Escherichia colipromoter sequences predictin vitroRNA polymerase selectivity [PDF]
, 1984 Martin E. Mulligan +3 more
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The small-molecule BMH-21 directly inhibits transcription elongation and DNA occupancy of RNA polymerase I in vivo and in vitro. [PDF]
J Biol Chem, 2022 Jacobs RQ +3 more
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Conservation between the RNA polymerase I, II, and III transcription initiation machineries.
Molecules and Cells, 2012 A. Vannini, P. Cramer
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Remote homology identification of the Drosophila melanogaster ortholog of the RNA Polymerase I subunit Rpa34/POLR1G. [PDF]
MicroPubl BiolPalumbo R, Knutson B.
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Investigating Influenza Virus Polymerase Activity in Feline Cells Based on the Influenza Virus Minigenome Replication System Driven by the Feline RNA Polymerase I Promoter. [PDF]
Front Immunol, 2022 Lu G, Zheng F, Ou J, Yin X, Li S.
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Visualization and quantitative analysis of complex formation betweenE.coliRNA polymerase and an rRNA promoterin vitro [PDF]
, 1988 Richard L. Gourse
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Quantifying the impact of initial RNA primer length on nucleotide addition by RNA polymerase I. [PDF]
Biophys ChemCooper SL, Lucius AL, Schneider DA.
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The N-terminal domain of the A12.2 subunit stimulates RNA polymerase I transcription elongation. [PDF]
Biophys J, 2021 Scull CE, Lucius AL, Schneider DA.
europepmc +1 more source
Linker scanning of the yeast RNA polymerase I promoter [PDF]
, 1989 C.J.M. Musters +5 more
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Targeting EMT using low-dose Teniposide by downregulating ZEB2-driven activation of RNA polymerase I in breast cancer. [PDF]
Cell Death DisMetge BJ +8 more
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