EC:2.7.7.6 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:2.7.7.6 (RNA polymerase)
34,946 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Yeast RNA polymerases A (I) and C (III) share a subunit called AC19. The gene encoding AC19 has been isolated from yeast genomic DNA using oligonucleotide probes deduced from peptide sequences of the isolated subunit. This gene (RPC19) contains an intron-free open reading frame of 143 amino acid residues. RPC19 is a single copy gene that maps on chromosome II and is essential for cell viability. The amino acid sequence contains a sequence motif common to the Escherichia coli RNA polymerase alpha subunit, the Saccharomyces cerevisiae AC40 and B44.5 subunits, the human hRPB33 product, and the CnjC conjugation-specific gene product of Tetrahymena. The 5'-upstream region contains a sequence element, the PAC box, that has been conserved in at least 10 genes encoding subunits of RNA polymerases A and C.
...
PMID:RPC19, the gene for a subunit common to yeast RNA polymerases A (I) and C (III). 186 54

The cnjC gene from the protozoan Tetrahymena thermophila was completely sequenced. The deduced gene product was found to have significant sequence similarity to the yeast and prokaryotic RNA polymerase subunits involved with subunit assembly. Since cnjC is active only during the sexual stage (conjugation) of Tetrahymena's life cycle, these results indicate it may be part of a novel type of transcriptional control. The yeast proteins to which the Tetrahymena cnjC is homologous are the 40 kd protein of RNA polymerases I and III (coded for by gene RPC40) and the third-largest subunit of RNA polymerase II (coded for by gene RPB3). The degree of similarity of the cnjC protein to the two yeast subunits was found to be greater than the similarity of the two yeast subunits to each other. The alpha subunit of the core RNA polymerase from prokaryotes (coded for by gene rpoA) was found to have regions of similarity to the cnjC protein as well as to the subunits encoded by RPC40 and RPB3. Regions of high conservation among the four proteins are noted. The significance of these results is discussed.
...
PMID:A conjugation-specific gene (cnjC) from Tetrahymena encodes a protein homologous to yeast RNA polymerase subunits (RPB3, RPC40) and similar to a portion of the prokaryotic RNA polymerase alpha subunit (rpoA). 211 40

We have used gel retardation and DNase protection assays to investigate the trans-acting factors involved in the regulation of yeast RNA polymerase genes RPC160 and RPC40. The same binding component was found to interact with the promoter of the two genes, at a short distance (100-150 base pairs) from the transcription start sites. From its size, its DNA-binding specificity and its immunological properties, this factor appears to correspond to the autonomous replication sequences and silencer-binding factor ABF1/SBF-B. The interaction of ABF1 with the polymerase upstream box sequence was characterized using gel DNA-binding assay. The factor binds with high affinity to the polymerase upstream box sequence (Kapp = 5.10(-10) M). A mutational analysis showed that nine base pairs belonging to two separated attachment sites are involved in factor binding. The consensus sequence RTCRYB(N)4ACG was derived from the present binding studies. These data provide an experimental basis for evaluating the efficiency of known or potential ABF1 sites and for comparing several factors with ABF1-like binding properties.
...
PMID:ABF1 binding sites in yeast RNA polymerase genes. 220 70

Yeast RNA polymerases are being extensively studied at the gene level. The entire gene encoding the largest subunit of RNA polymerase A, A190, was isolated and characterized in detail. Southern hybridization and gene disruption experiments showed that the RPA190 gene is unique in the haploid yeast genome and essential for cell viability. Nuclease S1 mapping was used to identify mRNA 5' and 3' termini. RPA190 encodes a polypeptide chain of 186,270 daltons in a large uninterrupted reading frame. A dot matrix comparison of the deduced amino acid sequence of subunit A190 with Escherichia coli beta' and cognate subunits B220 and C160 from yeast RNA polymerases B and C showed a conserved pattern of homology regions (I-VI). A potential DNA-binding site (zinc-binding motif) is conserved in the N-terminal region I. Remarkably, the A190 subunit does not harbor the heptapeptide repeated sequence present in the B220 subunit. The sequence of the A190 subunit diverges from B220 and C160 by the presence of two hydrophilic domains inserted between homology regions I and II, and V and VI. From their codon usage and third base pyrimidine bias, RNA polymerase genes RPA190, RPB220, RPC160, and RPC40 fall among yeast genes expressed at an average level. The RPA190 5'-flanking region contains features present in other polymerase genes that might function in regulation.
...
PMID:RPA190, the gene coding for the largest subunit of yeast RNA polymerase A. 283 Feb 65

