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

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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)

In a simple eukaryote Physarum polycephalum about 13% of the genome is transcribed into abundant cytoplasmic RNA as shown by S1 nuclease digestion of DNA-RNA hybrids. Mild digestion of isolated Physarum nuclei with DNase I liberates a fraction of chromatin 3.5-fold enriched in sequences hybridizing by Physarum poly(A)+ RNA. This fraction is similarly enriched in histone H4 and actin genes known to be actively transcribed in Physarum. High content (about 45%) of actively transcribed sequences in DNase-I-released fraction of Physarum chromatin makes it particularly well suited for studying the structural basis of transcriptional activation in eukaryotes.
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PMID:Transcriptionally active chromatin can be selectively released by DNase I from Physarum polycephalum genome. 246 74

The chromatin structure and protein-DNA interactions of a cell cycle regulated human H3 histone gene have been examined at different levels of resolution. Using traditional Southern blot analysis we have investigated the accessibility of the H3 coding region and its flanking sequences to DNase I, S1 nuclease and restriction endonuclease digestion. Using the native genomic blotting method recently developed in our laboratory, two sites of protein-DNA interaction in the proximal 240 bp of the promoter region of this H3 gene were established. Further in vivo analysis of protein-DNA binding sites in intact cells by genomic sequencing revealed, with single nucleotide resolution, the guanine contacts and footprints of the proteins bound to the promoter. The relative locations of protein-DNA interactions in this H3 gene are similar to those identified in vivo and in vitro in a cell cycle dependent human H4 histone gene. The proteins complexed with the H3 histone gene promoter can be dissociated between 0.16 and 0.28 M NaCl. The protein-DNA contacts persist throughout the cell cycle and thus may have a functional relationship with the basal level of transcription of this H3 gene that occurs during and outside of S phase.
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PMID:In vivo protein binding sites and nuclease hypersensitivity in the promoter region of a cell cycle regulated human H3 histone gene. 253 85

The temperate, transposable bacteriophages D108 and Mu are highly homologous, but differ in their lef-end regulatory regions. We have previously cloned the gene encoding the D108 thermo-sensitive (cts) repressor under the control of the lactUV5 promoter. In this work, we report that crude protein extracts containing highly-expressed D108 repressor protect a 77 bp region of DNA, located between 863 bp and 940 bp from the D108 lef--end, from both exonuclease III and DNase I hydrolysis. Nucleotide sequence analysis of this region reveals that is also contains DNA sequences homologous to the consensus DNA-binding site of the Escherichia coli protein, Integration Host Factor (IHF). Crude protein extracts containing highly-expressed IHF specifically bind to, and retard the migration of, DNA fragments containing the D108 regulatory region, and the DNA sequence which IHF protects from DNase I cleave lies directly within the D108 repressor binding region. There are two apparent repressor-specific S1 nuclease-resistant RNA suggests that transcription from the early region promoter, Pe may initiate at or about 1000 bp from the left-end of the D108 genome. Thus though, D108 and Mu utilize three analogous proteins (repressor, ner, and IHF) and the same apparent promoters for early gene regulation and the lytic/lysogenic decision, the organization of these regulatory components is apparently different, suggesting different mechanisms of control of gene expression.
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PMID:Regulation of repressor and early gene expression in Mu-like transposable bacteriophage D108. 254 79

Human metaphase chromosomes, substituted with 5'-bromodeoxyuridine (BrdUrd) for one, two or three rounds of replication, were briefly pretreated with ultraviolet light (UV), in the presence of 33258 Hoechst, and subsequently digested with either exonuclease III or S1 nuclease. Pretreatment alone was not sufficient to induce sister chromatid differential staining (SCD), but allowed subsequent digestion with exonuclease III or S1. Such enzymes were found to induce SCD with ethidium bromide, as unifilarly BrdUrd-substituted chromatids (TB) were more resistant than bifilarly substituted chromatids (BB). Other experiments with DNase I or the AluI and HaeIII restriction endonucleases showed that only HaeIII was capable of inducing SCD by attacking BB more than TB chromatids preincubated with UV in the presence of Hoechst. SCD with exonuclease III/S1 nuclease seems to be due to (1) UV-induced DNA debromination occurring twice in BB as opposed to TB chromatids, and (2) alteration of chromatin protein structure occurring to a different extent in differently BrdUrd-substituted chromatids. Our findings with endonucleases, on the contrary, may depend on the capacity of enzymatic cleavage to cancel the different protein alterations induced differentially by UV in TB as opposed to BB chromatids.
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PMID:Nuclease activity in human metaphase chromosomes substituted with 5'-bromodeoxyuridine. 270 4

