Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:2.7.7.6 (RNA polymerase)
 34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The human ADH1, ADH2, and ADH3 genes are closely related members of a gene family which are differentially expressed during liver development. To begin examining the mechanism of this tissue-specific and stage-specific expression, the 5'-flanking nucleotide (nt) sequences of the three genes were determined and the transcription start point (tsp) were identified. Sequences of all three genes indicated a high degree of homology (greater than 80% nt sequence identity) from the AUG translation start codon to about nt -780 relative to the tsp. Transient transfection assays of a set of plasmids containing various lengths of ADH 5'-flanking DNA fused to cat were performed in the HepG2 and Hep3B human hepatoma cell lines. The results indicated that the ADH2 promoter-proximal region was transcriptionally active in the absence of upstream sequences. To identify potential cis-acting elements in the ADH2 promoter-proximal region, a DNase I footprinting assay using a rat liver nuclear extract was used. Protection occurred in several locations including one, between nt -51 and -10, which shares homology with known binding sites for a previously identified rat-liver transcription factor called CCAAT/enhancer binding protein (C/EBP). Purified C/EBP was shown by footprint analysis to bind at two distinct sites in the ADH2 promoter located at nt -51 to -31 and -21 to -10. The TATA-box promoter element at nt -30 to -22 was not protected by C/EBP, but was partially protected by a factor in the rat liver nuclear extract. Thus, it is possible that the flanking C/EBP molecules may create a novel binding pocket for TFIID, the TATA-binding general transcription factor for RNA polymerase II. Alternatively, the C/EBP molecules may block access to the TATA box, and stimulate transcription of ADH2 by interacting with some component(s) other than TFIID.
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PMID:Promoters for the human alcohol dehydrogenase genes ADH1, ADH2, and ADH3: interaction of CCAAT/enhancer-binding protein with elements flanking the ADH2 TATA box. 216 44

The sequences preceding the albumin mRNA start site are able to direct efficient transcription only upon introduction into cells expressing the endogenous albumin gene. In transient expression assays, the activity of a reporter gene (CAT) linked to this promoter is 100-fold higher in H4II differentiated hepatoma cells than in H5 dedifferentiated cells which no longer express their albumin gene. This tissue specificity depends on the very proximal promoter region, composed of a CCAAT box, the proximal element and a TATA box. Deletion of the CCAAT box leads to a two- to threefold decrease in activity, deletion of the proximal element (PE) results in loss of activity. The PE is a high-affinity binding site for HNF1/APF, a strictly liver specific trans-acting factor. When the affinity of this factor for PE is decreased by bacterial methylation (PE includes a dam methylase site), by mutation, or by its replacement with the homologous element from the alpha-fetoprotein gene (AFP), the activity of the short promoter (PE plus the TATA box) is abolished. This activity can be rescued in the presence of the more upstream elements: DEII, DEI and the CCAAT box (recognized, respectively, by the NF1/CTF, C/EBP and NFY/ACF factors) which are then absolutely required. Our results suggest that the upstream elements contribute to promoter activity by stabilizing the HNF1-PE complex and not by direct interaction with TFIID or the RNA polymerase. It is probable that these elements, essentially dispensable in already differentiated hepatoma cells, play a crucial role during development or differentiation to activate the promoter in cells that contain a low concentration of HNF1 and/or an HNF1 unable to open inactive chromatin alone.
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PMID:Anatomy of the rat albumin promoter. 218 62

The general transcription initiation factor TFIID plays a primary part in the activation of eukaryotic genes transcribed by RNA polymerase II. Binding of TFIID to the TATA box initiates the assembly of other general transcription factors as well as RNA polymerase II at the promoter resulting in a preinitiation complex capable of accurate transcription initiation in vitro. Human TFIID has been shown to interact with various regulatory factors. The observation that stimulation of transcription by different trans-acting factors is mediated through distinct TATA elements led to the suggestion that different types of TFIID may exist in yeast, humans and plants. Here we report the cloning and characterization of two distinct TFIID complementary DNA clones from Arabidopsis thaliana. Furthermore, we have found that TFIID from Arabidopsis and other organisms shows homology to helix-loop-helix proteins.
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PMID:Arabidopsis thaliana contains two genes for TFIID. 219 61

We have subdivided the components of the basic RNA polymerase II machinery from Drosophila embryos into three fractions and RNA polymerase II. The RNA polymerase II was 90% homogeneous and possessed the IIa form of the largest subunit. By substitution of these factors with their mammalian homologues in reconstituted transcription reactions, we have determined that the three Drosophila fractions contain transcription factor (TF)IIB, TFIIE/F, and TFIID. In addition, the fraction with TFIID contains another essential activity, which we have tentatively designated as TFIIZ. There was no apparent requirement for TFIIA. The reconstituted transcription factors accurately transcribe both Drosophila and mammalian genes. This fractionated system should serve as a source of general transcription factors for the study of RNA polymerase II transcription in Drosophila as well as other eukaryotes.
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PMID:Fractionation of the general RNA polymerase II transcription factors from Drosophila embryos. 225 21

