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 DNA polymerase of early embryos of Drosophila melanogaster has been purified to near-homogeneity. The purified enzyme gave a single, catalytically active protein band after polyacrylamide gel electrophoresis, under nondenaturing conditions. Four polypeptides with molecular weights 43,000, 46,000, 58,000, and 148,000 were resolved when this band was electrophoresed under denaturing conditions. At high ionic strengths, the DNA polymerase had a sedimentation coefficient of 8.7 S, a Stokes radius of 78 A and frictional ratio of 1.81, parameters that yield a molecular weight of 280,000. The purified DNA polymerase possessed no detectable endo- or exodeoxyribonuclease, ATPase, or RNA polymerase activity. Using an "activated" DNA template-primer, the enzyme had a pH optimum of 8.5. It was stimulated by (NH4)2SO4, KCl, and to a lesser extent, NaCl. A divalent metal cation was absolutely required; MgCl2 stimulating activity 7-fold more than MnCl2. It was inhibited by low concentrations of N-ethylmaleimide and Aphidicolon. Thus the DNA polymerase of D. melanogaster resembles most closely the alpha-DNA polymerases that have been purified from mammalian cells.
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PMID:A high molecular weight DNA polymerase from Drosophila melanogaster embryos. Purification, structure, and partial characterization. 11 15

Yeast transcription factor tau (transcription factor IIIC) specifically interacts with tRNA genes, binding to both the A block and the B block elements of the internal promoter. To study the influence of A block-B block spacing, we analyzed the binding of purified tau protein to a series of internally deleted yeast tRNA(3Leu) genes with A and B blocks separated by 0 to 74 base pairs. Optimal binding occurred with genes having A block-B block distances of 30-60 base pairs; the relative helical orientation of the A and B blocks was unimportant. Results from DNase I "footprinting" and lambda exonuclease protection experiments were consistent with these findings and further revealed that changes in A block-B block distance primarily affect the ability of tau to interact with A block sequences; B block interactions are unaltered. When the A block-B block distance is 17 base pairs or less, tau interacts with a sequence located 15 base pairs upstream of the normal A block, and a new RNA initiation site is observed by in vitro transcription. We propose that the initial binding of tau to the B block activates transcription by enhancing its ability to bind at the A block, and that the A block interaction ultimately directs initiation by RNA polymerase III.
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PMID:Gene size differentially affects the binding of yeast transcription factor tau to two intragenic regions. 282 54

Linear DNA plasmids were found in the following yeasts: four strains of Kluyveromyces lactis, one of Debaryomyces hansenii, one of Wingea robertsiae and four of Pichia etchellsii. In each case, the plasmids were present as a pair of DNA molecules of different sizes. The plasmids of K. lactis strains were associated with a killer activity and their structure was similar to the known killer plasmids pGKL1 and 2. The plasmids from the other three species were different from pGKL plasmids and showed no killer activity against the yeast species tested so far. In all cases, the linear molecules possessed terminal (probably inverted) repeats and their 5' ends had a protected structure insensitive to lambda exonuclease, while the 3' ends were accessible to exonuclease III. All these strains could be efficiently cured of the plasmids by ultraviolet irradiation. The plasmids from D. hansenii (pDH1A and B) and from W. robertsiae (pWR1A and B) shared related sequences with some of the K. lactis killer plasmid genes (encoding the supposed DNA polymerases, RNA polymerase and the chitinase), suggesting related genome organization of these plasmids. The pair of plasmids from P. etchellsii (pPE1A and B) appear to be a distantly related member of the group. This pair showed no sequence homology with other plasmids, except weak homology with the putative RNA polymerase gene of pGKL2. None of the plasmids contained the sequences homologous to ORF3 and ORF4 of pGKL1 encoding the toxin resistance determinant and the toxin gamma subunit, respectively.
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PMID:Linear DNA plasmids from Pichia etchellsii, Debaryomyces hansenii and Wingea robertsiae. 808 97

