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  1. 1.   The P-Site Loop of the Universally Conserved Bacterial Ribosomal Protein L5 Is Required for Maintaining Both Translation Rate and Fidelity
  2. Bubunenko,Mikhail; Korepanov, Alexey P
  3. International Journal of Molecular Sciences. 2023, Sep 19; 24(18):
  1. 2.   Flexible pri-miRNA structures enable tunable production of 5' isomiRs
  2. Bofill De Ros,Xavier; Hong,Zhenyi; Birkenfeld, Ben; Alamo-Ortiz,Sarangelica; Yang,Acong; Dai,Lisheng; Gu,Shuo
  3. RNA Biology. 2022, Jan; 19(1): 279-289.
  1. 3.   Biochemical, inhibition and inhibitor resistance studies of xenotropic murine leukemia virus-related virus reverse transcriptase
  2. Ndongwe, T. P.; Adedeji, A. O.; Michailidis, E.; Ong, Y. T.; Hachiya, A.; March, B.; Ryan, E. M.; Rai, D. K.; Kirby, K. A.; Whatley, A. S.; Burke, D. H.; Johnson, M.; Ding, S. L.; Zheng, Y. M.; Liu, S. L.; Kodama, E. I.; Delviks-Frankenberry, K. A.; Pathak, V. K.; Mitsuya, H.; Parniak, M. A.; Singh, K.; Sarafianos, S. G.
  3. Nucleic Acids Research. 2012, Jan; 40(1): 345-359.
  1. 4.   Characterization and polymorphic analysis of 4.5 kb genomic full-length HLA-C in the Chinese Han population
  2. Xu, Y.; Deng, Z.; O'HUigin, C.; Wang, D.; Gao, S.; Zeng, J.; Yang, B.; Jin, S.; Zou, H.
  3. Tissue Antigens. 2011, Aug; 78(2): 102-114.
  1. 5.   Selective Modulation of DNA Polymerase Activity by Fixed-Conformation Nucleoside Analogues
  2. Eoff, R. L.; McGrath, C. E.; Maddukuri, L.; Salamanca-Pinzon, S. G.; Marquez, V. E.; Marnett, L. J.; Guengerich, F. P.; Egli, M.
  3. Angewandte Chemie-International Edition. 2010, Oct 4; 49(41): 7481-7485.
  1. 6.   Comparison of standard PCR/cloning to single genome sequencing for analysis of HIV-1 populations
  2. Jordan, M. R.; Kearney, M.; Palmer, S.; Shao, W.; Maldarelli, F.; Coakley, E. P.; Chappey, C.; Wanke, C.; Coffin, J. M.
  3. Journal of Virological Methods. 2010, Sep; 168(1-2): 114-120.
  1. 7.   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. 8.   HIV-1 reverse transcriptase connection subdomain mutations reduce template RNA degradation and enhance AZT excision
  2. Delviks-Frankenberry, K. A.; Nikolenko, G. N.; Boyer, P. L.; Hughes, S. H.; Coffin, J. M.; Jere, A.; Pathak, V. K.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2008 105(31): 10943-10948.
  1. 9.   In vitro fidelity of the prototype primate foamy virus (PFV) RT compared to HIV-1 RT
  2. Boyer, P. L.; Stenbak, C. R.; Hoberman, D.; Linial, M. L.; Hughes, S. H.
  3. Virology. 2007, Oct; 367(2): 253-264.
  1. 10.   Reliability of high-throughput genotyping of whole genome amplified DNA in SNP genotyping studies
  2. Berthier-Schaad, Y.; Kao, W. H. L.; Coresh, J.; Zhang, L.; Ingersoll, R. G.; Stephens, R.; Smith, M. W.
  3. Electrophoresis. 2007, Aug; 28(16): 2812-2817.
  1. 11.   Mutations in the RNase H primer grip domain of murine leukemia virus reverse transcriptase decrease efficiency and accuracy of plus-strand DNA transfer
  2. Mbisa, J. L.; Nikolenko, G. N.; Pathak, V. K.
  3. Journal of Virology. 2005, JAN; 79(1): 419-427.
  1. 12.   PCR amplification of DNA containing non-standard base pairs by variants of reverse transcriptase from Human Immunodeficiency Virus-1
  2. Sismour, A. M.; Lutz, S.; Park, J. H.; Lutz, M. J.; Boyer, P. L.; Hughes, S. H.; Benner, S. A.
  3. Nucleic Acids Research. 2004 32(2): 728-735.
  1. 13.   Retroviral mutation rates and reverse transcriptase fidelity
  2. Svarovskaia, E. S.; Cheslock, S. R.; Zhang, W. H.; Hu, W. S.; Pathak, V. K.
  3. Frontiers in Bioscience. 2003 8: D117-D134.
  1. 14.   Mutant Thermotoga neapolitana DNA polymerase I: altered catalytic properties for non-templated nucleotide addition and incorporation of correct nucleotides
  2. Yang, S. W.; Astatke, M.; Potter, J.; Chatterjee, D. K.
  3. Nucleic Acids Research. 2002 30(19): 4314-4320.
  1. 15.   Nontemplated base addition by HIV-1 RT can induce nonspecific strand transfer in vitro
  2. Golinelli, M. P.; Hughes, S. H.
  3. Virology. 2002 294(1): 122-134.
  1. 16.   YADD mutants of human immunodeficiency virus type 1 and Moloney murine leukemia virus reverse transcriptase are resistant to lamivudine triphosphate (3TCTP) in vitro
  2. Boyer, P. L.; Gao, H. Q.; Clark, P. K.; Sarafianos, S. G.; Arnold, E.; Hughes, S. H.
  3. Journal of Virology. 2001 75(14): 6321-6328.
  1. 17.   HIV-1 reverse transcriptase interaction with model RNA-DNA duplexes
  2. Gorshkova, II; Rausch, J. W.; Le Grice, S. F. J.; Crouch, R. J.
  3. Analytical Biochemistry. 2001 291(2): 198-206.
  1. 18.   Inhibition of antimutagenic enzymes, 8-oxo-dGTPases, by carcinogenic metals. Recent developments
  2. Kasprzak, K. S.; Bialkowski, K.
  3. Journal of Inorganic Biochemistry. 2000 79(1-4): 231-236.
  1. 19.   Activity of the antimutagenic enzyme 8-oxo-2 '-deoxyguanosine 5 '-triphosphate pyrophosphohydrolase (8-oxo-dGTPase) in cultured Chinese hamster ovary cells: Effects of cell cycle, proliferation rate, and population density
  2. Bialkowski, K.; Kasprzak, K. S.
  3. Free Radical Biology and Medicine. 2000 28(3): 337-344.
  1. 20.   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.
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