Yeast RNA polymerases A and C share an approximately equal to 40 kd subunit. We have identified, sequenced, and mutagenized in vitro the AC40 subunit gene. The RPC40 gene is unique in the yeast genome and is required for cell viability. This gene contains an open reading frame encoding a 37.6 kd protein having no significant homology with bacterial RNA polymerase subunits. The promoter region contains a 19 bp sequence also present in the largest subunit of RNA polymerase C. It also contains a well-conserved RPG box, a sequence found in the promoter region of many genes encoding the translational apparatus. A novel, plasmid-shuffling method was developed to isolate a large number of RPC40 ts mutants. One of these, ts4, was shown to be defective in the synthesis of RNA polymerases A and C at the restrictive temperature. In contrast, RNA polymerase B was made normally.
...
PMID:RPC40, a unique gene for a subunit shared between yeast RNA polymerases A and C. 381 19

Antisera were raised against native RNA polymerases A or B, as well as against each individual subunit of RNA polymerase A from the yeast Saccharmoyces cerevisiae. The affinity spectrum of antibodies was evaluated by reacting electrophoretically separated enzyme subunits, transferred to a membrane, with 125I-labeled immunoglobulins. Alternatively, the subunit . immunoglobulin complex was revealed by 125I-labeled Protein A. Antibodies directed against native RNA polymerase A recognized the majority of the polypeptides forming the enzyme. When challenged with RNA polymerases B or C, this antibody preparation demonstrated the presence of polypeptides common to the three enzymes. A small cross-reaction was also found at the level of the large subunits of Enzyme B as well as some additional polypeptides of Enzyme C. Similar experiments with antibodies directed against native RNA polymerase B confirmed the presence of common subunits and also showed that the large polypeptides of the three enzymes share a few immunological determinants. Common subunits are AC40, ABC27, ABC23, AC19, and ABC14.5. Immunologically related sites were conserved in the large subunits of RNA polymerase A from remote yeast species. Similarly, yeast and wheat germ RNA polymerase B share immunological determinants on the large subunit as well as on a small peptide. On the other hand, there was no significant cross-reaction between yeast and mammalian Enzyme B or Escherichia coli RNA polymerase. Antibodies raised against the different polypeptide components of RNA polymerase A reacted specifically with the corresponding subunits. Inhibition studies with these subunit-specific antibodies showed that the common subunits are not always similarly exposed to antibody attack within the three enzymes. The data are discussed in terms of the structural similarity, organization and evolution of eukaryotic RNA polymerases.
...
PMID:Immunological studies of yeast nuclear RNA polymerases at the subunit level. 700 Jul 67

We present homologies between archaeal and eucaryal DNA-dependent RNA polymerase (RNAP) subunits and transcription factors. The sequences of the Sulfolobus acidocaldarius subunits D, E, and N and alignments with eucaryal homologs are presented here. The similarities between archaeal transcription factors and their eucaryal homologs TFIIB and TBP have been established in other laboratories. The archaeal RNAP subunits H, K, and N, respectively, show high sequence similarity to ABC27, ABC23, and ABC10 beta (found in all three eucaryal RNAPs); subunit D, to AC40 (common to polymerase II and polymerase III) and B44 (polymerase II); and subunit L, to AC19 and B12.5. The similarity of subunit D and its eucaryal homologs to bacterial alpha is limited to the "alpha-motif," which is also present in subunit L and its eucaryal homologs. Genes encoding homologs of the related eucaryal RNAP subunits A12.2/B12.6 and also homologs of eucaryal transcription elongation factors of the TFIIS family have been detected in Sulfolobus acidocaldarius and Thermococcus celer. In archaea, the protein is not an RNAP subunit. Together with the sequence similarities between archaeal box A-containing and eucaryal TATA box-containing promoters, this shows that the archaeal and eucaryal transcription systems are truly homologous and that they differ structurally and functionally from the bacterial transcription machinery. In contrast, however, a number of genes for the archaeal transcription apparatus are organized in clusters resembling the clusters of transcription-associated genes in Bacteria.
...
PMID:Transcription in archaea: similarity to that in eucarya. 759 27

