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  1. 1.   Crystal structures of the reverse transcriptase-associated ribonuclease H domain of xenotropic murine leukemia-virus related virus
  2. Zhou, D. W.; Chung, S. H.; Miller, M.; Le Grice, S. F. J.; Wlodawer, A.
  3. Journal of Structural Biology. 2012, Mar; 177(3): 638-645.
  1. 2.   RNA Folding in Transcription Elongation Complex IMPLICATION FOR TRANSCRIPTION TERMINATION
  2. Lubkowska, L.; Maharjan, A. S.; Komissarova, N.
  3. Journal of Biological Chemistry. 2011, Sep; 286(36): 31576-31585.
  1. 3.   Reverse transcriptase in motion: Conformational dynamics of enzyme-substrate interactions
  2. Gotte, M.; Rausch, J. W.; March, B.; Sarafianos, S.; Le Grice, S. F. J.
  3. Biochimica Et Biophysica Acta-Proteins and Proteomics. 2010, May; 1804(5): 1202-1212.
  1. 4.   Revisiting Plus-Strand DNA Synthesis in Retroviruses and Long Terminal Repeat Retrotransposons: Dynamics of Enzyme: Substrate Interactions
  2. Fabris, D.; Marino, J. P.; Le Grice, S. F. J.
  3. Viruses-Basel. 2009, Dec; 1(3): 657-677.
  1. 5.   Structure of HIV-1 Reverse Transcriptase with the Inhibitor beta-Thujaplicinol Bound at the RNase H Active Site
  2. Himmel, D. M.; Maegley, K. A.; Pauly, T. A.; Bauman, J. D.; Das, K.; Dharia, C.; Clark, A. D.; Ryan, K.; Hickey, M. J.; Love, R. A.; Hughes, S. H.; Bergqvist, S.; Arnold, E.
  3. Structure. 2009 17(12): 1625-1635.
  1. 6.   Mechanism of sequence-specific pausing of bacterial RNA polymerase
  2. Kireeva, M. L.; Kashlev, M.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2009 106(22): 8900-8905.
  1. 7.   Dynamic binding orientations direct activity of HIV reverse transcriptase
  2. Abbondanzieri, E. A.; Bokinsky, G.; Rausch, J. W.; Zhang, J. X.; Le Grice, S.; Zhuang, X. W.
  3. Nature. 2008 453(7192): 184-189.
  1. 8.   Structural probing of the HIV-1 polypurine tract RNA : DNA hybrid using classic nucleic acid ligands
  2. Turner, K. B.; Brinson, R. G.; Yi-Brunozzi, H. Y.; Rausch, J. W.; Miller, J. T.; Le Grice, S.; Marino, J. P.; Fabris, D.
  3. Nucleic Acids Research. 2008 36(8): 2799-2810.
  1. 9.   High-resolution NMR analysis of the conformations of native and base analog substituted retroviral and LTR-retrotransposon PPT primers
  2. Yi-Brunozzi, H. Y.; Brinson, R. G.; Brabazon, D. I.; Lener, D.; Le Grice, S.; Marino, J. P.
  3. Chemistry & Biology. 2008 15(3): 254-262.
  1. 10.   In vitro analysis of the effects of mutations in the G-tract of the human immunodeficiency virus type 1 polypurine tract on RNase H cleavage specificity
  2. Jones, F. D.; Hughes, S. H.
  3. Virology. 2007, Apr; 360(2): 341-349.
  1. 11.   Exploiting structurally diverse nucleoside analogs as probes of reverse transcription complexes
  2. Rausch, J. W.; Le Grice, S. F. J.
  3. Current HIV Research. 2007, Jan; 5(1): 11-22.
  1. 12.   Purine analog substitution of the HIV-1 polypurine tract primer defines regions controlling initiation of plus-strand DNA synthesis
  2. Rausch, J. W.; Le Grice, S. F. J.
  3. Nucleic Acids Research. 2007, Jan; 35(1): 256-268.
  1. 13.   Transcription through the nucleosome by mRNA-producing RNA polymerases
  2. Walter, W.; Kashlev, M.; Studitsky, V. M.
  3. CHROMATIN AND CHROMATIN REMODELING ENZYMES, PT C. 2004; 377 : 445-460.
  1. 14.   Iodine-125 radioprobing of E-coli RNA polymerase transcription elongation complexes
  2. Karamychev, V. N.; Tatusov, A.; Komissarova, N.; Kashlev, M.; Neumann, R. D.; Zhurkin, V. B.; Panyutin, I. G.
  3. RNA POLYMERASES AND ASSOCIATED FACTORS, PT D. 2003; 371 : 106-120.
  1. 15.   Assays and affinity purification of biotinylated and nonbiotinylated forms of double-tagged core RNA polymerase II from Saccharomyces cerevisiae
  2. Kireeva, M. L.; Lubkowska, L.; Komissarova, N.; Kashlev, M.
  3. RNA POLYMERASES AND ASSOCIATED FACTORS, PT C. 2003; 370 : 138-155.
  1. 16.   Engineering of elongation complexes of bacterial and yeast RNA polymerases
  2. Komissarova, N.; Kireeva, M. L.; Becker, J.; Sidorenkov, I.; Kashlev, M.
  3. RNA POLYMERASES AND ASSOCIATED FACTORS, PT D. 2003; 371 : 233-251.
  1. 17.   Assay of the fate of the nucleosome during transcription by RNA polymerase II
  2. Walter, W.; Kireeva, M. L.; Tchernajenko, V.; Kashlev, M.; Studitsky, V. M.
  3. RNA POLYMERASES AND ASSOCIATED FACTORS, PT D. 2003; 371 : 564-577.
  1. 18.   Bacterial polymerase and yeast polymerase II use similar mechanisms for transcription through nucleosomes
  2. Walter, W.; Kireeva, M. L.; Studitsky, V. M.; Kashlev, M.
  3. Journal of Biological Chemistry. 2003 278(38): 36148-36156.
  1. 19.   Overextended RNA : DNA hybrid as a negative regulator of RNA polymerase II processivity
  2. Kireeva, M. L.; Komissarova, N.; Kashlev, M.
  3. Journal of Molecular Biology. 2000 299(2): 325-335.
  1. 20.   The Iteron Bases and Spacers of the P1 Replication Origin Contain Information That Specifies the Formation of a Complex Structure Involved in Initiation
  2. Brendler, T. G.; Abeles, A. L.; Reaves, L. D.; Austin, S. J.
  3. Molecular Microbiology. 1997 23(3): 559-567.
  1. 21.   Cellular Delivery of siRNAs Using Bolaamphiphiles.
  2. Gupta, Kshitij
  3. Methods in molecular biology (Clifton, N.J.). 2017 1632: 187-205.
  1. 22.   Intracellular Reassociation of RNA-DNA Hybrids that Activates RNAi in HIV-Infected Cells.
  2. Martins, Angelica N; Ke, Weina; Jawahar, Vaishnavi; Striplin, Morriah; Striplin, Caryn; Freed, Eric; Afonin, Kirill A
  3. Methods in molecular biology (Clifton, N.J.). 2017 1632: 269-283.
  1. 23.   RNA and DNA nanoparticles for triggering RNA interference
  2. El Tannir, Ziad; Afonin, Kirill A; Shapiro,Bruce
  3. RNA & disease (Houston, Tex.). 2015 2(Suppl 1):
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