EC:2.7.7.6 - FACTA Search

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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)

B2 genes are short repeated sequences which are transcribed by RNA polymerase III. Abundant transcripts accumulate in embryonic and transformed cells, but transcripts are rare or absent from normal differentiated cell types. During retinoic acid-induced differentiation of P19 embryonal carcinoma cells, an early transient increase in B2 RNA levels is followed by a rapid drop in expression. The marked changes in B2 RNA levels are most likely due to transcriptional modulation since B2 RNA stabilities are unaffected by differentiation. At least four short-lived B2 RNAs with apparent lengths of 150, 180, 240, and 500 nucleotides were characterized. The two larger RNAs are polyadenylated and are more stable in cells. A cDNA of a B2 gene was isolated which was over 99% identical to the consensus sequence. This B2 cDNA can be transcribed in human cells and yields at least two distinct transcripts. We propose a model for B2 RNA metabolism which describes transcription, posttranscriptional modification and processing, and nucleocytoplasmic transport.
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PMID:Synthesis and processing of small B2 transcripts in mouse embryonal carcinoma cells. 237 Aug 62

The first gene of the Bacillus subtilis RNA polymerase sigma 43 operon, P23, has a protein-coding capacity of 23,000 daltons. Sequence analysis revealed three potential translational initiation sites within the same reading frame, which could encode proteins of 23,000 (P23), 19,000 (P19), and 9,000 (P9) daltons, respectively. An internal promoter (P3), which is expressed only during the sporulation stage, is located between the second and the third translational start sites. By protein fusion to the Escherichia coli beta-galactosidase gene, we showed that all three translational initiation sites of the P23 gene are used in vivo in both E. coli and B. subtilis, and regulation for differential expression of the three proteins during the development of B. subtilis is coupled to the transcriptional promoter switching mechanism. The physiological function of these multiple gene products is unknown and is currently under investigation.
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PMID:Developmental expression of three proteins from the first gene of the RNA polymerase sigma 43 operon of Bacillus subtilis. 304 Jun 82

Three alternative splicing products of amyloid precursor protein (APP), APP770, 751 and 695, were detected in mouse embryonal carcinoma (EC) P19 cells by reverse transcriptase RNA polymerase chain reaction (RT-PCR). Alternative splicing of APP pre-mRNA in P19EC cells was remarkably changed by c-jun transformation. The relative ratio of APP770 encoding exons 7 and 8, non-neuron type, was increased by c-jun transformation, while that of APP 695 not encoding exons 7 and 8, neuron-specific one, was decreased. These results suggested that skipping of exons 7 and 8 was specifically blocked in c-jun transformed cells. APP 695, which increases in P19 EC cells under the culture conditions that induce the neuronal differentiation, did not increase in C2C5 cells under the same conditions, suggesting that c-jun transformed cells were not in the neuronal cell lineage and lost the ability to differentiate into neurons.
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PMID:c-jun inhibited the alternative splicing of neuron-specific amyloid precursor protein, but stimulated the non-neuron type one in P19 EC cells. 783 92

The cDNA sequence of Stra7, a retinoic acid (RA)-inducible gene in P19 embryonal carcinoma (EC) cells, was determined. The deduced Stra7 protein contains a homeodomain highly similar to that of the previously described chicken CHox7 gene product, and is highly conserved during evolution, from hemichordates to vertebrates. The mouse Stra7 cDNA corresponds to the full-length form of the 77 bp homeodomain-encoding cDNA fragment which was previously cloned and termed MMoxA or Gbx-2. Reverse-transcriptase-PCR analysis revealed the presence of Stra7/Gbx-2 transcripts in the adult brain, spleen, and female genital tract, whereas no expression could be observed in heart, liver, lung, kidney, or testes. In situ hybridization analysis showed a restricted expression pattern of Stra7/Gbx-2 in the three primitive germ layers during gastrulation. Restricted expression was also detected in the pharyngeal arches. Subsequently, there were specific expression domains in the developing central nervous system, at the midbrain/hindbrain boundary and later in the cerebellum anlage, in certain rhombomeres, in dorsal regions of the spinal cord, and in the developing dorsal thalamus and corpus striatum.
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PMID:Sequence and expression pattern of the Stra7 (Gbx-2) homeobox-containing gene induced by retinoic acid in P19 embryonal carcinoma cells. 860 Oct 31