Genomic clones corresponding to the amino-terminal propeptide and 5'-flanking sequences of the chicken pro-alpha 1(I) collagen gene were isolated as a first step in the identification of DNA sequences important for transcriptional regulation of the pro-alpha 1(I) collagen gene. Due to the failure to identify positive clones in either primary or amplified genomic libraries, a 5.1-kilobase pair StuI genomic fragment identified by Southern blotting was enriched by sucrose gradient fractionation of genomic DNA and cloned into lambda gt11. Comparison of the DNA sequence of the 5.1-kilobase pair StuI fragment to the DNA sequence of a cDNA clone encoding the amino-terminal propeptide, signal peptide, and the 5'-untranslated region identified the first four exons and most of the fifth. Exon size and intron position have been largely conserved between human and chicken alpha 1(I) genes. DNA sequence analysis of the region 5' to the transcription initiation site identified the canonical TATA and CAAT boxes. However, the 40-nucleotide pyrimidine stretch centered between -150 and -180 nucleotides, found in all previously isolated type I procollagen genes from chicken, mouse, and human, was absent in the chicken pro-alpha 1(I) collagen gene. This sequence corresponds to the in vivo DNase I hypersensitive site in the chicken pro-alpha 2(I) and mouse pro-alpha 1(I) collagen genes, as well as the in vitro S1 nuclease hypersensitive site in both chicken and mouse pro-alpha 2(I) collagen genes. Two unusual DNA sequences were identified within the chicken pro-alpha 1(I) collagen gene. Fifteen tandem repeats of the sequence GGGGAGA were identified within the first intron, 300 nucleotides 3' to the first exon. This sequence was identified due to its hypersensitivity to S1 nuclease in vitro in supercoiled plasmids. The second sequence located 5' to -180 contained at least 25 copies of a polymorphic, 23-base pair tandemly repeated sequence not identified in other type I procollagen genes. Both of these tandem repeat sequences were identified at other locations in the chicken genome by Southern blot hybridization.
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PMID:Unusual DNA sequences located within the promoter region and the first intron of the chicken pro-alpha 1(I) collagen gene. 282 Sep 66

We investigated the conformation of the X-linked mouse hypoxanthine-guanine phosphoribosyltransferase gene (HPRT) promoter region both in chromatin from the active and inactive X chromosomes with DNase I and in naked supercoiled DNA with S1 nuclease. A direct comparison of the chromatin structures of the active and inactive mouse HPRT promoter regions was performed by simultaneous DNase I treatment of the active and inactive X chromosomes in the nucleus of interspecies hybrid cells from Mus musculus and Mus caroli. Using a restriction fragment length polymorphism to distinguish between the active and inactive HPRT promoters, we found a small but very distinct difference in the DNase I sensitivity of active versus inactive chromatin. We also observed a single DNase I-hypersensitive site in the immediate area of the promoter which was present only on the active X chromosome. Analysis of the promoter region by S1 nuclease digestion of supercoiled plasmid DNA showed an S1-sensitive site which maps adjacent to or within the DNase I-hypersensitive site found in chromatin but upstream of the region minimally required for normal HPRT gene expression.
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PMID:Nuclease sensitivity of the mouse HPRT gene promoter region: differential sensitivity on the active and inactive X chromosomes. 282 12

