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  1. 1.   Specificity of the HIV-1 Protease on Substrates Representing the Cleavage Site in the Proximal Zinc-Finger of HIV-1 Nucleocapsid Protein
  2. Motyan, Janos Andras; Miczi, Mario; Oroszlan, Stephen; Tozser, Jozsef
  3. Viruses. 2021, Jun; 13(6):
  1. 2.   Structure of a eukaryotic RNase III postcleavage complex reveals a double-ruler mechanism for substrate selection
  2. Liang, Y. H.; Lavoie, M.; Comeau, M. A.; Abou Elela, S.; Ji, X.
  3. Molecular Cell. 2014, 8-May; 54(3): 431-44.
  1. 3.   Role of a single amino acid in the evolution of glycans of invertebrates and vertebrates
  2. Ramakrishnan, B.; Qasba, P. K.
  3. Journal of Molecular Biology. 2007, Jan; 365(3): 570-576.
  1. 4.   Structural insight into the mechanism of double-stranded RNA processing by ribonuclease III
  2. Gan, J. H.; Tropea, J. E.; Austin, B. P.; Court, D. L.; Waugh, D. S.; Ji, X. H.
  3. Cell. 2006, JAN 27; 124(2): 355-366.
  1. 5.   Substrate specificity of the human protein phosphatase 2C delta Wip1
  2. Yamaguchi, H.; Minopoli, G.; Demidov, O. N.; Chatterjee, D. K.; Anderson, C. W.; Durell, S. R.; Appella, E.
  3. Biochemistry. 2005, APR 12; 44(14): 5285-5294.
  1. 6.   The N-terminal peptide of the Kaposi's sarcoma-associated herpesvirus (KSHV)-cyclin determines substrate specificity
  2. Kaldis, P.
  3. Journal of Biological Chemistry. 2005, MAR 25; 280(12): 11165-11174.
  1. 7.   Integrase of Mason-Pfizer monkey virus
  2. Snasel, J.; Krejcik, Z.; Jencova, V.; Rosenberg, I.; Ruml, T.; Alexandratos, J.; Gustchina, A.; Pichova, I.
  3. Febs Journal. 2005, JAN; 272(1): 203-216.
  1. 8.   Comparison of the substrate specificity of two potyvirus proteases
  2. Tozser, J.; Tropea, J. E.; Cherry, S.; Bagossi, P.; Copeland, T.; Wlodawer, A.; Waugh, D. S.
  3. Febs Journal. 2005, JAN; 272(2): 514-523.
  1. 9.   Two inhibitor molecules bound in the active site of Pseudomonas sedolisin: a model for the bi-product complex following cleavage of a peptide substrate
  2. Wlodawer, A.; Li, M.; Gustchina, A.; Oyama, H.; Oda, K.; Beyer, B. B.; Clemente, J.; Dunn, B. M.
  3. Biochemical and Biophysical Research Communications. 2004 314(2): 638-645.
  1. 10.   Effect of caspase cleavage-site phosphorylation on proteolysis
  2. Tozser, J.; Bagossi, N.; Zahuczky, G.; Specht, S. I.; Majerova, E.; Copeland, T. D.
  3. Biochemical Journal. 2003 372(Part 1): 137-143.
  1. 11.   Effect of sequence polymorphism and drug resistance on two HIV- 1 Gag processing sites
  2. Feher, A.; Weber, I. T.; Bagossi, P.; Boross, P.; Mahalingam, B.; Louis, J. M.; Copeland, T. D.; Torshin, I. Y.; Harrison, R. W.; Tozser, J.
  3. European Journal of Biochemistry. 2002 269(16): 4114-4120.
  1. 12.   Structural basis of oncogenic activation caused by point mutations in the kinase domain of the MET proto-oncogene: Modeling studies
  2. Miller, M.; Ginalski, K.; Lesyng, B.; Nakaigawa, N.; Schmidt, L.; Zbar, B.
  3. Proteins-Structure Function and Genetics. 2001 44(1): 32-43.
  1. 13.   Comparison of the substrate specificity of the human T-cell leukemia virus and human immunodeficiency virus proteinases
  2. Tozser, J.; Zahuczky, G.; Bagossi, P.; Louis, J. M.; Copeland, T. D.; Oroszlan, S.; Harrison, R. W.; Weber, I. T.
  3. European Journal of Biochemistry. 2000 267(20): 6287-6295.
  1. 14.   Cloning of the bovine leukemia virus proteinase in Escherichia coli and comparison of its specificity to that of human T-cell leukemia virus proteinase
  2. Zahuczky, G.; Boross, P.; Bagossi, P.; Emri, G.; Copeland, T. D.; Oroszlan, S.; Louis, J. M.; Tozser, J.
  3. Biochimica et Biophysica Acta - Protein Structure & Molecular Enzymology. 2000 1478(1): 1-8.
  1. 15.   Effect of substrate residues on the P2 ' preference of retroviral proteinases
  2. Boross, P.; Bagossi, P.; Copeland, T. D.; Oroszlan, S.; Louis, J. M.; Tozser, J.
  3. European Journal of Biochemistry. 1999 264(3): 921-929.
  1. 16.   Expression and characterization of human foamy virus proteinase
  2. Fenyofalvi, G.; Bagossi, P.; Copeland, T. D.; Oroszlan, S.; Boross, P.; Tozser, J.
  3. Febs Letters. 1999 462(3): 397-401.
  1. 17.   Effect of serine and tyrosine phosphorylation on retroviral proteinase substrates
  2. Tozser, J.; Bagossi, P.; Boross, P.; Louis, J. M.; Majerova, E.; Oroszlan, S.; Copeland, T. D.
  3. European Journal of Biochemistry. 1999 265(1): 423-429.
  1. 18.   Comparison of the Specificity of Homo- and Heterodimeric Linked Hiv-1 and Hiv-2 Proteinase Dimers
  2. Bagossi, P.; Cheng, Y. S. E.; Oroszlan, S.; Tozser, J.
  3. Protein Engineering. 1998 11(6): 439-445.
  1. 19.   Escape Mutants of Hiv-1 Proteinase - Enzymic Efficiency and Susceptibility to Inhibition
  2. Wilson, S. I.; Phylip, L. H.; Mills, J. S.; Gulnik, S. V.; Erickson, J. W.; Dunn, B. M.; Kay, J.
  3. Biochimica et Biophysica Acta - Protein Structure & Molecular Enzymology. 1997 1339(1): 113-125.
  1. 20.   Activity of Tethered Human Immunodeficiency Virus 1 Protease Containing Mutations in the Flap Region of One Subunit
  2. Tozser, J.; Yin, F. H.; Cheng, Y. S. E.; Bagossi, P.; Weber, I. T.; Harrison, R. W.; Oroszlan, S.
  3. European Journal of Biochemistry. 1997 244(1): 235-241.
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