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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)

In Escherichia coli the genes encoding ribosomal protein S21 (rpsU), DNA primase (dnaG), and the 70-kDal sigma subunit of RNA polymerase (rpoD) are contained in a single operon. These gene products are involved in the initiation of translation, DNA replication, and transcription, respectively. We have examined the homologous region in the closely related bacterium Salmonella typhimurium and have found that the same three genes are similarly organized. We have sequenced the DNA for this operon in S. typhimurium and have compared the (nt) nucleotide and amino acid (aa) sequences with E. coli. In the coding regions, the sequence conservation varies from extremely high for rpsU to moderate for dnaG with respect to both nt and aa sequence. In the noncoding regions, sequences thought to be important for the regulation of transcription are conserved, while other sequences are not conserved. aa differences in DNA primase and sigma are not randomly distributed and suggest regions that may be important for protein structure or function.
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PMID:Nucleotide sequence of the rpsU-dnaG-rpoD operon from Salmonella typhimurium and a comparison of this sequence with the homologous operon of Escherichia coli. 300 29

The gene coding for Bacillus subtilis RNA polymerase major sigma 43, rpoD, was cloned together with its neighboring genes in a 7 kb EcoRI fragment. The complete nucleotide sequence of a 5 kb fragment including the entire rpoD gene revealed the presence of two other genes preceding rpoD in the order P23-dnaE-rpoD. The dnaE codes for DNA primase while the function of P23 remains unknown. The three genes reside in an operon that is similar in organization to the E. coli RNA polymerase major sigma 70 operon, which is composed of genes encoding small ribosome protein S21 (rpsU), DNA primase (dnaG), and RNA polymerase sigma 70 (rpoD). There is a relatively high degree of base and amino acid homology between the DNA primase and sigma genes. The most significant differences between the two operons are observed in the molecular size of the first genes (P23 and rpsU), the complete lack of amino acid homology between P23 and S21, the molecular weights of the two rpoD genes, the size of the intercistronic region between the first two genes, and the regulatory elements of the operon.
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PMID:Nucleotide sequence and organization of Bacillus subtilis RNA polymerase major sigma (sigma 43) operon. 308 39

Sequencing data indicated that the RNA polymerase sigma 43 operon of Bacillus subtilis consisted of three genes, P23 (function unknown), dnaE (DNA primase), and rpoD (sigma 43) (Wang and Doi 1986a). S1 nuclease mapping experiments with RNA from various stages of growth demonstrated the presence of two overlapping sigma 43 promoters that controlled the expression of the operon during growth and a sigma 37 promoter that regulated the expression of the operon during the sporulation phase. This promoter switching mechanism ensured that this important operon would be expressed during different nutritional states of the cell and also illustrated a function for the minor RNA polymerase sigma 37 holoenzyme in the expression of genes which are normally expressed during the logarithmic phase of growth. The location of the transcription termination signal confirmed that the sigma 43 operon consists of three genes.
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PMID:Promoter switching during development and the termination site of the sigma 43 operon of Bacillus subtilis. 329 98

Studies of the spatial organization of DNA replication have provided increasing evidence of the importance of the nuclear matrix. We have previously reported a relationship between rates of DNA synthesis and the differential binding of DNA polymerase alpha to the nuclear matrix over the S-phase. We now report the detection of DNA primase bound to the HeLa nuclear matrix. Matrix-bound primase was measured both indirectly, by the incorporation of [32P]dAMP into an unprimed single-stranded template, poly(dT), and directly, by the incorporation of [3H]AMP into matrix DNA. Characteristics of this system include a requirement for ATP, inhibition by adenosine 5'-O-(thiotriphosphate), a primase inhibitor, and insensitivity to aphidicolin and alpha-amanitine, inhibitors of polymerase alpha and RNA polymerase, respectively. Subcellular quantification of primase and polymerase alpha activity revealed that while most (approximately 72%) primase activity is bound to the matrix, only a minority (approximately 32%) of polymerase alpha activity is matrix-bound. Treatment of the nuclear matrix with beta-D-octylglucoside allowed the solubilization of approximately 54% of primase activity and approximately 39% of the polymerase alpha activity. This data provides further evidence of a structural and functional role for the nuclear matrix in DNA replication. The ability to solubilize matrix-bound replicative enzymes may prove to be an important tool in the elucidation of the spatial organization of DNA replication.
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PMID:Preferential binding of DNA primase to the nuclear matrix in HeLa cells. 371 Oct 79