Mouse RNA polymerase I (or A) was purified from an ascites cell line MH134 to virtual homogeneity using a novel purification procedure and examined for subunit composition. In marked contrast to older purifications that reported 5-8 subunits, polymerase I was found to have 11 subunits with remarkable correspondence to those of yeasts. The cDNA encoding a 40-kDa subunit of this enzyme, designated RPA40, was isolated. It predicts a polypeptide of 355 amino acids (M(r) = 40,065) and is encoded by a single copy gene. Protein sequence analysis reveals that RPA40 is the homolog of yeast RPC40, having homology to alpha subunit of Escherichia coli RNA polymerase, yeast RPB3, and human RPB33 RNA polymerase II subunits. The high conservation of this subunit among distant eukaryotes and different RNA polymerases suggests functional importance of this protein as a core subunit.
...
PMID:High conservation of subunit composition of RNA polymerase I(A) between yeast and mouse and the molecular cloning of mouse RNA polymerase I 40-kDa subunit RPA40. 792 37

The FHL1 gene was isolated by screening for high-copy-number suppressors of conditional RNA polymerase III mutations. This gene is unique on the yeast genome and was located close to RPC40 and PRE2 on the right arm of chromosome XVI. It codes for a 936-amino-acid protein containing a domain similar to the fork head DNA-binding domain, initially found in the developmental fork head protein of Drosophila melanogaster and in the HNF-3 family of hepatocyte mammalian transcription factors. Null mutations caused a severe reduction in growth rate and a lower rRNA content that resulted from defective rRNA processing. There was no detectable effect on mRNA splicing. Thus, the Fhl1p protein plays a key role in the control of rRNA processing, presumably by acting as a transcriptional regulator of genes specifically involved in that process. Moreover, mutants carrying the RNA polymerase III mutations were slightly defective in rRNA processing. This accounts for the isolation of FHL1 as a dosage-dependent suppressor and suggests that rRNA processing depends on a still-unidentified RNA polymerase III transcript.
...
PMID:Suppression of yeast RNA polymerase III mutations by FHL1, a gene coding for a fork head protein involved in rRNA processing. 816 51

The AC40 and AC19 subunits (encoded by RPC40 and RPC19) are shared by yeast RNA polymerases I and III and have a local sequence similarity to prokaryotic alpha subunits. Mutational analysis of the corresponding "alpha motif" indicated that its integrity is essential on AC40 subunit but is not essential on AC19 subunit. By applying the two-hybrid method, these two polypeptides were shown to associate in vivo. Extragenic suppression of rpc19 and rpc40 mutations confirmed that AC19 and AC40 subunits interact with each other in vivo and revealed an interaction with ABC10 beta subunit [encoded by RPB10; Woychick, N. A. & Young, R.A. (1990) J. Biol. Chem. 265, 17816-17819], one of the five polypeptides common to all three nuclear RNA polymerases. A correction of the RPB10 sequence showed that ABC10 beta subunit is a 70-amino acid polypeptide, as confirmed by peptide microsequencing. These results suggest that the assembly of RNA polymerase I and III requires the association of ABC10 beta subunit with an AC19/AC40 heterodimer.
...
PMID:Interactions between three common subunits of yeast RNA polymerases I and III. 851 95

1 2 3 Next >>