Transcription initiation of the hisA gene in vivo in the archaebacterium Methanococcus vannielii, as determined by nuclease S1 and primer extension analyses, occurs 73 base pairs (bp) upstream of the translation initiation site. Binding of M. vannielii RNA polymerase protects 43 bp of DNA, from 35 bp upstream (-35) to 8 bp downstream (+8) of the hisA mRNA initiation site, from digestion by DNase I and exonuclease III. An A + T rich region, with a sequence which conforms to the consensus sequence for promoters of stable RNA-encoding genes in methanogens, is found at the same location (-25) upstream of the polypeptide-encoding hisA gene. It appears therefore that a TATA-like sequence is also an element of promoters which direct transcription of polypeptide-encoding genes in this archaebacterium.
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PMID:An archaebacterial RNA polymerase binding site and transcription initiation of the hisA gene in Methanococcus vannielii. 282 15

We have used enzymic and chemical probes to search for altered DNA conformations in the 5' flanking region of the gene for a high mobility group protein (HMG-T) from trout. This search was conducted in order to identify potential genetic elements that might be involved in the transcriptional control of the HMG-T gene. We identified, in supercoiled plasmid DNA molecules containing a 900 base pair insert of the 5' region of the gene, an S1-sensitive site situated within an (AT)12 sequence approximately 120 base pairs upstream from the start of the HMG-T gene. Chemical modification of supercoiled DNA with the single-strand-selective reagent bromoacetaldehyde was limited to a region coincident with the S1 nuclease site. T7 endonuclease I, a probe highly specific for four-way helical junctions, cleaved predominantly at the boundaries of the (AT)12 stretch. These data are most consistent with the interpretation that the (AT)12 sequence adopts a cruciform structure when torsionally stressed by negative supercoiling. DNase I footprinting analyses demonstrated that HMG-T protects two regions almost equidistant from the center of the (AT)12 sequence, indicating that HMG-T is a sequence-specific DNA binding protein.
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PMID:Induction by torsional stress of an altered DNA conformation 5' upstream of the gene for a high mobility group protein from trout and specific binding to flanking sequences by the gene product HMG-T. 283 70

To examine the association between chromatin structure and gene expression at the human hypoxanthine phosphoribosyltransferase (HPRT) locus, DNase I sensitivity of active and inactive genes was analyzed. In a set of human-hamster hybrid lines containing either an active or an inactive human X chromosome, or a derivative of the latter in which the HPRT gene was reactivated by 5-azacytidine treatment, only the promoter region of the gene was found to contain a hypersensitive domain, and its presence was strictly correlated with gene activity. An S1 nuclease-sensitive site was mapped upstream from the DNase I hypersensitive domain using supercoiled plasmids. The overall level of DNase I sensitivity in the interior of the HPRT gene was also assessed by comparing the degradation of polymorphic restriction fragments on active and inactive alleles in both polyclonal and monoclonal lines of female human cells. In these internally controlled experiments, the active X chromosome was found to be approximately twofold more susceptible to DNase I digestion than the inactive X chromosome.
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PMID:Comparative study of DNase I sensitivity at the X-linked human HPRT locus. 283 22

The chromatin structure of the 5'-upstream region of the Shrunken (Sh) gene in Zea mays has been examined. We have identified a region of DNase I hypersensitivity extending at least from the 3'-end of exon 1 for 2 kb into the 5'-flanking region. This region is composed of a set of closely spaced hypersensitive sites separated by small regions that are less accessible to DNase I. The most sensitive sites are located within 300 bp upstream of the transcription start site. Hypersensitive sites are found essentially at the same positions in kernels, roots and leaves, although the latter display different relative intensities. No changes are found in roots within the tested region upon anaerobic induction. Testing protein-free plasmid DNA containing the 5' upstream region of the Sh gene, we found a site sensitive to the single strand specific nuclease S1 located very close to a DNase I hypersensitive site identified in chromatin. Several hypersensitive sites are flanking in vitro binding sites of nuclear proteins as determined by Werr et al. (1988; accompanying paper).
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PMID:DNase I hypersensitive sites in the 5'-region of the maize Shrunken gene in nuclei from different organs. 284 73


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