EC:3.1.30.1 - FACTA Search

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Query: EC:3.1.30.1 (S1 nuclease)
3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Transcription of Ad2 DNA templates in the presence of crude cellular extracts supplemented with exogenous (purified) RNA polymerase II is selectively and accurately initiated at the major late viral promoter at map position 16.45. Specific initiation has been demonstrated by a combination of hybridization, nuclease S1 mapping, size and partial sequence (fingerprint) analyses of the transcripts generated with various templates. With intact Ad2 DNA, transcription is terminated ell before the end of the 28 kb transcription unit is reached. With truncated templates (which contain intact promoter regions and several hundred base pair segments of the transcribed region) the expected run-off products are observed, along with a low level of prematurely terminated transcripts. The 560 nucleotide run-off product of the Sma l-f template (coordinates 11.6-18.2) was shown to contain all the large RNAase T1 oligonuc eotides that are characteristic of the corresponding in vivo transcript from this region; in addition, the 5 terminal undecanucleotide appears to be both capped and methylated. We have investigated various parameters (salt, metal ion and template concentrations) that affect the level of specific transcription in the crude system and have found that, under optimal conditions, specific transcription of Ad2 DNA continues for several hours. In addition, specific transcription initiation at the late promoter is observed with extracts derived from either virus-infected or uninfected KB cells and with class II RNA polymerases isolated from either human calf, murine or amphibian cells. RNA polymerase II from wheat germ does not function in this system.
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PMID:Selective and accurate initiation of transcription at the Ad2 major late promotor in a soluble system dependent on purified RNA polymerase II and DNA. 49 79

In order to investigate the molecular mechanisms of the regulation of immunoglobulin (Ig) gene transcription, a cell-free system was developed in which a cloned mouse Ig mu heavy-chain gene was transcribed using nuclear extracts prepared from a mouse B cell hybridoma line. To monitor transcription, an RNA.RNA hybridization assay was developed in which a 32P-labeled, SP6-synthesized RNA probe complementary to Ig mu RNA was hybridized to unlabeled RNA transcribed in the nuclear extract. Accurate initiation of transcription, which resulted in the protection of the RNA probe from digestion with nuclease S1, was detected by the separation of the products on denaturing polyacrylamide gels, followed by autoradiography. Using this assay, an in-vitro-synthesized RNA was detected. The 5' end of the in-vitro-transcribed Ig mu RNA maps exactly to the same position as the 5' end of the corresponding in vivo mRNA and its formation was sensitive to the addition of low levels of alpha-amanitin (1 microgram/ml), indicating transcription by RNA polymerase II. It was shown by competition experiments with oligonucleotides containing the 'decamer recognition site' that this sequence interacts with (a) decamer-binding factor(s) and plays a positive role in transcription. The competition effects of the decamer-containing oligonucleotide appeared to be restricted to the decamer motif present in the promoter region. No effects of the enhancer region were detectable in vitro. Little or no transcriptional activity was found in transcription experiments using the Ig mu promoter and nuclear extracts prepared from HeLa cells. This suggests that tissue-specific factors involved in Ig mu heavy-chain gene transcription are present in the mouse B cell extracts.
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PMID:A homologous in vitro system to analyze transcription of a mouse immunoglobulin mu heavy-chain gene. 245 Jul 48

We have characterized RpII215, the gene encoding the largest subunit of RNA polymerase II in Drosophila melanogaster. DNA sequencing and nuclease S1 analyses provided the primary structure of this gene, its 7 kb RNA and 215 kDa protein products. The amino-terminal 80% of the subunit harbors regions with strong homology to the beta' subunit of Escherichia coli RNA polymerase and to the largest subunits of other eukaryotic RNA polymerases. The carboxyl-terminal 20% of the subunit is composed of multiple repeats of a seven amino acid consensus sequence, Tyr-Ser-Pro-Thr-Ser-Pro-Ser. The homology domains, as well as the unique carboxyl-terminal structure, are considered in the light of current knowledge of RNA polymerase II and the properties of its largest subunit. Additionally, germline transformation demonstrated that a 9.4 kb genomic DNA segment containing the alpha-amanitin-resistant allele, RpII215C4, includes all sequences required to produce amanitin-resistant transformants.
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PMID:Analysis of the gene encoding the largest subunit of RNA polymerase II in Drosophila. 249 96