DNA primase (EC 2.7.7.6) produces an RNA oligomer of approximately 10 bases, which is required by DNA polymerase alpha (EC 2.7.7.7) for the initiation of DNA synthesis. We partially purified DNA primase from acute lymphocytic leukemia cells from patients using several chromatography columns. Poly(dT) and poly(dC), but not poly(dA) or poly(dG), were good templates for ribonucleoside triphosphate (rNTP)-dependent DNA synthesis (i.e., DNA primase activity), and they were used in the study of the effect of natural and arabinofuranosyl nucleoside triphosphates on DNA primase activity. The Km for GTP in the poly(dC) primase assay was approximately 175 microM. All noncomplementary natural rNTPs and deoxyribonucleoside triphosphates (dNTPs) inhibited poly(dC) primase activity to a similar extent (Ki values of ATP and CTP were 610 and 517 microM, respectively). 1-beta-D-Arabinofuranosylcytosine 5'-triphosphate (araCTP) and 9-beta-D-arabinofuranosyladenine 5'-triphosphate (araATP) were more potent inhibitors of poly(dC) primase activity than were CTP and ATP (Ki values were approximately 125 microM). araCTP, araATP, CTP, and ATP inhibited DNA primase activity in a manner competitive with GTP. The concentration required to inhibit poly(dC) DNA primase activity by 50% was determined for a number of arabinofuranosyl nucleoside triphosphate analogs, and the relative potency of inhibition of DNA primase activity was as follows: rNTP = dNTP = 5-aza-dCTP less than ara-5-azaCTP = araTTP = araATP = araCTP less than 2-fluoro-araATP = 2'-azido-2'-deoxy araCTP less than 2'-fluoro-araTTP = 2'-fluoro-5-iodo-araCTP = 2'-fluoro-5-methyl-araCTP. In the poly(dT) primase assay ATP did not follow classic Michaelis-Menten kinetics (ATP exhibited positive cooperativity with a Hill coefficient of 2.0). However, this assay was very sensitive to araCTP (apparent Ki of 25 microM). In summary, these experiments suggested that DNA primase is controlled by the levels of ribonucleoside triphosphates, and that the perturbation of these pools by any agent could lead to the inhibition of DNA primase and thereby inhibit DNA synthesis. Furthermore, aranucleoside triphosphate analogs directly inhibited DNA primase, and it is possible that this effect may contribute to the cytotoxicity of these compounds.
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PMID:Inhibition of DNA primase by nucleoside triphosphates and their arabinofuranosyl analogs. 380 92

Protein extracts were prepared at various times after serum stimulation of growth-arrested mouse 3T3 fibroblasts. The extracts were fractionated by sucrose gradient centrifugation and used to determine the activities of DNA polymerase alpha and DNA primase. We found that polymerase and primase appeared in close association in one homogeneous 8.2-S peak. Neither polymerase, free of associated primase, nor primase, free of polymerase, could be detected at any time after serum stimulation. The activities of both enzymes started to increase concomitantly at the beginning of the DNA replication phase of the cell cycle. We found five to six times more DNA primase activity in replicating than in resting 3T3 cells. Besides DNA primase, a second additional priming activity could be detected. This activity sedimented at 12.5 S and corresponded most probably to RNA polymerase I.
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PMID:Cell-cycle-dependent expression of DNA primase activity. 383 Jan 83