Bulky lesions in the template strand block the progression of RNA polymerase II (RNAP II) and are repaired more rapidly than lesions in the non-transcribed strand, which do not block transcription. In order to better understand the basis of this transcription-coupled repair we developed an in vitro system with purified transcription and nucleotide excision repair proteins and a plasmid containing the adenovirus major late promoter and a thymine dimer in the template strand downstream of the transcription start site. The footprint of RNAP II stalled at the thymine dimer, obtained using DNase I, lambda exonuclease and T4 polymerase 3'-->5'exonuclease, covers approximately 40 nt and is nearly symmetrical around the dimer. The ternary complex formed at the lesion site is rather stable, with a half-life of approximately 20 h. Surprisingly, addition of human repair proteins results in repair of transcription-blocking dimers in the ternary complex. The blocked polymerase neither inhibits nor stimulates repair and repair is observed in the absence of CSB protein, the putative human transcription-repair coupling factor.
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PMID:RNA polymerase II stalled at a thymine dimer: footprint and effect on excision repair. 901 30

Recently we have found that mitoxantrone, like Adria-mycin, can be activated by formaldehyde and subsequently form adducts which stabilise double-stranded DNA in vitro. This activation by formaldehyde may be biologically relevant since formaldehyde levels are elevated in those tumours in which mitoxan-trone is most cytotoxic. In vitro transcription analysis revealed that these adducts block the progression of RNA polymerase during transcription and cause truncated RNA transcripts. There was an absolute requirement for both mitoxantrone and formaldehyde in transcriptional blockage formation and the activated complex was found to exhibit site specificity, with blockage occurring prior to CpG and CpA sites in the DNA (non-template strand). The stability of the adduct at 37 degrees C was site dependent. The half-lives ranged from 45 min to approximately 5 h and this was dependent on both the central 2 bp blockage site as well as flanking sequences. The CpG specificity of mitoxantrone adduct sites was also confirmed independently by a lambda exonuclease digestion assay.
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PMID:Formaldehyde activation of mitoxantrone yields CpG and CpA specific DNA adducts. 1064 92

A new method called promoter trapping was developed to purify promoter-protein complex using the c-jun promoter (-200+81) as a model, which was shown to have significant promoter activity. Polymerase chain reaction (PCR), lambda exonuclease digestion combined with (AC)(5)-Sepharose DNA affinity chromatography were used to produce c-jun promoter with a (GT)(5) tail at each 3' end. The intact promoter and different length pieces with one or two (GT)(5) tails had almost the same capacity to bind with (AC)(5)-Sepharose. In solution, tailed c-jun promoter (60 nM) and competitor poly dI:dC (30 ng/microl) was incubated with crude HEK293 nuclear extract to form a large protein-promoter complex, and the complex was then trapped by (AC)(5)-Sepharose by centrifugation or on a column. Compared with a popular alternative method, called here the immobilized promoter method, the products of promoter trapping were purer. The preinitiation complex purified by promoter trapping had the expected components including RNA polymerase II, TATA-box binding protein (TBP), TFIIF subunit RAP74, and transcription factor SP1, and transcribed RNA in vitro. Thus, the promoter trapping approach provides a useful tool for the purification and investigation of transcription complexes.
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PMID:Promoter trapping of c-jun promoter-binding transcription factors. 1693 21

We report a single-molecule assay for nucleic-acid enzymes on flow-stretched DNA templates. To facilitate the detection of slow or intermittent enzymatic activities, we developed the assay with 15-nm spatial resolution at a frame rate of 1 Hz and approximately 10 nm mechanical stability over the timescale of hours. With multiplexed data collection, we applied the assay to phi29 DNA polymerase, HIV-1 reverse transcriptase, lambda exonuclease and Escherichia coli RNA polymerase.
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PMID:Multiplexed single-molecule assay for enzymatic activity on flow-stretched DNA. 1743 63

