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  1. 1.   Localization of ASV Integrase-DNA Contacts by Site-Directed Crosslinking and their Structural Analysis
  2. Peletskaya, E.; Andrake, M.; Gustchina, A.; Merkel, G.; Alexandratos, J.; Zhou, D. W.; Bojja, R. S.; Satoh, T.; Potapov, M.; Kogon, A.; Potapov, V.; Wlodawer, A.; Skalka, A. M.
  3. Plos One. 2011, Dec; 6(12):
  1. 2.   Phenotypic characterization of drug resistance-associated mutations in HIV-1 RT connection and RNase H domains and their correlation with thymidine analogue mutations
  2. Lengruber, R. B.; Delviks-Frankenberry, K. A.; Nikolenko, G. N.; Baumann, J.; Santos, A. F.; Pathak, V. K.; Soares, M. A.
  3. Journal of Antimicrobial Chemotherapy. 2011, Apr; 66(4): 702-708.
  1. 3.   Mechanisms of HIV-1 drug resistance to nucleoside and nonnucleoside reverse transcriptase inhibitors
  2. Nikolenko, G. N.; Kotelkin, A. T.; Oreshkova, S. F.; Ilyichev, A. A.
  3. Molecular Biology. 2011, Feb; 45(1): 93-109.
  1. 4.   Structure-Activity Analysis of Vinylogous Urea Inhibitors of Human Immunodeficiency Virus-Encoded Ribonuclease H
  2. Chung, S. M.; Wendeler, M.; Rausch, J. W.; Beilhartz, G.; Gotte, M.; O'Keefe, B. R.; Bermingham, A.; Beutler, J. A.; Liu, S. X.; Zhuang, X. W.; Le Grice, S. F. J.
  3. Antimicrobial Agents and Chemotherapy. 2010, Sep; 54(9): 3913-3921.
  1. 5.   The "Connection" Between HIV Drug Resistance and RNase H
  2. Delviks-Frankenberry, K. A.; Nikolenko, G. N.; Pathak, V. K.
  3. Viruses-Basel. 2010, Jul; 2(7): 1476-1503.
  1. 6.   Mutations in the Thumb Allow Human Immunodeficiency Virus Type 1 Reverse Transcriptase To Be Cleaved by Protease in Virions
  2. Dunn, L. L.; McWilliams, M. J.; Das, K.; Arnold, E.; Hughes, S. H.
  3. Journal of Virology. 2009 83(23): 12336-12344.
  1. 7.   Examining interactions of HIV-1 reverse transcriptase with single-stranded template nucleotides by nucleoside analog interference
  2. Dash, C.; Fisher, T. S.; Prasad, V. R.; Le Grice, S. F. J.
  3. Journal of Biological Chemistry. 2006, Sep; 281(38): 27873-27881.
  1. 8.   Examining Ty3 polypurine tract structure and function by nucleoside analog interference
  2. Dash, C.; Marino, J. P.; Le Grice, S. F. J.
  3. Journal of Biological Chemistry. 2006, FEB 3; 281(5): 2773-2783.
  1. 9.   Investigating HIV-1 polypurine tract geometry via targeted insertion of abasic lesions in the (-)-DNA template and (+)-RNA primer
  2. Yi-Brunozzi, H. Y.; Le Grice, S. F. J.
  3. Journal of Biological Chemistry. 2005, MAY 20; 280(20): 20154-20162.
  1. 10.   The palm subdomain-based active site is internally permuted in viral RNA-dependent RNA polymerases of an ancient lineage
  2. Gorbalenya, A. E.; Pringle, F. M.; Zeddam, J. L.; Luke, B. T.; Cameron, C. E.; Kalmakoff, J.; Hanzlik, T. N.; Gordon, K. H. J.; Ward, V. K.
  3. Journal of Molecular Biology. 2002 324(1): 47-62.
  1. 11.   Analysis of mutations at positions 115 and 116 in the dNTP binding site of HIV-1 reverse transcriptase
  2. Boyer, P. L.; Sarafianos, S. G.; Arnold, E.; Hughes, S. H.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2000 97(7): 3056-3061.
  1. 12.   Structure and functional implications of the polymerase active site region in a complex of HIV-1 RT with a double-stranded DNA template-primer and an antibody Fab fragment at 2.8 angstrom resolution
  2. Ding, J. P.; Das, K.; Hsiou, Y.; Sarafianos, S. G.; Clark, A. D.; Jacobo-Molina, A.; Tantillo, C.; Hughes, S. H.; Arnold, E.
  3. Journal of Molecular Biology. 1998 284(4): 1095-1111.
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