Cathepsin G is a 26,000-Da serine protease that is found in the azurophil granules of neutrophils and monocytes. The cathepsin G gene is expressed at high levels in U937 promonocytic cells, but is down-regulated with phorbol-induced differentiation. To characterize the genomic sequences responsible for the regulated expression of this gene, we screened a human genomic fibroblast library using cathepsin G cDNA, and obtained two lambda clones that contained the cathepsin G locus. The cathepsin G gene spans 2.7 kilobase pairs of genomic DNA and consists of 5 exons and 4 introns. The genomic organization of cathepsin G is similar to that of human neutrophil elastase, rat mast cell protease II, murine adipsin, and murine cytotoxic T-cell serine proteases, with protease catalytic residues located near the borders of exons 2, 3, and 5. Using in situ hybridization techniques, we localized cathepsin G to chromosome 14q11.2, a site that is near the alpha/delta T-cell receptor complex. Cathepsin G transcription is abolished in U937 nuclei with 2 micrograms/ml alpha-amanitin, indicating that this gene is probably transcribed by RNA polymerase II. The 5' end of the cathepsin G gene was defined by primer extension and S1 nuclease protection assays. A TATA box is found at position -29, and a CAAT box is found at -69 with respect to the transcription initiation site. Having defined the genomic structure and chromosomal location of cathepsin G, we are now attempting to identify the DNA elements in or near this gene that mediate its tissue and development-specific pattern of expression.
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PMID:Genomic organization and chromosomal localization of the human cathepsin G gene. 256 62

The Hinf family is a repetitive nucleotide sequence of the human genome. Certain structural features of Hinf DNA resemble the eukaryotic RNA polymerase II promoters. Therefore, we studied the ability of the Hinf element to function as a transcriptional promoter in mammalian cells. We placed the Hinf element upstream from the thymidine kinase-encoding (tk) sequence in a plasmid construct, pAC401 and introduced it into Ltk- mouse cells. The Hinf-tk plasmid was able to transform Ltk- cells to Tk+ phenotype. In another plasmid construct, pAC Hinf-neo, the Hinf element was inserted upstream from the sequence encoding neomycin (Nm) resistance (neo), and this plasmid was able to confer Nm resistance to HeLa cells. The nature of transcription initiation of the tk gene in four of the Tk+ clones transformed by pAC401 was examined by S1 nuclease analysis, and the transcription start point (tsp) for the tk gene in these clones was mapped within the Hinf element. The same tsp in the Hinf element was found in HeLa cells. Our studies show that the Hinf element functions as a weak promoter.
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PMID:Localization of a transcription start point within the human Hinf element. 259 45

The murine urokinase-type plasminogen activator (uPA) gene has been isolated from a BALB/c liver DNA cosmid library and its nucleotide sequence established. The gene is organized into 11 exons comprising 34.7% of the 6710 base pair (bp) region spanning the interval between the presumed transcription initiation and polyadenylation sites. The transcription initiation site is flanked by common RNA polymerase II promoter elements, including a TATA box and a potential transcription factor Sp1 binding site. A large polypurine tract of the structure (AG)22(AGGG)16(AG)28 is located 79 bp upstream of the 5'-terminus. It was highly sensitive to the single-strand-specific nuclease S1, suggesting a non-B-DNA conformation of unknown significance. Consistent with the well-documented influence of adenosine cyclic 3',5'-phosphate (cAMP) on uPA gene expression, there is a dodecanucleotide homologous to proposed regulatory sequences identified in other cAMP-modulated genes. Comparison of the murine uPA gene to the previously described porcine and human uPA genes revealed an unusually high degree of evolutionary (interspecies) sequence conservation that was not limited to exons but included introns and flanking sequences as well.
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PMID:The murine urokinase-type plasminogen activator gene. 283 40

We have used partially purified preparations of RNA polymerase II from mock-infected and herpes simplex virus type 1-infected HEp-2 cells to transcribe the herpes simplex virus type 1 strain F BamHI Z DNA fragment containing the promoter for immediate-early RNA-5 (alpha 47), a 1.8-kilobase, spliced RNA. In agreement with the in vivo transcriptional regulation of herpes simplex virus type 1 immediate-early genes, electrophoretic analyses of runoff and truncated transcripts from this template showed that RNA polymerase II from mock-infected cells initiates transcription more selectively than does that from the herpes virus-infected cells at the immediate-early RNA-5 promoter. S1 nuclease mapping of the 5' ends of in vivo- and in vitro-synthesized mRNA placed the initiation site ca. 110 base pairs upstream from the previously published site and also demonstrated the presence of a second, smaller intervening sequence between this new cap site and the previously characterized intervening sequence. S1 analyses also suggested that some splicing of the larger but not the smaller intervening sequence occurred in vitro.
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PMID:In vitro transcription of herpes simplex virus genes: identification of a new initiation site and second intervening sequence in the immediate-early RNA-5 gene. 298 42