Ligand-dependent transcriptional regulation by nuclear receptors is believed to be mediated by intermediary factors (TIFs) acting on remodelling of the chromatin structure and/or the activity of the transcriptional machinery. The putative transcriptional mediator TIF1alpha is a nuclear protein kinase that has been identified via its interaction with liganded nuclear receptors, including retinoic acid (RAR), retinoid X (RXR) and estrogen (ER) receptors. Here, we demonstrate that TIF1alpha is a non-histone chromosomal protein tightly associated with highly accessible euchromatic regions of the genome. Immunofluorescence confocal microscopy reveals that TIF1alpha exhibits a finely granular distribution in euchromatin of interphase nuclei, while it is mostly excluded from condensed chromatin and metaphase chromosomes. Immunoelectron microscopy shows that, in contrast to the heterochromatin protein HP1alpha, most of TIF1alpha is associated with euchromatin, where it is preferentially localised on regions known to be sites for RNA polymerase II (perichromatin fibrils and borders between euchromatin and heterochromatin). Early mouse embryos as well as embryonal carcinoma (EC) and embryonic stem (ES) cells express high levels of TIF1alpha. These levels dramatically decrease during organogenesis and upon differentiation of P19 EC cells, indicating that TIF1alpha is preferentially expressed in undifferentiated pluripotent cells in the course of development. Therefore, TIF1alpha could belong to a novel class of chromatin-associated TIFs that facilitate the access of transregulators (e.g. liganded nuclear receptors) to their cognate sites in target genes, thereby participitating in the epigenetic control of transcription during embryonic development and cell differentiation.
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PMID:The putative nuclear receptor mediator TIF1alpha is tightly associated with euchromatin. 1031 60

The rat bfp/znf179 transcript for a member of the RING finger protein family, is expressed in brain and up-regulated in neural differentiation of P19 embryonic carcinoma cells. Here we report the full-length cDNA structure of human BFP/ZNF179 and its expression profile. The cDNA clone consists of 3082 nucleotides and encodes an open reading frame of a 632-amino acid protein that contains a RING finger domain at its N-terminus, and alanine-rich and glycine-rich domains at its C-terminus. Reverse transcriptase polymerase chain reaction analysis of various human tissues indicated that BFP/ZNF179 is predominantly expressed in brain.
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PMID:cDNA cloning of a human brain finger protein, BFP/ZNF179, a member of the RING finger protein family. 1057 64

Exposure of aggregated murine P19 embryonal carcinoma cells to dimethylsulfoxide (DMSO) induces mesoderm and both embryonic cardiac and skeletal muscle differentiation, while retinoic acid (RA) is an inducer of neuroectodermal differentiation. P19 cells constitutively express the retinoic acid receptor alpha (RAR alpha) and RAR gamma mRNAs while RAR beta expression is induced by RA through a consensus RA-response element in the RAR beta promoter. In the present study we show that the RAR beta transcript is strongly expressed in both P19 cells and in a RA-nonresponsive derivative of P19 cells, called RAC65, during DMSO-induced mesoderm and muscle differentiation. Reverse transcriptase-polymerase chain reaction analysis indicated that RAR beta 2 is the predominant isoform expressed in DMSO-differentiated cells, providing the first evidence for RA-independent regulation of RAR beta 2 transcript levels. Immunoblot analysis showed a 3-fold increase in the RAR beta protein expression over basal levels in differentiated cells, and immunohistochemistry indicated that all cells in the culture including muscle reacted positively for the RAR beta protein. RAR beta 2 transcript expression was differentiation-dependent and occurred without transactivation of a transfected RARE beta 2 reporter gene. Little transcription of the RAR beta gene was detected in nuclear run-off assays of undifferentiated P19 cells and only a small increase in transcription was observed in nuclei from DMSO-treated cells. RA treatment of P19 cells stably transfected with the RA-responsive element from the RAR beta gene showed that RAR beta 2 mRNA expression during DMSO differentiation was associated with increased sensitivity to RA. Together these data show that RAR beta 2 is expressed spontaneously in an apparently RA-independent manner in differentiating mesoderm and mesoderm derivatives, resulting in increased sensitivity to RA in these cells.
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PMID:Spontaneous retinoic acid receptor beta 2 expression during mesoderm differentiation of P19 murine embryonal carcinoma cells. 1092 6