We have identified and partially characterized another human general transcription factor, TFIIG. Using a reconstituted in vitro system comprised of purified RNA polymerase II, TFIIB, TFIID, TFIIE, and TFIIF, we found that TFIIG was essential for specific initiation from all class II genes tested. In this system TFIIA could partially replace TFIIG; however, even at saturating concentrations of TFIIA, addition of TFIIG further stimulated transcription. Since the chromatographic properties of TFIIG differed significantly from those of TFIIA, we concluded that TFIIA and TFIIG are distinct but functionally related transcription factors. Heparin challenge assays showed that TFIIG is required for the assembly of a functional preinitiation complex. However, it must act after template commitment by TFIID, since this step did not require, and was unaffected by, either TFIIG or TFIIA.
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PMID:Factors involved in specific transcription by mammalian RNA polymerase II: identification of general transcription factor TFIIG. 225 Dec 57

TFIID, the TATA-binding protein, was found to stimulate transcription from the adenovirus IVa2 promoter, a promoter considered to lack the TATA motif. Remarkably, a TATA-like sequence element located downstream of the transcription start site binds TFIID and is required for TFIID-dependent transcription from the IVa2 promoter. Transcription from the IVa2 and the adjacent adenovirus major late promoter (Ad-MLP) is divergent, and the cap sites are separated by 212 nucleotides. Nevertheless, the TATA motifs of the IVa2 promoter and Ad-MLP were found to be oriented in the same direction. An initiator motif around the transcription start site is located in the IVa2 promoter, and in contrast to the TATA motifs, the IVa2-initiator is in the opposite orientation with respect to the initiator of the Ad-MLP. A model is presented in which the polar nature of the initiator governs the direction of transcription. We propose that RNA polymerase II and accessory factors recognize the initiator in an orientation-dependent fashion. The recognition of the IVa2 initiator by RNA polymerase is enhanced by the binding of TFIID to the downstream TATA motif.
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PMID:A TATA-like sequence located downstream of the transcription initiation site is required for expression of an RNA polymerase II transcribed gene. 225 81

We have investigated the earliest stages of assembly of an RNA polymerase II transcription complex. General transcription factors from HeLa cells were partially purified and assayed using the adenovirus-2 major late promoter. Preincubation of either all the transcription factors (TF) with the DNA or only the subset consisting of TFIIA, TFIID, and DNA overcame the 15-20 min lag normally observed. The kinetics demonstrate that TFIIA first interacts with the template over a 5 min. period, and then TFIID interacts with the IIA:DNA complex over a 2 min. period. The remainder of the necessary transcription factors then interact with the IIA:IID:DNA complex. There are apparently interactions between IIA and IID, as a pre-incubation of these factors (without DNA) overcomes the lag period. Both IIA:DNA and IIA:DNA:IID interactions are temperature sensitive, resulting in slower kinetics at 0 degree C. Thus, the kinetics of transcription involve activation processes in addition to DNA binding.
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PMID:Early events of RNA polymerase II transcription initiation. 231 95

The initiation of transcription of eukaryotic genes involves the ordered assembly of a multiprotein complex on proximal promoter elements such as the TATA box. In addition to RNA polymerase II (otherwise RNA pol II, RNA polymerase B), four general transcription factors are required for initiation of transcription: BTF1 (also referred to as TFIID) which has recently been cloned from yeast, BTF2, BTF3 and STF. The first step in assembly of the initiation complex is the stable binding of BTF1 to the TATA box, which is facilitated by STF. Neither BTF2 nor BTF3 bind directly to the promoter proximal elements, but BTF3 can form a stable complex with RNA pol II. We recently purified BTF3, which is a protein of relative molecular mass 27,000, but further studies have been hampered by its low abundance in cells. On the basis of sequences from peptides of BTF3, we have now cloned two complementary DNAs, one for a protein (BTF3a) with all the characteristics of purified BTF3, and one for a shorter protein (BTF3b) lacking the first 44 residues of BTF3a and which is transcriptionally inactive, despite its ability to bind RNA pol II.
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PMID:Sequencing and expression of complementary DNA for the general transcription factor BTF3. 232 Jan 28

The factor TFIID is one of several general factors that are necessary and sufficient for transcription initiation by mammalian RNA polymerase II. Stable interactions with the common TATA element lead both to template commitment and to the assembly of the other general factors into a functional preinitiation complex. Consistent with its key role in the promoter activation pathway, human TFIID also seems to be a target for some regulatory factors, as evidenced both by physical and functional studies of interactions between these components. The evolutionary conservation of functional properties led to the purification and cloning of yeast TFIID, the identification of presumptive structural motifs, and direct structure-function studies. Here we report the cloning of a complementary DNA encoding a functional human TFIID. This reveals an evolutionarily conserved core which corresponds precisely to the 180-residue DNA binding/activation domain determined for yeast TFIID, a near absolute conservation of component structural motifs (direct repeats, central basic core/lysine repeat, and sigma homology), providing further support for their functional importance, and a unique N-terminal structure that suggests involvement in species-specific regulatory factor interactions.
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PMID:Highly conserved core domain and unique N terminus with presumptive regulatory motifs in a human TATA factor (TFIID). 237 12

Commitment of a TATA box-driven class II gene to transcription requires binding of only one transcription factor, TFIID. Additional factors (TFIIB, TFIIE, and RNA polymerase II) do not remain associated with the TFIID-promoter complex during the course of transcription. This indicates that there are two intermediates along the transcription reaction pathway which may be potential targets for the regulation of gene expression.
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PMID:Stability of transcription complexes on class II genes. 249 33


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