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  1. 1.   Elements in the ? Immunity Region Regulate Phage Development: Beyond the "Genetic Switch"
  2. Thomason,Lynn; Morrill, Kathleen; Murray, Gillian; Court,Carolyn; Shafer, Brenda; Schneider,Tom; Court,Don
  3. Molecular microbiology. 2019, DEC; 112(6): 1798-1813.
  1. 2.   Structural basis for RNA recognition by NusB and NusE in the initiation of transcription antitermination
  2. Stagno, J. R.; Altieri, A. S.; Bubunenko, M.; Tarasov, S. G.; Li, J.; Court, D. L.; Byrd, R. A.; Ji, X. H.
  3. Nucleic Acids Research. 2011, Sep; 39(17): 7803-7815.
  1. 3.   Probing Cellular Processes with Oligo-Mediated Recombination and Using the Knowledge Gained to Optimize Recombineering
  2. Sawitzke, J. A.; Costantino, N.; Li, X. T.; Thomason, L. C.; Bubunenko, M.; Court, C.; Court, D. L.
  3. Journal of Molecular Biology. 2011, Mar; 407(1): 45-59.
  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.   A stepwise model for double-stranded RNA processing by ribonuclease III
  2. Gan, J.; Shaw, G.; Tropea, J. E.; Waugh, D. S.; Court, D. L.; Ji, X.
  3. Molecular Microbiology. 2008 67(1): 143-154.
  1. 6.   Structural and Functional Analysis of the E. coli NusB-S10 Transcription Antitermination Complex
  2. Luo, X.; Hsiao, H. H.; Bubunenko, M.; Weber, G.; Court, D. L.; Gottesman, M. E.; Urlaub, H.; Wahl, M. C.
  3. Molecular Cell. 2008 32(6): 791-802.
  1. 7.   Host responses influence on the induction of lambda prophage
  2. Rokney, A.; Kobiler, O.; Amir, A.; Court, D. L.; Stavans, J.; Adhya, S.; Oppenheim, A. B.
  3. Molecular Microbiology. 2008 68(1): 29-36.
  1. 8.   Multicopy plasmid modification with phage lambda red recombineering
  2. Thomason, L. C.; Costantino, N.; Shaw, D. V.; Court, D. L.
  3. Plasmid. 2007, Sep; 58(2): 148-158.
  1. 9.   A recombineering based approach for high-throughput conditional knockout targeting vector construction
  2. Chan, W.; Costantino, N.; Li, R. X.; Lee, S. C.; Su, Q.; Melvin, D.; Court, D. L.; Liu, P. T.
  3. Nucleic Acids Research. 2007, Apr; 35(8):
  1. 10.   Role of an RNase III binding site in transcription termination at lambda nutL by HK022 Nun protein
  2. Washburn, R. S.; Court, D. L.; Gottesman, M. E.
  3. Journal of Bacteriology. 2006, Oct; 188(19): 6824-6831.
  1. 11.   Structural basis for non-catalytic and catalytic activities of ribonuclease III
  2. Ji, X. H.
  3. Acta Crystallographica Section D-Biological Crystallography. 2006, Aug; 62: 933-940.
  1. 12.   Enhanced soluble protein expression using two new fusion tags
  2. Chatterjee, D. K.; Esposito, D.
  3. Protein Expression and Purification. 2006, MAR; 46(1): 122-129.
  1. 13.   Structural insight into the mechanism of double-stranded RNA processing by ribonuclease III
  2. Gan, J. H.; Tropea, J. E.; Austin, B. P.; Court, D. L.; Waugh, D. S.; Ji, X. H.
  3. Cell. 2006, JAN 27; 124(2): 355-366.
  1. 14.   Molecular architecture and ligand recognition determinants for T4 RNA ligase
  2. El Omari, K.; Ren, J.; Bird, L. E.; Bona, M. K.; Klarmann, G.; Legrice, S. F. J.; Stammers, D. K.
  3. Journal of Biological Chemistry. 2006, JAN 20; 281(3): 1573-1579.
  1. 15.   Comparative analysis of tandem T7-like promoter containing regions in enterobacterial genomes reveals a novel group of genetic islands
  2. Chen, Z. H.; Schneider, T. D.
  3. Nucleic Acids Research. 2006 34(4): 1133-1147.
  1. 16.   Attenuation of DNA replication by HIV-1 reverse transcriptase near the central termination sequence
  2. Ignatov, M. E.; Berdis, A. J.; Le Grice, S. F. J.; Barkley, M. D.
  3. Biochemistry. 2005, APR 12; 44(14): 5346-5356.
  1. 17.   Switches in bacteriophage lambda development
  2. Oppenheim, A. B.; Kobiler, O.; Stavans, J.; Court, D. L.; Adhya, S.
  3. Annual Review of Genetics. 2005 39: 409-429.
  1. 18.   Quantitative kinetic analysis of the bacteriophage lambda genetic network
  2. Kobiler, O.; Rokney, A.; Friedman, N.; Court, D. L.; Stavans, J.; Oppenheim, A. B.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2005 102(12): 4470-4475.
  1. 19.   On the role of Cro in lambda prophage induction
  2. Svenningsen, S. L.; Costantino, N.; Court, D. L.; Adhya, S.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2005 102(12): 4465-4469.
  1. 20.   Crystal structure of a truncated version of the phage lambda protein gpD
  2. Chang, C. S.; Pluckthun, A.; Wlodawer, A.
  3. Proteins-Structure Function and Bioinformatics. 2004, DEC 1; 57(4): 866-868.
  1. 21.   Kinetic stability and crystal structure of the viral capsid protein SHP
  2. Forrer, P.; Chang, C. S.; Ott, D.; Wlodawer, A.; Pluckthun, A.
  3. Journal of Molecular Biology. 2004, NOV 12; 344(1): 179-193.
  1. 22.   In vivo recombineering of bacteriophage lambda by PCR fragments and single-strand oligonucleotides
  2. Oppenheim, A. B.; Rattray, A. J.; Bubunenko, M.; Thomason, L. C.; Court, D. L.
  3. Virology. 2004 319(2): 185-189.
  1. 23.   Recombineering with overlapping single-stranded DNA oligonucleotides: Testing a recombination intermediate
  2. Yu, D. G.; Sawitzke, J. A.; Ellis, H.; Court, D. L.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2003 100(12): 7207-7212.
  1. 24.   Phage HK022 nun protein represses translation of phage lambda N (transcription termination/translation repression)
  2. Kim, H. C.; Zhou, J. G.; Wilson, H. R.; Mogilnitskiy, G.; Court, D. L.; Gottesman, M. E.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2003 100(9): 5308-5312.
  1. 25.   Enhanced levels of lambda red-mediated recombinants in mismatch repair mutants
  2. Costantino, N.; Court, D. L.
  3. Proceedings of the National Academy of Sciences of the United States of America. 2003 100(26): 15748-15753.
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