Nusg an escherichia coli elongation factor that makes termination by rho factor more efficient and antitermination by bacteriophage lambda n protein more processive
Mason S.; Li J.; Greenblatt J.
Journal of Cellular Biochemistry Suppl (16 Part E): 184
1992
ISSN/ISBN: 0730-2312
Accession: 032595419
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Related References
Li, J.; Horwitz, R.; McCracken, S.; Greenblatt, J. 1992: NusG, a new Escherichia coli elongation factor involved in transcriptional antitermination by the N protein of phage lambda Journal of Biological Chemistry 267(9): 6012-6019Li, J.; Horwitz, R.; Mccracken, S.; Greenblatt, J. 1992: NusG, a new Escherichia coli elongation factor involved in transcriptional antitermination by the N protein of phage λ Journal of Biological Chemistry 267(9): 6012-6019
Li, J.; Mason, S.W.; Greenblatt, J. 1993: Elongation factor NusG interacts with termination factor rho to regulate termination and antitermination of transcription Genes and Development 7(1): 161-172
Mason, S.W.; Li, J.; Greenblatt, J. 1992: Host factor requirements for processive antitermination of transcription and suppression of pausing by the N protein of bacteriophage lambda Journal of Biological Chemistry 267(27): 19418-19426
Mah, T.F.; Li, J.; Davidson, A.R.; Greenblatt, J. 1999: Functional importance of regions in Escherichia coli elongation factor NusA that interact with RNA polymerase, the bacteriophage lambda N protein and RNA Molecular Microbiology 34(3): 523-537
Mason, S.W.; Greenblatt, J. 1991: Assembly of transcription elongation complexes containing the N protein of phage lambda and the Escherichia coli elongation factors NusA, NusB, NusG, and S10 Genes and Development 5(8): 1504-1512
Nakamura, Y.; Mizusawa, S.; Tsugawa, A.; Imai, M. 1986: Conditionally lethal nus Ats mutation of Escherichia coli reduces transcription termination but does not affect antitermination of bacteriophage lambda Molecular and General Genetics: Mgg 204(1): 24-28
Nakamura, Y.; Mizusawa, S.; Tsugawa, A.; Imai, M. 1986: Conditionally lethal nusAts mutation of Escherichia coli reduces transcription termination but does not affect antitermination of bacteriophage lambda Mgg. Molecular and General Genetics 204(1): 24-28
Sullivan, S.L.; Ward, D.F.; Gottesman, M.E. 1992: Effect of Escherichia coli nusG function on lambda N-mediated transcription antitermination Journal of Bacteriology 174(4): 1339-1344
Briat, J.F.; Bollag, G.; Kearney, C.A.; Molineux, I.; Chamberlin, M.J. 1987: Tau factor from Escherichia coli mediates accurate and efficient termination of transcription at the bacteriophage T3 early termination site in vitro Journal of Molecular Biology 198(1): 43-49
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Goda, Y.; Greenblatt, J. 1985: Efficient modification of E. coli RNA polymerase in vitro by the N gene transcription antitermination protein of bacteriophage lambda Nucleic Acids Research 13(7): 2569-2582
Linderoth, N.A.; Calendar, R.L. 1991: The Psu protein of bacteriophage P4 is an antitermination factor for rho-dependent transcription termination Journal of Bacteriology 173(21): 6722-6731
Saxena, S.; Gowrishankar, J. 2011: Compromised factor-dependent transcription termination in a nusA mutant of Escherichia coli: spectrum of termination efficiencies generated by perturbations of Rho, NusG, NusA, and H-NS family proteins Journal of Bacteriology 193(15): 3842-3850
Sullivan, S.L.; Gottesman, M.E. 1991: Requirement for E. coli NusG protein in factor-dependent transcription termination Cell (Cambridge) 68(5): 989-994