All-trans-retinoic acid receptors (RAR) and 9-cis-retinoic acid receptors (RXR) are nuclear receptors known to cooperatively activate transcription from retinoid-regulated promoters. By comparing the transactivating properties of RAR and RXR in P19 cells using either plasmid or chromosomal reporter genes containing the mRAR beta 2 gene promoter, we found contrasting patterns of transcriptional regulation in each setting. Cooperativity between RXR and RAR occurred at all times with transiently introduced promoters, but was restricted to a very early stage (<3 h) for chromosomal promoters. This time-dependent loss of cooperativity was specific for chromosomal templates containing two copies of a retinoid-responsive element (RARE) and was not influenced by the spacing between the two RAREs. This loss of cooperativity suggested a delayed acquisition of RAR full transcriptional competence because (i) cooperativity was maintained at RAR ligand subsaturating concentrations, (ii) overexpression of SRC-1 led to loss of cooperativity and even to strong repression of chromosomal templates activity, and (iii) loss of cooperativity was observed when additional cis-acting response elements were activated. Surprisingly, histone deacetylase inhibitors counteracted this loss of cooperativity by repressing partially RAR-mediated activation of chromosomal promoters. Loss of cooperativity was not correlated to local histone hyperacetylation or to alteration of constitutive RNA polymerase II (RNAP) loading at the promoter region. Unexpectedly, RNAP binding to transcribed regions was correlated to the RAR activation state as well as to acetylation levels of histones H3 and H4, suggesting that RAR acts at the mRAR beta promoter by triggering the switch from an RNA elongation-incompetent RNAP form towards an RNA elongation-competent RNAP.
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PMID:Chromosomal integration of retinoic acid response elements prevents cooperative transcriptional activation by retinoic acid receptor and retinoid X receptor. 1183 11

Duplexes of 21-nt RNAs, known as short-interfering RNAs (siRNAs), efficiently inhibit gene expression by RNA interference (RNAi) when introduced into mammalian cells. We show that siRNAs can be synthesized by in vitro transcription with T7 RNA polymerase, providing an economical alternative to chemical synthesis of siRNAs. By using this method, we show that short hairpin siRNAs can function like siRNA duplexes to inhibit gene expression in a sequence-specific manner. Further, we find that hairpin siRNAs or siRNAs expressed from an RNA polymerase III vector based on the mouse U6 RNA promoter can effectively inhibit gene expression in mammalian cells. U6-driven hairpin siRNAs dramatically reduced the expression of a neuron-specific beta-tubulin protein during the neuronal differentiation of mouse P19 cells, demonstrating that this approach should be useful for studies of differentiation and neurogenesis. We also observe that mismatches within hairpin siRNAs can increase the strand selectivity of a hairpin siRNA, which may reduce self-targeting of vectors expressing siRNAs. Use of hairpin siRNA expression vectors for RNAi should provide a rapid and versatile method for assessing gene function in mammalian cells, and may have applications in gene therapy.
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PMID:RNA interference by expression of short-interfering RNAs and hairpin RNAs in mammalian cells. 1197 60

Hox genes are differentially expressed along the embryonic anteroposterior axis. We used chromatin immunoprecipitation to detect chromatin changes at the Hoxd4 locus during neurogenesis in P19 cells and embryonic day 8.0 (E8.0) and E10.5 mouse embryos. During Hoxd4 induction in both systems, we observed that histone modifications typical of transcriptionally active chromatin occurred first at the 3' neural enhancer and then at the promoter. Moreover, the sequential distribution of histone modifications between E8.0 and E10.5 was consistent with a spreading of open chromatin, starting with the enhancer, followed by successively more 5' intervening sequences, and culminating at the promoter. Neither RNA polymerase II (Pol II) nor CBP associated with the inactive gene. During Hoxd4 induction, CBP and RNA Pol II were recruited first to the enhancer and then to the promoter. Whereas the CBP association was transient, RNA Pol II remained associated with both regulatory regions. Histone modification and transcription factor recruitment occurred in posterior, Hox-expressing embryonic tissues, but never in anterior tissues, where such genes are inactive. Together, our observations demonstrate that the direction of histone modifications at Hoxd4 mirrors colinear gene activation across Hox clusters and that the establishment of anterior and posterior compartments is accompanied by the imposition of distinct chromatin states.
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PMID:Sequential histone modifications at Hoxd4 regulatory regions distinguish anterior from posterior embryonic compartments. 1534 71

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