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Keywords: co-activator
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Biochem Soc Trans (2009) 37 (1): 52–57.
Published: 20 January 2009
... divergence: in eukaryotes, it is a weakly conserved flexible domain, whereas, in archaea, it is a conserved zinc-ribbon domain. Although its function in archaea remains elusive, its function as a transcriptional co-activator has been deduced from thorough studies of several eukaryotic proteins, often...
Biochem Soc Trans (2008) 36 (4): 603–608.
Published: 22 July 2008
... proteins. Moreover, we discuss how analysis of its evolutionary conservation reveals distinct subdomains and conserved residues that might give insights into its regulation and function. 25 4 2008 © The Authors Journal compilation © 2008 Biochemical Society 2008 co-activator co-repressor...
Includes: Supplementary data
Biochem Soc Trans (2008) 36 (4): 609–612.
Published: 22 July 2008
... The Authors Journal compilation © 2008 Biochemical Society 2008 co-activator DEAD box p68 p72 RNA helicase transcriptional regulation The DEAD box [a motif named after its amino acid sequence (Asp-Glu-Ala-Asp)] subfamily of RNA helicases is characterized by the presence of several conserved...
Biochem Soc Trans (2004) 32 (6): 1103–1106.
Published: 26 October 2004
... fusion protein. The findings from initial experiments suggest an increase in transcription initiation and elongation rates by AR-AF1–Lex. The role of protein–protein interactions involving co-activators and basal transcription factors and AR-AF1 activity are discussed. AR androgen receptor AF1...