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)

The promoter, operator, and 5' and 3' ends of the mRNA of the Escherichia coli gene aroG (encoding the phenylalanine-sensitive 3-deoxy-arabinoheptulosonate-7-phosphate synthase) were located. Primer extension analysis and nuclease S1 mapping of in vivo transcripts were used to determine the 5' and 3' ends, respectively, of the mRNA. Both ends exhibited some heterogeneity with respect to length. The 3' end of the major molecular species was located within a region that has structural homology with known rho-independent terminators. The location of the aroG promoter was identified in both strands of the DNA by in vitro DNase I footprinting and methylation protection experiments with RNA polymerase. In these experiments, a region of up to 80 base pairs (bp) was protected by the binding of RNA polymerase. The location of the aroG operator was also identified in both strands of the DNA by in vitro DNase I footprinting with pure TyrR. TyrR protected 26 to 28 bp of DNA containing a 22-bp palindrome (TYR R box) and overlapping the -35 region of the promoter. Mutations in the aroG regulatory DNA were isolated by site-directed mutagenesis and cloned in a low-copy-number plasmid to generate aroG-lac fusions. The effects of the mutations on the regulation of aroG expression were determined by measuring the beta-galactosidase activities of the fusions in strains with tyrR, tyrR+, and multicopy tyrR+ genotypes. The results of this mutant analysis confirmed that the aroG operator contains a single TYR R box.
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PMID:Identification of the promoter, operator, and 5' and 3' ends of the mRNA of the Escherichia coli K-12 gene aroG. 197 May 63

The carbamoylphosphate synthetase-aspartate transcarbamylase-dihydroorotase (CAD) gene encodes a tri-functional protein catalyzing the first three steps in de novo pyrimidine biosynthesis. Studies correlating CAD gene expression with cellular proliferation indicate the importance of understanding the regulation of the CAD gene. As a first step, the structure of the promoter region of the Syrian hamster CAD gene has been determined. Sequence analysis of 1671 base pairs of DNA revealed that the CAD promoter region is very GC rich. Primer extension analysis indicated that the transcription initiation site of the CAD gene is downstream from two GC boxes (consensus binding sites for the transcription factor Sp1). There is no TATA box appropriately spaced upstream from the transcription initiation site. Using RNase protection mapping, S1 nuclease analysis, and comparison to consensus splice donor/acceptor sites, the 5' end of the CAD gene has been determined to consist of a 241-base pair first exon, a 187-base pair first intron, a 140-base pair second exon, and a second intron that extends at least three kilobase pairs. Using conditions optimized for this GC-rich promoter, accurate transcription can be achieved in vitro. Analysis of CAD promoter deletions indicated that sequences extending only 114 base pairs upstream and 225 base pairs downstream from the transcription initiation site are sufficient for accurate and efficient transcription in vitro. DNase I footprinting reactions using this promoter fragment have identified three regions that bind proteins in a HeLa nuclear extract.
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PMID:Characterization of the 5' end of the growth-regulated Syrian hamster CAD gene. 198 61

The ugp operon of Escherichia coli includes genes involved in the uptake of sn-glycerol-3-phosphate and glycerophosphoryl diesters and belongs to the pho regulon which is induced by phosphate limitation. This operon has two transcriptional initiation sites, as determined by S1 nuclease mapping of the in vivo transcripts. The downstream promoter has multiple copies of the pho box, the consensus sequence shared by the pho promoters; the upstream promoter has a consensus sequence for the promoters regulated by cyclic AMP and its receptor protein, CRP. PhoB protein, which is the transcriptional activator for the pho regulon, protected the regulatory region with the pho boxes in DNase I footprinting experiments and activated transcription from the downstream promoter in vitro. Studies with transcriptional fusions between ugp and a promoterless gene for chloramphenicol acetyltransferase show that the upstream promoter is induced by carbon starvation in a manner that required the cya and crp genes. PhoB protein may act as a repressor for this upstream promoter, which also overlaps the upstream third pho box. The downstream promoter was induced by phosphate starvation and requires the PhoB protein for its activation as do the other pho regulon promoters. These results suggest that the two promoters function alternately in responding to phosphate or carbon starvation, thus providing the cell with a means to adapt to these physiological stresses.
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PMID:Dual regulation of the ugp operon by phosphate and carbon starvation at two interspaced promoters. 198 50

Genes for urea cycle enzymes including liver-type arginase are expressed mainly in the liver and are regulated developmentally, nutritionally, and hormonally in a coordinated manner. The promoter region of the rat arginase gene was investigated with an in vitro transcription system using nuclear extracts prepared from rat tissues. Accurate initiation of the transcription in liver nuclear extracts was confirmed by runoff analysis and S1 nuclease mapping. The arginase promoter was transcribed more efficiently in liver nuclear extracts than in brain extracts, reproducing the in vivo tissue specificity qualitatively. Analysis of deletion mutants of the 5'-flanking region in liver nuclear extracts revealed a positive regulatory region spanning nucleotides -90 to -51 relative to the transcription start site. Overlapping this region, two protected areas were detected by DNase I footprinting. Competition analysis with synthetic oligonucleotides showed that the more downstream protected area was occupied, in a mutually exclusive manner, by two factors each related to CTF/NF-1 and Sp1. The other more upstream protected area was recognized by a factor related to the liver-enriched transcription factor C/EBP, which was recently shown to interact with regulatory regions of two other urea cycle enzyme genes.
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PMID:In vitro analysis of the rat liver-type arginase promoter. 202 18

