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  1. 1.   Production and characterization of a highly pure RNA polymerase holoenzyme from Mycobacterium tuberculosis
  2. Herrera-Asmat, Omar; Lubkowska, Lucyna; Kashlev, Mikhail; Bustamante, Carlos J; Guerra, Daniel G; Kireeva, Maria
  3. Protein Expression and Purification. 2017, Jun; 134: 1-10.
  1. 2.   Conformational coupling, bridge helix dynamics and active site dehydration in catalysis by RNA polymerase
  2. Seibold, S. A.; Singh, B. N.; Zhang, C. F.; Kireeva, M.; Domecq, C.; Bouchard, A.; Nazione, A. M.; Feig, M.; Cukier, R. I.; Coulombe, B.; Kashlev, M.; Hampsey, M.; Burton, Z. F.
  3. Biochimica Et Biophysica Acta-Gene Regulatory Mechanisms. 2010, Aug; 1799(8): 575-587.
  1. 3.   Synergistic action of RNA polymerases in overcoming the nucleosomal barrier
  2. Jin, J.; Bai, L.; Johnson, D. S.; Fulbright, R. M.; Kireeva, M. L.; Kashlev, M.; Wang, M. D.
  3. Nature Structural & Molecular Biology. 2010, Jun; 17(6): 745-U122.
  1. 4.   Sequences required for transcription termination at the intrinsic lambda tI terminator
  2. Martinez-Trujillo, M.; Sanchez-Trujillo, A.; Ceja, V.; Avila-Moreno, F.; Bermudez-Cruz, R. M.; Court, D.; Montanez, C.
  3. Canadian Journal of Microbiology. 2010, Feb; 56(2): 168-177.
  1. 5.   Translocation by multi-subunit RNA polymerases
  2. Kireeva, M.; Kashlev, M.; Burton, Z. F.
  3. Biochimica Et Biophysica Acta-Gene Regulatory Mechanisms. 2010, May-Jun; 1799(5-6): 389-401.
  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.   DNA bending in transcription initiation
  2. Tchernaenko, V.; Radlinska, M.; Lubkowska, L.; Halvorson, H. R.; Kashlev, M.; Lutter, L. C.
  3. Biochemistry. 2008 47(7): 1885-1895.
  1. 8.   Nature of the nucleosomal barrier to RNA polymerase II
  2. Kireeva, M. L.; Hancock, B.; Cremona, G. H.; Walter, W.; Studitsky, V. M.; Kashlev, M.
  3. Molecular Cell. 2005, APR 1; 18(1): 97-108.
  1. 9.   Chromatin remodeling by RNA polymerases
  2. Studitsky, V. M.; Walter, W.; Kireeva, M.; Kashlev, M.; Felsenfeld, G.
  3. Trends in Biochemical Sciences. 2004 29(3): 127-135.
  1. 10.   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. 11.   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. 12.   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. 13.   Strategies and methods of cross-linking of RNA polymerase active center
  2. Mustaev, A.; Zaychikov, E.; Grachev, M.; Kozlov, M.; Severinov, K.; Epshtein, V.; Korzheva, N.; Bereshchenko, O.; Markovtsov, V.; Lukhtanov, E.; Tsarev, I.; Maximova, T.; Kashlev, M.; Bass, I.; Nikiforov, V.; Goldfarb, A.
  3. RNA POLYMERASES AND ASSOCIATED FACTORS, PT D. 2003; 371 : 191-206.
  1. 14.   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. 15.   Transcription termination: Primary intermediates and secondary adducts
  2. Kashlev, M.; Komissarova, N.
  3. Journal of Biological Chemistry. 2002 277(17): 14501-14508.
  1. 16.   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. 17.   Intracellular trafficking and interactions of the HIV-1 Tat protein
  2. Stauber, R. H.; Pavlakis, G. N.
  3. Virology. 1998 252(1): 126-136.
  1. 18.   Rna Polymerase Switches Between Inactivated and Activated States By Translocating Back and Forth Along the Dna and the Rna
  2. Komissarova, N.; Kashlev, M.
  3. Journal of Biological Chemistry. 1997 272(24): 15329-15338.
  1. 19.   Transcriptional Arrest - Escherichia Coli Rna Polymerase Translocates Backward, Leaving the 3' End of the Rna Intact and Extruded
  2. Komissarova, N.; Kashlev, M.
  3. Proceedings of the National Academy of Sciences of the United States of America. 1997 94(5): 1755-1760.
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