Results 211 to 220 of about 829,079 (264)
RNA polymerase II is a polar roadblock to a progressing DNA fork. [PDF]
Nat CommunKay TM +10 more
europepmc +1 more source
Molecular insight into 5' RNA capping with Np<sub>n</sub>Ns by bacterial RNA polymerase. [PDF]
Nat Chem BiolSerianni VM +10 more
europepmc +1 more source
Accurate prediction of cohesin and RNA Polymerase II-associated chromatin interactions using convolutional neural networks. [PDF]
Nucleic Acids ResAbbas A +4 more
europepmc +1 more source
Direct recruitment of RNA Polymerase II by NANOG to activated target genes
Mullin NP +7 more
europepmc +1 more source
Expression of Concern on 'Control of small inhibitory RNA levels and RNA interference by doxycycline induced activation of a minimal RNA polymerase III promoter'. [PDF]
Nucleic Acids Reseuropepmc +1 more source
Some of the next articles are maybe not open access.
Related searches:
Related searches:
Journal of Molecular Biology, 2000
Bacterial RNA polymerase and eukaryotic RNA polymerase II exhibit striking structural similarities, including similarities in overall structure, relative positions of subunits, relative positions of functional determinants, and structures and folding topologies of subunits.
Richard H Ebright
exaly +3 more sources
Bacterial RNA polymerase and eukaryotic RNA polymerase II exhibit striking structural similarities, including similarities in overall structure, relative positions of subunits, relative positions of functional determinants, and structures and folding topologies of subunits.
Richard H Ebright
exaly +3 more sources
Current Protocols in Molecular Biology, 2008
AbstractThis unit describes DNA‐dependent, RNA‐dependent, and template‐independent RNA polymerases. DNA‐dependent RNA polymerases include the related bacteriophage T7, T3, and SP6 polymerases, the most commonly used RNA polymerases for in vitro transcription reactions. Reaction conditions to produce preparative quantities of transcribed RNA and labeled
Beth M, Paschal +3 more
openaire +2 more sources
AbstractThis unit describes DNA‐dependent, RNA‐dependent, and template‐independent RNA polymerases. DNA‐dependent RNA polymerases include the related bacteriophage T7, T3, and SP6 polymerases, the most commonly used RNA polymerases for in vitro transcription reactions. Reaction conditions to produce preparative quantities of transcribed RNA and labeled
Beth M, Paschal +3 more
openaire +2 more sources
Molecular Biology, 2005
Plastids have a very interesting transcription apparatus that gives us an opportunity to investigate mono- and multisubunut RNA polymerase interaction under conditions of complex biogenesis of the organelles and the necessity to coordinate the expression of genes located in different cell compartments.
E A, Lysenko, V V, Kuznetsov
openaire +2 more sources
Plastids have a very interesting transcription apparatus that gives us an opportunity to investigate mono- and multisubunut RNA polymerase interaction under conditions of complex biogenesis of the organelles and the necessity to coordinate the expression of genes located in different cell compartments.
E A, Lysenko, V V, Kuznetsov
openaire +2 more sources
Critical Reviews in Biochemistry, 1988
Recent progress in molecular biological techniques revealed that genomes of animal viruses are complex in structure, for example, with respect to the chemical nature (DNA or RNA), strandedness (double or single), genetic sense (positive or negative), circularity (circle or linear), and so on.
A, Ishihama, K, Nagata
openaire +2 more sources
Recent progress in molecular biological techniques revealed that genomes of animal viruses are complex in structure, for example, with respect to the chemical nature (DNA or RNA), strandedness (double or single), genetic sense (positive or negative), circularity (circle or linear), and so on.
A, Ishihama, K, Nagata
openaire +2 more sources