A soluble enzyme system has been prepared from a phage P4-infected Escherichia coli strain that supports the replication of exogenous, supercoiled P4 DNA. This DNA synthesis in vitro depends upon the four deoxyribonucleotides and ATP, but is enhanced about four- to fivefold by the presence of other ribonucleotides. E. coli DNA polymerase III holoenzyme, the E. coli single-strand DNA binding protein, and the partially purified P4 alpha gene product are required for replication in vitro. Rifamycin does not inhibit P4 replication in vitro. Since the P4 alpha gene codes for a rifamycin-resistant RNA polymerase (Barrett et al., 1983), and since P4 DNA replication is independent of the host primase (Bowden et al., 1975), we believe the alpha gene product is functioning as a P4-specific DNA primase.
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PMID:The replication of bacteriophage P4 DNA in vitro. Partial purification of the P4 alpha gene product. 387 88

The rpoD gene (encoding the 70,000 Mr sigma subunit of Escherichia coli RNA polymerase) is the most distal gene in an operon that contains three genes. The promoter-proximal gene is rpsU (encoding ribosomal protein S21) and the middle gene is dnaG (encoding DNA primase). During the stringent response, caused by a deficiency in an aminoacyl-tRNA, expression of rpsU is decreased, while expression of rpoD is not. This disco-ordinate regulation is due to increased transcription from a minor promoter upstream from rpoD, in the dnaG gene. Transcription from this promoter is also increased during the heat shock response. Expression of other heat shock proteins was found to increase during the stringent response. Thus, the stringent response in E. coli induces expression of heat shock proteins. The requirements for this stringent induction of the heat shock proteins differ from those for temperature induction during the heat shock response.
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PMID:Stringent response in Escherichia coli induces expression of heat shock proteins. 391 Aug 41

Bacillus subtilis dnaE encodes a protein essential for DNA replication and is tightly linked to rpoD, the gene for the major sigma factor of RNA polymerase. We have now determined the 1809-base pair sequence of the dnaE coding region, which precedes rpoD and is transcribed in the same counterclockwise direction on the chromosome. From the DNA sequence, we found that the dnaE protein comprised 603 amino acids with a calculated molecular mass of 68,428 daltons. This protein had significant and extensive regions of homology with Escherichia coli DNA primase, the polymerase that synthesizes short RNA primers during discontinuous DNA replication. Features of the coding and flanking regions that may modulate dnaE expression include a relatively weak ribosomal binding site (delta G' = -13.8 kcal), the use of uncommon codons in the reading frame, and no obvious promoter sequence for either dnaE or rpoD. Together, these results suggest that dnaE codes for B. subtilis DNA primase and, in light of the similarities to the organization of the E. coli sigma operon, that expression of dnaE may be coregulated with rpoD in B. subtilis.
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PMID:Bacillus subtilis dnaE encodes a protein homologous to DNA primase of Escherichia coli. 391 21

A DNA primase activity has been purified from the budding yeast Saccharomyces. The resulting preparation was nearly homogeneous and was devoid of DNA and RNA polymerase activities. The primase activity cofractionated with a Mr 65,000 polypeptide in sedimentation and chromatography procedures, and the native molecular weight of the enzyme corresponded closely to this value suggesting that the primase or an active proteolytic fragment of the protein exists as a monomer. Both heat-denatured calf thymus DNA and poly(dT) could be utilized by the enzyme as templates. Primase exhibited an absolute requirement for divalent cations and for rATP on a poly(dT) template. Although it required the ribonucleotide to initiate primer chains, the enzyme could incorporate the deoxynucleotide into primers. The product of the primase-catalyzed reaction was an oligonucleotide of discrete length (11-13 nucleotides), and oligonucleotides that were apparently dimers of this unit length were also observed. Primers that were synthesized were virtually identical in size in both the presence and absence of dATP incorporation. Although the bulk of DNA primase activity was isolated as a "free" enzyme, a portion of cellular primase activity co-chromatographed with DNA polymerase suggesting an association between these enzymes similar to that found in several higher eukaryotes.
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PMID:A DNA primase from yeast. Purification and partial characterization. 398 42

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