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)

The characterization of RNA polymerase subunit genes has revealed that some subunits are shared by the three nuclear enzymes, some are homologous, and some are unique to RNA polymerases I, II, or III. We report here the isolation and characterization of the yeast RNA polymerase II subunit RPB11, which is encoded by a single copy RPB11 gene located directly upstream of the topoisomerase I gene, TOPI, on chromosome XV. The sequence of the gene predicts an RPB11 subunit of 120 amino acids (13,600 daltons), only two amino acids shorter than the RPB9 polypeptide, that co-migrates with RPB11 under most SDS-PAGE conditions, RPB11 was found to be an essential gene that encodes a protein closely related to an essential subunit shared by RNA polymerases I and III, AC19. RPB11 contains a 19 amino acid segment found in three other yeast RNA polymerase subunits and the bacterial RNA polymerase subunit alpha. Some mutations that affect RNA polymerase assembly map within this segment, suggesting that this region may play a role in subunit interactions. As the isolation of RPB11 completes the isolation of known yeast RNA polymerase II subunit genes, we briefly summarize the salient features of these twelve genes and the polypeptides that they encode.
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PMID:Yeast RNA polymerase II subunit RPB11 is related to a subunit shared by RNA polymerase I and III. 850 29

Two subunits in RNA polymerase II (e.g. RPB3 and RPB11 in yeast) and two subunits common to RNA polymerases I and III (e.g. AC40 and AC19 in yeast) contain one or two motifs related to the alpha subunit in prokaryotic RNA polymerases. We have sequenced two different cDNAs (AtRPB36a and AtRPB36b), the two corresponding genes from Arabidopsis thaliana that are homologs of yeast RPB3, and an Arabidopsis cDNA (AtRPB13.6) that is a homolog of yeast RPB11. The B36a subunit is the predominant B36 subunit associated with RNA polymerase II purified from Arabidopsis suspension culture cells, and this subunit has a stoichiometry of about 1. Results from protein association assays showed that the B36a and B36b subunits did not associate, but each of these subunits did associate with the B13.6 subunit in vivo and in vitro. Two motifs in the B36b subunit related to the prokaryotic alpha subunit were shown to be required for the in vitro interactions with the B13.6 subunit. Our results suggest that the B36 and B13.6 subunits associate to form heterodimers in Arabidopsis RNA polymerase II like the AC40 and AC19 heterodimers reported for yeast RNA polymerases I and III but unlike the B44 homodimers reported for yeast RNA polymerase II.
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PMID:Association between 36- and 13.6-kDa alpha-like subunits of Arabidopsis thaliana RNA polymerase II. 861 87

Using the differential display PCR method, we have isolated an mRNA downregulated in doxorubicin resistant human cell lines. The full length cDNA clone was identified as the human homologue of yeast RPB11 subunit of RNA polymerase II. Northern blot analysis of normal tissues detected a particularly high expression of RPB11 mRNA in heart and skeletal muscle. Reduction of this mRNA expression was observed in all the cell lines tested after drug treatment and was paralleled by a similar decrease of the protein levels. These findings suggest that doxorubicin may exert in vivo specific inhibitory effects on a major component of the transcription machinery.
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PMID:Cloning of a novel human RNA polymerase II subunit downregulated by doxorubicin: new potential mechanisms of drug related toxicity. 879 1

The cDNA encoding a protein that interacts with the mouse homologue of the yeast RNA polymerase II (polII) subunit, RPB11, and the human polII subunit, hRPB14, has been isolated by protein interaction cloning. Its deduced amino acid sequence has 96% homology to the human third largest polII subunit, hRPB33 [Pati and Weissman (1990) J. Biol. Chem. 265, 8400 8405]. Therefore, we conclude that the cloned cDNA encodes the mouse third largest polII subunit, mRPB31. Isolation of cDNA by protein interaction cloning provides evidence supporting the hypothesis, first proposed for human polII assembly [Pati (1994) Gene 145, 289-292], that the mRPB31/mRPB14 heterodimer, rather than the mRPB31 homodimer, forms in the mouse polII assembly. Indeed, in the yeast two-hybrid system, mRPB31 was shown to fail to form homodimer.
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PMID:Protein interaction cloning in yeast of the mouse third largest RNA polymerase II subunit, mRPB31. 903 5

By means of the yeast two-hybrid system using the 40-kDa subunit of mouse RNA polymerase I, mRPA40, as the bait, we isolated a mouse cDNA which encoded a protein with significant homology in amino acid sequence to the 12.5-kDa subunit of Saccharomyces cerevisiae RNA polymerase II, B12.5 (RPB11). Specific antibody raised against the recombinant protein that was derived from the cDNA reacted with a 14-kDa polypeptide in highly purified mammalian RNA polymerase II and did not react with any subunit of RNA polymerase I or III. Moreover, the antibody co-immunoprecipitated the largest subunit of mouse RNA polymerase II. These results provide biochemical evidence that the cDNA isolated, named mRPB14, encodes a specific subunit of RNA polymerase II, and indicate that the subunit organization of the enzyme is conserved between yeast and mouse. A possible role of the alpha-motif [Dequard-Chablat, M., Riva, M., Carles, C. and Sentenac, A., J. Biol. Chem. 266 (1991) 15300-15307] in the protein-protein interaction between mRPA40 and mRPB14 is also discussed.
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PMID:Isolation and characterization of cDNA encoding mouse RNA polymerase II subunit RPB14. 909 76