Genomic clones containing the 5'-terminal portion of the human CRE-BP1 gene that encodes transcriptional regulator binding to the cyclic AMP response element (CRE) were isolated. Multiple transcriptional start sites in the promoter region were identified by nuclease S1 mapping and primer extension analysis. By DNase I footprinting with use of purified transcription factor Sp1 and nuclear extracts prepared from HeLa cells, 11 Sp1-binding sites, two CCAAT sequences, two CREs, and three unknown factor recognition elements were found. Transfection of chimeric chloramphenicol acetyltransferase plasmids containing various deletions of the promoter into CV-1 cells indicated that the region between nucleotides -50 and 90, which contained three Sp1-binding sites and one CRE, was sufficient for basal promoter activity. These results suggest that multiple sequence-specific DNA-binding proteins may control the expression of the CRE-BP1 gene, although Sp1 seems to be important for the basal promoter activity.
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PMID:Promoter region of the human CRE-BP1 gene encoding the transcriptional regulator binding to the cyclic AMP response element. 214 72

The intranuclear localization of the Ki-67 reactive antigen was immunocytochemically investigated using flow cytometry. HeLa S3 cells were immunocytochemically stained with the monoclonal antibody, Ki-67, after in situ treatments with various kinds of compounds, namely: HCl; NaCl; RNase; S1 nuclease and DNase I. The only treatment that markedly diminished the immunofluorescence intensity of the cells was exposure to DNase I. Nuclear fluorescence was no longer observed in the cells digested with relatively high concentrations of DNase I. These results suggest that the antigen recognized by Ki-67 is closely associated with DNA, but is not directly associated with either the nuclear matrix or histones.
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PMID:Intranuclear localization of the Ki-67 reactive antigen in HeLa cells. Flow cytometric analysis. 219 67

Previous studies have documented transcription initiation sites and nuclease hypersensitive sites upstream of the epsilon-globin canonical cap site in K562 cells. The upstream transcription initiation sites coincide with some of the nuclease hypersensitive sites. Comparison of the positions of the upstream transcription initiation and the nuclease hypersensitive sites with the nucleotide base order shows that these upstream sites fall significantly closer to poly (dA).poly (dT) tracts than can reasonably be accounted for by chance. It is concluded that these sites are related to the occurrence of poly (dA).poly (dT) tracts of at least five base pairs. Other studies have related some particular functional properties to poly (dA).poly (dT) tracts. Additionally, poly (dA).poly (dT) tracts have been shown to have unusual physical characteristics and to produce an intrinsic bending of the DNA molecules in which they are located. This study indicates that poly (dA).poly (dT) tracts can provide access to DNA for RNA polymerases and induce a DNA conformation recognized by DNase I or S1 nuclease.
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PMID:Transcription initiation and nuclease-sensitive sites upstream of the epsilon-globin gene in K562 cells are related to poly (dA).poly (dT) sequences. 225 7

Monoclonal antibody 5E5 labeled the nuclear antigen of the neurons in the guinea pig and rat central nervous systems including the cerebrum, cerebellum, spinal cord and retina. This antibody could discriminate neurons even among the same cell class. In in vitro study, only 10% of dividing PC12 cells was labeled with this antibody. An electron microscopic immunohistochemical study also revealed that this antibody selectively labeled heterochromatins in the neurons. Although we could not obtain any positive result by an immunoblot study, the antigenicity was remarkably diminished by the DNase I or S1 nuclease treatment on the tissue sections whereas RNase and trypsin was ineffective. These results suggested that this antigen might be a single-stranded DNA-protein complex resistant to proteolytic procedures, and possibly related to cell function or state of differentiation.
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PMID:A monoclonal antibody 5E5 recognizes an intranuclear antigen selectively present in a subpopulation of the neurons. 230 33

The regulation of expression of the Tn1721-encoded tetracycline-resistance determinant is described at the molecular level. The transcriptional control element consists of overlapping divergent promoters, which are negatively regulated by two operators with nearly identical sequence. The mRNA for the regulatory gene tetR is translated without a ribosome-binding site. This result is confirmed by S1 nuclease mapping and RNA sequencing of the tetR mRNA. The start nucleotide for transcription of this mRNA is the adenosine residue of the sequence 5'-AUG. Determination of the N-terminal amino acid sequence of the purified Tet repressor proves that this AUG is the initiation codon for translation. The Tet repressor protein is further used to map the two tet operators by DNase I footprinting. Tight contacts of the protein to the N-7 positions of two guanosine residues in each operator are determined from methylation protection experiments with dimethylsulfate. The differential regulation and positive control of transcription of the tetR gene that is possible with this arrangement of promoters and operators is discussed.
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PMID:Expression, purification and operator binding of the transposon Tn1721-encoded Tet repressor. 243 Nov 53

The processed gene L32', a member of the mouse gene family for ribosomal protein L32, could encode a 135 amino acid protein nearly identical to L32. The 5'-flanking region of the gene contains CAAT and TATA sites at positions commonly found in expressed genes. The L32' gene lies within highly methylated, DNase I-insensitive chromatin of mouse L1210 cells. Although S1 nuclease digestion studies suggested that an L32' transcript might be produced, an oligonucleotide probe specific for L32' mRNA, and RNase digestion of a cRNA probe to L32', indicated fewer than 0.1 L32' transcripts/cell. These results demonstrate that extreme caution is required when measuring transcription from related genes.
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PMID:Analysis of potential expression of highly related members of the ribosomal protein L32 gene family. 246 15


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