BIOMAT Database Logo BIOMAT Database Logo

DNA functional groups required for formation of open complexes between Escherichia coli RNA polymerase and the lambda PR promoter. Identification via base analog substitutions. 1987

J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers

Synthetic 75-base pair promoters bearing base changes and/or base analog substitutions at selected positions were constructed. Using both abortive initiation and run-off transcription assays, the interaction of these altered promoters with Escherichia coli RNA polymerase was studied in order to determine the involvement of DNA functional groups in promoter recognition. Two adjacent thymines in the -35 region were identified whose 5-methyl groups play a crucial role. Additionally, the combined results from several substitution experiments showed that functional groups in the major groove of the strongly conserved T-A base pair at the -7 position are probable sites of direct interaction with RNA polymerase.

UI MeSH Term Description Entries
D007700 Kinetics The rate dynamics in chemical or physical systems.
D010582 Bacteriophage lambda A temperate inducible phage and type species of the genus lambda-like viruses, in the family SIPHOVIRIDAE. Its natural host is E. coli K12. Its VIRION contains linear double-stranded DNA with single-stranded 12-base 5' sticky ends. The DNA circularizes on infection. Coliphage lambda,Enterobacteria phage lambda,Phage lambda,lambda Phage
D011401 Promoter Regions, Genetic DNA sequences which are recognized (directly or indirectly) and bound by a DNA-dependent RNA polymerase during the initiation of transcription. Highly conserved sequences within the promoter include the Pribnow box in bacteria and the TATA BOX in eukaryotes. rRNA Promoter,Early Promoters, Genetic,Late Promoters, Genetic,Middle Promoters, Genetic,Promoter Regions,Promoter, Genetic,Promotor Regions,Promotor, Genetic,Pseudopromoter, Genetic,Early Promoter, Genetic,Genetic Late Promoter,Genetic Middle Promoters,Genetic Promoter,Genetic Promoter Region,Genetic Promoter Regions,Genetic Promoters,Genetic Promotor,Genetic Promotors,Genetic Pseudopromoter,Genetic Pseudopromoters,Late Promoter, Genetic,Middle Promoter, Genetic,Promoter Region,Promoter Region, Genetic,Promoter, Genetic Early,Promoter, rRNA,Promoters, Genetic,Promoters, Genetic Middle,Promoters, rRNA,Promotor Region,Promotors, Genetic,Pseudopromoters, Genetic,Region, Genetic Promoter,Region, Promoter,Region, Promotor,Regions, Genetic Promoter,Regions, Promoter,Regions, Promotor,rRNA Promoters
D011485 Protein Binding The process in which substances, either endogenous or exogenous, bind to proteins, peptides, enzymes, protein precursors, or allied compounds. Specific protein-binding measures are often used as assays in diagnostic assessments. Plasma Protein Binding Capacity,Binding, Protein
D004926 Escherichia coli A species of gram-negative, facultatively anaerobic, rod-shaped bacteria (GRAM-NEGATIVE FACULTATIVELY ANAEROBIC RODS) commonly found in the lower part of the intestine of warm-blooded animals. It is usually nonpathogenic, but some strains are known to produce DIARRHEA and pyogenic infections. Pathogenic strains (virotypes) are classified by their specific pathogenic mechanisms such as toxins (ENTEROTOXIGENIC ESCHERICHIA COLI), etc. Alkalescens-Dispar Group,Bacillus coli,Bacterium coli,Bacterium coli commune,Diffusely Adherent Escherichia coli,E coli,EAggEC,Enteroaggregative Escherichia coli,Enterococcus coli,Diffusely Adherent E. coli,Enteroaggregative E. coli,Enteroinvasive E. coli,Enteroinvasive Escherichia coli
D001482 Base Composition The relative amounts of the PURINES and PYRIMIDINES in a nucleic acid. Base Ratio,G+C Composition,Guanine + Cytosine Composition,G+C Content,GC Composition,GC Content,Guanine + Cytosine Content,Base Compositions,Base Ratios,Composition, Base,Composition, G+C,Composition, GC,Compositions, Base,Compositions, G+C,Compositions, GC,Content, G+C,Content, GC,Contents, G+C,Contents, GC,G+C Compositions,G+C Contents,GC Compositions,GC Contents,Ratio, Base,Ratios, Base
D001483 Base Sequence The sequence of PURINES and PYRIMIDINES in nucleic acids and polynucleotides. It is also called nucleotide sequence. DNA Sequence,Nucleotide Sequence,RNA Sequence,DNA Sequences,Base Sequences,Nucleotide Sequences,RNA Sequences,Sequence, Base,Sequence, DNA,Sequence, Nucleotide,Sequence, RNA,Sequences, Base,Sequences, DNA,Sequences, Nucleotide,Sequences, RNA
D012321 DNA-Directed RNA Polymerases Enzymes that catalyze DNA template-directed extension of the 3'-end of an RNA strand one nucleotide at a time. They can initiate a chain de novo. In eukaryotes, three forms of the enzyme have been distinguished on the basis of sensitivity to alpha-amanitin, and the type of RNA synthesized. (From Enzyme Nomenclature, 1992). DNA-Dependent RNA Polymerases,RNA Polymerases,Transcriptases,DNA-Directed RNA Polymerase,RNA Polymerase,Transcriptase,DNA Dependent RNA Polymerases,DNA Directed RNA Polymerase,DNA Directed RNA Polymerases,Polymerase, DNA-Directed RNA,Polymerase, RNA,Polymerases, DNA-Dependent RNA,Polymerases, DNA-Directed RNA,Polymerases, RNA,RNA Polymerase, DNA-Directed,RNA Polymerases, DNA-Dependent,RNA Polymerases, DNA-Directed
D014158 Transcription, Genetic The biosynthesis of RNA carried out on a template of DNA. The biosynthesis of DNA from an RNA template is called REVERSE TRANSCRIPTION. Genetic Transcription