We previously isolated the human RPB11 cDNA, encoding the 13.3 kDa subunit of RNA polymerase II, and demonstrated that expression of this subunit is modulated by doxorubicin. Using hRPB11 as bait in a yeast two-hybrid system, two cDNA variants encoding a second RNA polymerase II subunit, hRPB3, have now been isolated and characterized. These two hRPB3 mRNA species differed in 3' UTR region length, the longer transcript containing the AU-rich sequence motif that mediates mRNA degradation. Both hRPB11 and hRPB3 transcripts share a similar pattern of distribution in human adult tissues, with particularly high levels in both heart and skeletal muscle, and the expression of both is down-regulated by doxorubicin as found previously for the hRPB11 subunit. Taken together, these findings suggest that the interaction between hRPB3 and hRPB11 is fundamental for their function and that this heterodimer is involved in doxorubicin toxicity.
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PMID:The interacting RNA polymerase II subunits, hRPB11 and hRPB3, are coordinately expressed in adult human tissues and down-regulated by doxorubicin. 960 18

Archaeal RNA polymerases (RNAPs) resemble the eukaryotic nuclear RNAPs in complexity, and many of their subunits display a high degree of sequence similarity to their eukaryotic counterparts. Here we describe specific protein-protein contacts present between individual recombinant RNAP subunits from the archaeon Methanococcus jannaschii. Subunits D and L interact specifically with each other in two-hybrid assays. D also interacts under the same conditions with the RPB11 and AC19 subunits from the yeast Saccharomyces cerevisiae, suggesting that essential elements of the binding surface between these proteins have been conserved across the archaeal/eukaryotic evolutionary domain boundary. Interactions between L and RPB3 or AC40 were, however, not detectable. Recombinant D and L subunits associate under in vitro conditions and copurify with each other during size-exclusion chromatography. Addition of an another recombinant subunit (N) to the D-L complex results in the formation of a triple complex. This D-L-N complex resembles the RPB3-RPB11-RPB10 or AC40-AC19-RPB10 complexes in eukaryotic RNAPIIand RNAPI/RNAPIII, respectively. Our data provide evidence for a close similarity in the quaternary arrangement of a subset of archaeal and eukaryotic RNA polymerase subunits and the conservation of the protein-protein contacts formed between them.
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PMID:In vitro assembly of an archaeal D-L-N RNA polymerase subunit complex reveals a eukaryote-like structural arrangement. 983 83

RPB3 is a core subunit of RNA polymerase II (pol II) that, together with the RPB11 subunit, forms the heterodimer considered as a functional counterpart of the bacterial alpha subunit homodimer involved in promoter recognition. We previously employed the yeast two-hybrid system and identified an interaction between RPB3 and the myogenic transcription factor myogenin, demonstrating an involvement of this subunit in muscle differentiation. In this paper we report the interaction between RPB3 and another known transcription factor, ATF4. We found that the intensity of the interaction between RPB3 and ATF4 is similar to the one between RPB3 and myogenin. This interaction involves an RPB3 specific region not homologous to the prokaryotic alpha subunit. We demonstrated that RBP3 is able to enhance ATF4 transactivation, whereas the region of RPB3 (Sud) that contacts ATF4, when used as a dominant negative, markedly inhibits ATF4 transactivation activity. Interestingly, ATF4 protein level, as reported for its partner RPB3, increases during C2C7 cell line muscle differentiation.
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PMID:Functional interaction of the subunit 3 of RNA polymerase II (RPB3) with transcription factor-4 (ATF4). 1286 Mar 79

In Saccharomyces cerevisiae, RNA polymerase II assembly is probably initiated by the formation of the RPB3-RPB11 heterodimer. RPB3 is encoded by a single copy gene in the yeast, mouse and human genomes. The RPB11 gene is also unique in yeast and mouse, but in humans a gene family has been identified that potentially encodes several RPB11 proteins differing mainly in their C-terminal regions. We compared the abilities of both yeast and human proteins to heterodimerize. We show that the yeast RPB3/RPB11 heterodimer critically depends on the presence of the C-terminal region of RPB11. In contrast, the human heterodimer tolerates significant changes in RPB11 C-terminus, allowing two human RPB11 variants to heterodimerize with the same efficiency with RPB3. In keeping with this observation, the interactions between the conserved N-terminal 'alpha-motifs' is much more important for heterodimerization of the human subunits than for those in yeast. These data indicate that the heterodimerization interfaces have been modified during the course of evolution to allow a recent diversification of the human RPB11 subunits that remains compatible with heterodimerization with RPB3.
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PMID:Distinct regions of RPB11 are required for heterodimerization with RPB3 in human and yeast RNA polymerase II. 1598 90

The Trypanosoma brucei homolog of the RNA polymerase II (RNA Pol II) subunit RPB9 was cloned and characterized. Contrary to what occurs in Saccharomyces cerevisiae, in T. brucei this protein was found to be essential since the knock down of its expression by RNAi led to lethality in both bloodstream and procyclic forms of the parasite. As expected, TbRPB9 knock down specifically inhibited transcription by RNA Pol II, but not by RNA Pol I and III. TbRPB9 was used as bait to isolate the RNA Pol II core complex by tandem affinity purification. Nine subunits homologous to the other eukaryotic RNA Pol II, namely RPB1, RPB2, RPB3, RPB4, RPB5, RPB6, RPB7, RPB8 and RPB11, were identified in the purified complex. Interestingly, the RPB5 homolog associated with RNA Pol II was different from the one previously found in RNA Pol I. Analysis of the genome database revealed the presence of genes for all purified subunits plus RPB10. As in the case of TbRPB5, two genes coding for different isoforms of TbRPB6 were identified, suggesting the existence of polymerase-specific isoforms for both TbRPB5 and TbRPB6.
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PMID:Characterization of RNA polymerase II subunits of Trypanosoma brucei. 1662 Oct 69

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