Transcription antitermination by phage lambda gene Q protein requires a DNA segment spanning the RNA start site.
Open Access
- 30 April 1987
- journal article
- research article
- Published by Cold Spring Harbor Laboratory in Genes & Development
- Vol. 1 (3) , 217-226
- https://doi.org/10.1101/gad.1.3.217
Abstract
The gene Q protein of phage lambda is a transcription antiterminator that modifies RNA polymerase near the phage late gene promoter and thereby causes antitermination at distant sites. To define the site of action of Q protein, we have reconstructed the regulatory system on plasmids that allow the intracellular concentration of Q protein to be regulated, and that allow the effect of Q protein on transcription from variant promoter segments to be measured in vivo and in vitro. We show that DNA sequences essential for Q protein-mediated antitermination span the RNA start site, but do not extend beyond nucleotide 18 of the late RNA coding region. We also show that the modification that permits antitermination persists while RNA polymerase passes at least two terminators in vivo and in vitro.This publication has 20 references indexed in Scilit:
- A block to elongation is largely responsible for decreased transcription of c-myc in differentiated HL60 cellsNature, 1986
- Regulatory defects of a conditionally lethal nusAts mutant of Escherichia coliJournal of Molecular Biology, 1986
- Phage lambda gene Q antiterminator recognizes RNA polymerase near the promoter and accelerates it through a pause siteCell, 1985
- Mapping of the Q-utilization site (qut) required for antitermination of late transcription in bacteriophage lambdaGene, 1983
- The phage λ Q gene product: Activity of a transcription antiterminator in vitroCell, 1982
- Genetics and structure of the late gene regulatory region of phage 82Virology, 1980
- L factor that is required for beta-galactosidase synthesis is the nusA gene product involved in transcription termination.Proceedings of the National Academy of Sciences, 1980
- [42] Fractionation of DNA fragments by polyethylene glycol induced precipitationPublished by Elsevier ,1980
- Specificity of the bacteriophage lambda N gene product (pN): Nut sequences are necessary and sufficient for antitermination by pNCell, 1979
- Genetic characterization of a bacterial locus involved in the activity of the N function of phage λVirology, 1974