Similarity and divergence between the RNA polymerase α subunits from hyperthermophilic Thermotoga maritima and mesophilic Escherichia coli bacteria
Laetitia Guével, Vehary Sakanyan
Gene, 2006
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RNA polymerase-promoter interactions determining different stability of the Escherichia coli and Thermus aquaticus transcription initiation complexes
Vladimir Mekler
Nucleic Acids Research, 2012
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Sequence specific interaction between promoter DNA and Escherichia coli RNA polymerase: comparative thermodynamic analysis with one immobilized partner
Abantika Ganguly
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Faculty of 1000 evaluation for Promoter melting triggered by bacterial RNA polymerase occurs in three steps
Katsu Murakami
F1000 - Post-publication peer review of the biomedical literature, 2010
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Reorganisation of an RNA polymerase–promoter DNA complex for DNA melting
Konstantin Severinov
The EMBO Journal, 2004
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Cooperation between Catalytic and DNA Binding Domains Enhances Thermostability and Supports DNA Synthesis at Higher Temperatures by Thermostable DNA Polymerases
Andrey Pavlov
Biochemistry, 2012
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DNA melting by RNA polymerase at the T7A1 promoter precedes the rate-limiting step at 37 C and results in the accumulation of an off-pathway intermediate
Hermann Heumann
Nucleic Acids Research, 2009
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Temperature dependence of the rate constants of the Escherichia coli RNA polymerase-λP promoter interaction
Dick Burgess
Journal of Molecular Biology, 1985
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Cell-Free Transcription at 95°: Thermostability of Transcriptional Components and DNA Topology Requirements of Pyrococcus Transcription
Michael Thomm
Genetics, 1999
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A temperature-sensitive mutant of Escherichia coli affected in the alpha subunit of RNA polymerase
Majid Mehrpouyan
Nucleic Acids Research, 1990
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Transcription from a heat-inducible promoter causes heat shock regulation of the sigma subunit of E. coli RNA polymerase
Dick Burgess
Cell, 1984
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RNA Polymerase Alters the Mobility of an A-Residue Crucial to Polymerase-Induced Melting of Promoter DNA †
Pieter Dehaseth
Biochemistry, 2002
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Visualization of intermediary transcription states in the complex between Escherichia coli DNA-dependent RNA polymerases and a promoter-carrying DNA fragment using the gel retardation method
Hermann Heumann
European Journal of Biochemistry, 1986
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Comparative thermal denaturation of Thermus aquaticus and Escherichia coli type 1 DNA polymerases
CARMEN RUIZ
Biochemical Journal, 2003
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Promoter recognition by Escherichia coli RNA polymerase. Effects of single base pair deletions and insertions in the spacer DNA separating the -10 and -35 regions are dependent on spacer DNA sequence
Pieter Dehaseth, M. Strainic
Biochemistry, 1993
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Thermal probing of E. coli RNA polymerase off-pathway mechanisms
Carlos Bustamante, Nancy Forde
2008
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Temperature-sensitive Escherichia coli mutant producing a temperature-sensitive sigma subunit of DNA-dependent RNA polymerase
Masamitsu Futai
Proceedings of the National Academy of Sciences, 1978
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Archaeal RNA polymerase subunits E and F are not required for transcription in vitro , but a Thermococcus kodakarensis mutant lacking subunit F is temperature-sensitive
Momoko Tajiri
Molecular Microbiology, 2008
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A Temperature-Induced Narrow DNA Curvature Range Sustains the Maximum Activity of a Bacterial Promoter in Vitro
Gianni Prosseda
Biochemistry, 2010
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Temperature, template topology, and factor requirements of archaeal transcription
C. Jaxel
Proceedings of the National Academy of Sciences, 1998
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Strand Opening-deficient Escherichia coli RNA Polymerase Facilitates Investigation of Closed Complexes with Promoter DNA: EFFECTS OF DNA SEQUENCE AND TEMPERATURE
Pieter Dehaseth, V. Cook
Journal of Biological Chemistry, 2007
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Cell-Free Transcription at 958: Thermostability of Transcriptional Components and DNA Topology Requirements of Pyrococcus Transcription
Michael Thomm
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Isolation and characterization of thermostable DNA polymerase of the hyperthermophilic archaeum Thermococcus litoralis Sh1AM
mehwish akram
Applied Biochemistry and Microbiology, 2005
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A temperature sensitive mutation of the β′-subunit of DNA-dependent RNA polymerase fromE. coliT16
Susan R Panny
FEBS Letters, 1974
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The -11A of promoter DNA and two conserved amino acids in the melting region of 70 both directly affect the rate limiting step in formation of the stable RNA polymerase-promoter complex, but they do not necessarily interact
Pieter Dehaseth
Nucleic Acids Research, 2007
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DNA supercoiling and bacterial adaptation: Thermotolerance and thermoresistance
Yuk-Ching Dinh
Trends in Microbiology, 1997
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Flexibility of the DNA enhances promoter affinity of Escherichia coli RNA polymerase
Hermann Heumann
The EMBO Journal, 1991
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A temperature sensitive mutation of the β′-subunit of DNA-dependent RNA polymerase from E. coli T16
Susan R Panny
FEBS Letters, 1974
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Equilibrium and Stopped-flow Kinetic Studies of Interaction between T7 RNA Polymerase and Its Promoters Measured by Protein and 2-Aminopurine Fluorescence Changes
Amar Kant Kumar
Journal of Biological Chemistry, 1996
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Electron microscopic mapping of Thermus thermophilus RNA polymerase binding sites on plasmid pBR322
Rafael Vicuña
Comparative biochemistry and physiology. B. Comparative biochemistry, 1985
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Thermodynamics of the DNA Structural Selectivity of the Pol I DNA Polymerases from Escherichia coli and Thermus aquaticus
Sreerupa Ray
Biophysical Journal, 2010
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Pressure enhances thermal stability of DNA polymerase from three thermophilic organisms
J. Baross
Extremophiles, 1998
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Cloning of thermostable DNA polymerases from hyperthermophilic marine Archaea with emphasis on Thermococcus sp. 9 degrees N-7 and mutations affecting 3'-5' exonuclease activity
Rebecca Kucera
Proceedings of the National Academy of Sciences, 1996
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