Transcription factor IIA (TFIIA) is one of the general transcription factors for RNA polymerase II and composed of three subunits, TFIIAalpha, TFIIAbeta and TFIIAgamma. TFIIAalpha and TFIIAbeta are encoded by a single gene (TFIIAalphabeta) and mature through internal cleavage of TFIIAalphabeta. In this study, we found that structures of TFIIAalphabeta and TFIIAgamma are highly homologous with each mammalian counterpart. Exon-intron organizations of the human and chicken TFIIA genes were also homologous. The sequence of the cleavage region of the chicken TFIIAalphabeta precursor protein was fitted to the consensus cleavage recognition site. It was thus demonstrated that TFIIA is conserved in vertebrates. TFIIA proteins are present ubiquitously in chicken tissues. Fluorescent in situ hybridization revealed that TFIIAalphabeta and TFIIAgamma genes are located in chromosome 5 and a mini-chromosome, respectively. We generated semi-knockout chicken DT40 cells for TFIIAalphabeta and TFIIAgamma genes with high homologous recombination efficiencies, whereas we failed to establish double-knockout cells for each gene. It is thought that both genes for TFIIA are required in vertebrates. TFIIA siRNA resulted in deceleration of cell growth rate, suggesting that, consistent with those of knockout assays, TFIIA is associated with cell growth regulation.
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The host basal transcription factor IIA subunits coordinate for facilitating infection of TALEs-carrying bacterial pathogens in rice.
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Transcription factor IIA (TFIIA) is one of the general transcription factors for RNA polymerase II and composed of three subunits, TFIIAalpha, TFIIAbeta and TFIIAgamma. TFIIAalpha and TFIIAbeta are encoded by a single gene (TFIIAalphabeta) and mature through internal cleavage of TFIIAalphabeta. In this study, we found that structures of TFIIAalphabeta and TFIIAgamma are highly homologous with each mammalian counterpart.
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NCMLS, Department of Molecular Biology, HB Nijmegen, The Netherlands.
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Biochim Biophys Acta
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Department of Molecular and Cell Biology, University of Texas at Dallas, Richardson, TX 75080, USA.
The transcription factor TFIIA stabilizes the interaction between the TATA-binding protein (TBP) and promoter DNA and facilitates activator function. In yeast, TFIIA is composed of large (TOA1) and small (TOA2) subunits that interact to form a beta-barrel domain and a helix bundle domain. Here we report plasmid shuffle experiments showing that the human subunits (TFIIAalpha/beta, ALF, and TFIIAgamma) are not able to support growth in yeast and that the failure is associated with morphological abnormalities related to cell division.
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Department of Molecular and Cell Biology, University of Texas at Dallas, 2601 N. Floyd Road, Richardson, TX 75080, USA.
The assembly and stability of the RNA polymerase II transcription preinitiation complex on a eukaryotic core promoter involves the effects of TFIIA on the interaction between TATA-binding protein (TBP) and DNA. To extend our understanding of these interactions, we characterized properties of ALF, a germ cell-specific TFIIA-like factor. ALF was able to stabilize the binding of TBP to DNA, but it could not stabilize TBP mutants A184E, N189E, E191R, and R205E nor could it facilitate binding of the TBP-like factor TRF2/TLF to a consensus TATA element.
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