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  1. 1.   The TY3 Gag3 Spacer Controls Intracellular Condensation and Uncoating
  2. Clemens, K.; Larsen, L.; Zhang, M.; Kuznetsov, Y.; Bilanchone, V.; Randall, A.; Harned, A.; DaSilva, R.; Nagashima, K.; McPherson, A.; Baldi, P.; Sandmeyer, S.
  3. Journal of Virology. 2011, Apr; 85(7): 3055-3066.
  1. 2.   The Early Years of Retroviral Protease Crystal Structures
  2. Miller, M.
  3. Biopolymers. 2010 94(4): 521-529.
  1. 3.   Structural characterization of B and non-B subtypes of HIV-protease: Insights into the natural susceptibility to drug resistance development
  2. Sanches, M.; Krauchenco, S.; Martins, N. H.; Gustchina, A.; Wlodawer, A.; Polikarpov, I.
  3. Journal of Molecular Biology. 2007, Jun; 369(4): 1029-1040.
  1. 4.   Characterization of the murine leukemia virus protease and its comparison with the human immunodeficiency virus type 1 protease
  2. Feher, A.; Boross, P.; Sperka, T.; Miklossy, G.; Kadas, J.; Bagossi, P.; Oroszlan, S.; Weber, I. T.; Tozser, J.
  3. Journal of General Virology. 2006, May; 87: 1321-1330.
  1. 5.   Crystal structure of human T cell leukemia virus protease, a novel target for anticancer drug design
  2. Li, M.; Laco, G. S.; Jaskolski, M.; Rozycki, J.; Alexandratos, J.; Wlodawer, A.; Gustchina, A.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2005, Dec; 102(51): 18332-18337.
  1. 6.   Expression of the murine leukemia virus protease in fusion with maltose-binding protein in Escherichia coli
  2. Feher, A.; Boross, P.; Sperka, T.; Oroszlan, S.; Tozser, J.
  3. Protein Expression and Purification. 2004 35(1): 62-68.
  1. 7.   Kinetics of the dimerization of retroviral proteases: The "fireman's grip" and dimerization
  2. Ingr, M.; Uhlikova, T.; Strisovsky, K.; Majerova, E.; Konvalinka, J.
  3. Protein Science. 2003 12(10): 2173-2182.
  1. 8.   An unusual orientation for Tyr75 in the active site of the aspartic proteinase from Saccharomyces cerevisiae
  2. Gustchina, A.; Li, M.; Phylip, L. H.; Lees, W. E.; Kay, J.; Wlodawer, A.
  3. Biochemical and Biophysical Research Communications. 2002 295(4): 1020-1026.
  1. 9.   Point mutations and sequence variability in proteins. Redistributions of preexisting populations
  2. Sinha, N.; Nussinov, R.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2001 98(6): 3139-3144.
  1. 10.   HIV protease: Enzyme function and drug resistance
  2. Gulnik, S.; Erickson, J. W.; Xie, D.
  3. Vitamins and Hormones - Advances in Research and Applications, Vol 58. 2000 58: 213-256.
  1. 11.   Real-time measurements of dark substrate catalysis
  2. Xie, D.; Suvorov, L.; Erickson, J. W.; Gulnik, S.
  3. Protein Science. 1999 8(11): 2460-2464.
  1. 12.   Probing the Structural Basis of the Catalytic Activity of Hiv-1 Pr Through Total Chemical Protein Synthesis
  2. Miller, M.; Baca, M.; Rao, J. K. M.; Kent, S. B. H.
  3. Theochem-Journal of Molecular Structure. 1998 423(1-2): 137-152.
  1. 13.   Crystal Structures of the Inactive D30n Mutant of Feline Immunodeficiency Virus Protease Complexed With a Substrate and an Inhibitor
  2. Laco, G. S.; Schalkhihi, C.; Lubkowski, J.; Morris, G.; Zdanov, A.; Olson, A.; Elder, J. H.; Wlodawer, A.; Gustchina, A.
  3. Biochemistry. 1997 36(35): 10696-10708.
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