DNA replication in metazoans initiates from multiple chromosomal loci called origins. Currently, there are two methods to purify origin-centered nascent strands: lambda exonuclease digestion and anti-bromodeoxyuridine immunoprecipitation. Because both methods have unique strengths and limitations, we purified nascent strands by both methods, hybridized them independently to tiling arrays (1% genome) and compared the data to have an accurate view of genome-wide origin distribution. By this criterion, we identified 150 new origins that were reproducible across the methods. Examination of a subset of these origins by chromatin immunoprecipitation against origin recognition complex (ORC) subunits 2 and 3 showed 93% of initiation peaks to localize at/within 1 kb of ORC binding sites. Correlation of origins with functional elements of the genome revealed origin activity to be significantly enriched around transcription start sites (TSSs). Consistent with proximity to TSSs, we found a third of initiation events to occur at or near the RNA polymerase II binding sites. Interestingly, approximately 50% of the early origin activity was localized within 5 kb of transcription regulatory factor binding region clusters. The chromatin signatures around the origins were enriched in H3K4-(di- and tri)-methylation and H3 acetylation modifications on histones. Affinity of origins for open chromatin was also reiterated by their proximity to DNAse I-hypersensitive sites. Replication initiation peaks were AT rich, and >50% of the origins mapped to evolutionarily conserved regions of the genome. In summary, these findings indicate that replication initiation is influenced by transcription initiation and regulation as well as chromatin structure.
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PMID:Genomic study of replication initiation in human chromosomes reveals the influence of transcription regulation and chromatin structure on origin selection. 1995 11

Transcription and regulation of genes originate from transcription pre-initiation complexes (PICs). Their structural and positional organization across eukaryotic genomes is unknown. Here we applied lambda exonuclease to chromatin immunoprecipitates (termed ChIP-exo) to examine the precise location of 6,045 PICs in Saccharomyces. PICs, including RNA polymerase II and protein complexes TFIIA, TFIIB, TFIID (or TBP), TFIIE, TFIIF, TFIIH and TFIIK were positioned within promoters and excluded from coding regions. Exonuclease patterns were in agreement with crystallographic models of the PIC, and were sufficiently precise to identify TATA-like elements at so-called TATA-less promoters. These PICs and their transcription start sites were positionally constrained at TFIID-engaged downstream +1 nucleosomes. At TATA-box-containing promoters, which are depleted of TFIID, a +1 nucleosome was positioned to be in competition with the PIC, which may allow greater latitude in start-site selection. Our genomic localization of messenger RNA and non-coding RNA PICs reveals that two PICs, in inverted orientation, may occupy the flanking borders of nucleosome-free regions. Their unambiguous detection may help distinguish bona fide genes from transcriptional noise.
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PMID:Genome-wide structure and organization of eukaryotic pre-initiation complexes. 2242 61

The human genome is pervasively transcribed, yet only a small fraction is coding. Here we address whether this non-coding transcription arises at promoters, and detail the interactions of initiation factors TATA box binding protein (TBP), transcription factor IIB (TFIIB) and RNA polymerase (Pol) II. Using ChIP-exo (chromatin immunoprecipitation with lambda exonuclease digestion followed by high-throughput sequencing), we identify approximately 160,000 transcription initiation complexes across the human K562 genome, and more in other cancer genomes. Only about 5% associate with messenger RNA genes. The remainder associates with non-polyadenylated non-coding transcription. Regardless, Pol II moves into a transcriptionally paused state, and TBP and TFIIB remain at the promoter. Remarkably, the vast majority of locations contain the four core promoter elements- upstream TFIIB recognition element (BREu), TATA, downstream TFIIB recognition element (BREd), and initiator element (INR)-in constrained positions. All but the INR also reside at Pol III promoters, where TBP makes similar contacts. This comprehensive and high-resolution genome-wide detection of the initiation machinery produces a consolidated view of transcription initiation events from yeast to humans at Pol II/III TATA-containing/TATA-less coding and non-coding genes.
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PMID:Genomic organization of human transcription initiation complexes. 2507 11

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