig production in mice
  2. Tani, K.; Murphy, W. J.; Chertov, O.; Oppenheim, J. J.; Wang, J. M.
  3. Biochemical and Biophysical Research Communications. 2001 282(4): 971-976.
  1. 15.   Leukocyte granule proteins mobilize innate host defenses and adaptive immune responses
  2. Chertov, O.; Yang, D.; Howard, O. M. Z.; Oppenheim, J. J.
  3. Immunological Reviews. 2000 177: 68-78.
  1. 16.   Crystal structure of plant aspartic proteinase prophytepsin: inactivation and vacuolar targeting
  2. Kervinen, J.; Tobin, G. J.; Costa, J.; Waugh, D. S.; Wlodawer, A.; Zdanov, A.
  3. Embo Journal. 1999 18(14): 3947-3955.
  1. 17.   Mass spectrometry as a tool for studying the action of human aspartic proteases on peptides and proteins
  2. Tarasova, N. I.; Czerwinski, G.; Roberts, N. B.; Lubkowski, J.; Sumpter, T. L.; Green, B. N.; Michejda, C. J.; James, M. N. G.
  3. Aspartic Proteinases: Retroviral and Cellular Enzymes. 1998; 436 : 201-206.
  1. 18.   Transport and activation of the vacuolar aspartic proteinase phytepsin in barley (Hordeum vulgare L.)
  2. Glathe, S.; Kervinen, J.; Nimtz, M.; Li, G. H.; Tobin, G. J.; Copeland, T. D.; Ashford, D. A.; Wlodawer, A.; Costa, J.
  3. Journal of Biological Chemistry. 1998 273(47): 31230-31236.
  1. 19.   Conformational Switching in an Aspartic Proteinase
  2. Lee, A. Y.; Gulnik, S. V.; Erickson, J. W.
  3. Nature Structural Biology. 1998 5(10): 866-871.
  1. 20.   Structural analysis of plasmepsin II. A comparison with human aspartic proteases
  2. Silva, A. M.; Lee, A. Y.; Erickson, J. W.; Goldberg, D. E.
  3. Advances in Experimental Medicine and Biology. 1998 436: 363-373.
  1. 21.   The Glycosylation of the Aspartic Proteinases From Barley (Hordeum Vulgare L) and Cardoon (Cynara Cardunculus L)
  2. Costa, J.; Ashford, D. A.; Nimtz, M.; Bento, I.; Frazao, C.; Esteves, C. L.; Faro, C. J.; Kervinen, J.; Pires, E.; Verissimo, P.; Wlodawer, A.; Carrondo, M. A.
  3. European Journal of Biochemistry. 1997 243(3): 695-700.
  1. 22.   Design of Sensitive Fluorogenic Substrates For Human Cathepsin D
  2. Gulnik, S. V.; Suvorov, L. I.; Majer, P.; Collins, J.; Kane, B. P.; Johnson, D. G.; Erickson, J. W.
  3. Febs Letters. 1997 413(2): 379-384.
  1. 23.   Structure-Based Subsite Specificity Mapping of Human Cathepsin D Using Statine-Based Inhibitors
  2. Majer, P.; Collins, J. R.; Gulnik, S. V.; Erickson, J. W.
  3. Protein Science. 1997 6(7): 1458-1466.
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