The primary structure of the messenger RNA coding for cytosolic phosphoenolpyruvate carboxykinase was determined by sequencing cDNA and genomic DNA and by primer extension of the mRNA. The molecule is 2624 nucleotides in length; this includes 143 nontranslated nucleotides at the 5' end and 615 nontranslated nucleotides at the 3' end. The 3' nontranslated sequence contains a 102-base pair region of alternating purine-pyrimidine nucleotides (the majority of which are UpG dinucleotides), several direct repeats and palindromic sequences, and 8 CpG dinucleotides. The corresponding segment of the phosphoenolpyruvate carboxykinase gene thus has characteristics which favor the formation of Z-DNA. The amino acid sequence of phosphoenolpyruvate carboxykinase was deduced from the mRNA sequence and confirmed by fast atom bombardment mass spectrometric analysis of peptides generated with trypsin and Staphylococcus aureus V8 protease. The protein consists of 621 amino acids and has a molecular weight of 69,289. Charon 4A lambda bacteriophage clones containing genomic DNA coding for phosphoenolpyruvate carboxykinase were isolated from a library of partial HaeIII digests of rat liver DNA. Two clones, lambda PC112 and lambda PC103, contained the entire coding region in 15-kilobase inserts and were used to subclone the gene into pBR322 as EcoRI, BamHI, or SstI-KpnI fragments. Using these subclones, the structure of the phosphoenolpyruvate carboxykinase gene was determined by S1 nuclease mapping, R-loop analysis, and DNA sequencing. The gene is composed of 10 exons and 9 introns with a total length of 6.0 kilobases. The transcription initiation site of the gene was determined by a combination of in vitro transcription in a HeLa cell lysate system, primer extension of mRNAPEPCK, and S1 nuclease mapping. In vitro transcription of purified DNA templates revealed three RNA polymerase II-dependent start sites. Two sites were separated by 600 base pairs on the coding strand and the third site was on the noncoding strand. The products of S1 nuclease mapping and primer extension from a BglII site were compared in order to determine which of the coding strand initiation sites was expressed in vivo. In both cases a 69-base pair fragment was generated and the 5' end of this corresponded to a thymidine residue identified in a sequence ladder of the genomic DNA coding strand. We conclude that mRNAPEPCK synthesis initiates with an adenine residue 69 base pairs 5' of the BglII site; this corresponds to the 3' most transcription initiation site determined in vitro.
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PMID:Rat hepatic cytosolic phosphoenolpyruvate carboxykinase (GTP). Structures of the protein, messenger RNA, and gene. 299 87

We have previously shown that plant RNA polymerase II preferentially forms ternary transcription complexes on a cloned fragment of the cauliflower mosaic virus genome in the presence of a particular dinucleotide/purine NTP combination (ApG + ATP). This preferential interaction is observed when the viral sequences are present on a discrete circular molecule. Deletion of a 205-bases-pair region abolishes this selectivity. The deleted region contains a considerable number of symmetrical or repeating elements. The use of nuclease S1 as a probe shows that this region contains a homopurine-homopyrimidine sequence which is extremely sensitive to this enzyme, indicating its capacity to adopt a non-B DNA conformation. A possible alternative structure of these sequences, which may explain the preferential interaction with the RNA polymerase, is presented.
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PMID:Selective dinucleotide-primed in vitro transcription of a cloned fragment of cauliflower mosaic virus DNA is dependent on a limited region of the viral genome. 301 33

As shown by Southern blot analysis, the metallothionein-1 (MT-1) genes in rats comprise a multigene family. We present the sequence of the MT-1 structural gene and compare its features with other metallothionein genes. Three MT-1 pseudogenes which we sequenced apparently arose by reverse transcription of processed mRNA transcripts. Two of these, MT-1 psi a and MT-1 psi c, are retrogenes which derive from the MT-1 mRNA, having diverged from the MT-1 gene 6.9 and 2.6 million years ago, respectively. The third, MT-1 psi b, differs from the MT-1 cDNA by only three nucleotide alterations. Surprisingly, MT-1 psi b also preserves sequence homology for 142 base pairs 5' to the transcription initiation site of the parent gene; it contains a promoter sequence sufficient for specifying metal ion induction. We identified, by S1 nuclease mapping, an RNA polymerase II initiation site 432 base pairs 5' of the MT-1 transcription initiation site of the MT-1 structural gene which could explain the formation of the mRNA precursor to this pseudogene. We were unable to detect MT-1 psi b transcripts, either in liver tissue or after transfection. We conclude that the absence of detectable transcripts from this pseudogene is due to either a reduced level of transcription or the formation of unstable transcripts as a consequence of the lack of a consensus sequence normally found 3' of transcription termination in the MT-1 structural gene.
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PMID:Rat metallothionein-1 structural gene and three pseudogenes, one of which contains 5'-regulatory sequences. 302 30

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