Related Publications

J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Roles of Mg2+ in the mechanism of formation and dissociation of open complexes between Escherichia coli RNA polymerase and the lambda PR promoter: kinetic evidence for a second open complex requiring Mg2+.
September 1992, Biochemistry,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Kinetics and mechanism of the interaction of Escherichia coli RNA polymerase with the lambda PR promoter.
July 1984, Journal of molecular biology,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Properties of phage lambda DNA-RNA polymerase complexes isolated from Escherichia coli (lambda).
May 1970, Biochimica et biophysica acta,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
[Specific conformation changes in RNA polymerase from Escherichia coli during formation of open promoter complexes on T7-DNA].
January 1986, Doklady Akademii nauk SSSR,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Promoter selectivity of Escherichia coli RNA polymerase: effect of base substitutions in the promoter -35 region on promoter strength.
December 1990, Nucleic acids research,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Promoter recognition by Escherichia coli RNA polymerase: effects of base substitutions in the -10 and -35 regions.
September 1987, Biochemistry,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Interactions between Escherichia coli RNA polymerase and lambda repressor. Mutations in PRM affect repression of PR.
April 1988, Journal of molecular biology,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Promoter recognition by Escherichia coli RNA polymerase. Role of the spacer DNA in functional complex formation.
June 1989, Journal of molecular biology,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
Regulation of the kinetics of the interaction of Escherichia coli RNA polymerase with the lambda PR promoter by salt concentration.
August 1985, Biochemistry,
J W Dubendorff, and P L deHaseth, and M S Rosendahl, and M H Caruthers
[Reconstitution of a functional RNA polymerase-DNA complex of lambda membranes of Escherichia coli].
February 1972, Comptes rendus hebdomadaires des seances de l'Academie des sciences. Serie D: Sciences naturelles,
Copied contents to your clipboard!