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)

Iodination of DNA by the reaction originally described by S. L. Commerford ((1971), Biochemistry 10, 1993) is extremely sensitive to the secondary structure of the DNA. Cytidines in denatured simian virus 40 (SV40) DNA react at a slightly slower rate than free cytidine monophosphate; hydrogen-bonded cytidines in SV40 form I DNA are iodinated considerably more slowly; elimination of the negative supercoils in form I DNA by conversion to form II or form III reduces reactivity even further. The residual reactivity of form II or form III duplex DNA is not due to preferential iodination of unpaired cytidines near phosphodiester bond breaks; rather iodination occurs throughout the molecule. Cytidine monophosphate has been used as a model for DNA, to enable spectral measurements of its reaction with iodine and T1C13. At temperatures above 42 degrees C and at pH 5.0, formation of 5-iodocytidine is limited by the rate of formation of an intermediate, probably 5-iodo-6-hydroxydihydrocytidine. At lower temperatures, the conversion of intermediate to product is rate limiting, but can be accelerated by lowering the pH. By appropriate adjustment of pH, or temperature, the formation of intermediate or its conversion to product can be accelerated. Iodination destabilizes the DNA duplex. Iodocytosines in SV40 DNA are preferentially removed by S1 nuclease. Heavily iodinated DNA does not reassociate normally, but DNA with only 5-10% of its cytosines iodinated appears to reassociate with normal kinetics, if duplex formation is measured by hydroxylapatite chromatography. Conditions are described to permit preparation of DNA, which reassociates normally, having a specific activity of 10(8) cpm/mug.
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PMID:Iodination of DNA. Studies of the reaction and iodination of papovavirus DNA. 17 28

We have isolated a precursor of yeast tRNATyr and shown that it contains an intervening sequence identical to that found in the gene for tRNATyr. The conformation of pre-tRNATyr is similar to that of mature tRNATyr except for the anticodon loop. The loop is sensitive to endonucleolytic cleavage by S1 nuclease near to the ends of the intervening sequence. This pre-tRNA is functionally inactive as it cannot be aminoacylated and the anticodon is not accessible for hydrogen bonding. A crude nuclear extract from yeast contains an excision-ligase activity which will process pre-tRNATyr into mature tRNATyr.
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PMID:Structure and processing of yeast precursor tRNAs containing intervening sequences. 35 64

The synthesis of several nucleic acid block polymers of the general type dGn.rCidCk is described. The key steps in this procedure were the joining of dCk oligomers, protected at the 3'-OH with an acetyl group, to rCi oligomers by T4 DNA ligase and the purification of the products by RPC-5 column chromatography. The block polymers were characterized by 20% polyacrylamide gel electrophoresis, UV and CD spectra, analytical Cs2SO4 buoyant density analyses, helix-coil transitions and S1 nuclease studies. NMR studies on one member of this series, dGn.rC11dC16, were reported recently (Selsing, E., Wells, R.D., Early, T.A., and Kearns, D.R. (1978) Nature 275, 249-250). The NMR studies and the results described herein indicate that these block polymers are linear duplexes with two adjoining conformations yet are hydrogen-bonded and base-stacked throughout with minimal disruption of the helix at the junction of the two conformations. Computer model building studies described in the following paper (Selsing, E., Wells, R.D., Alden, C.J., and Arnott, S. (1979) J. Biol. Chem. 254, 5417-5422) predict that these nucleic acids contain a bend at the junction region.
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PMID:Polynucleotide block polymers consisting of a DNA.RNA hybrid joined to a DNA.DNA duplex. Synthesis and characterization of dGn.rCidCk duplexes. 44 59

In the presence of Cu(II) ions, supercoiled DNA is cleaved in neutral solution by low concentrations of thiols. Supercoiled plasmid DNA is cleaved first to open circular DNA, which in turn produces linear DNA and eventually fragments. Cleavage is strongly temperature-dependent and is maximal at 0.10-0.25 M-NaCl concentration. In the presence of excess of either component of the Cu(II)-thiol pair, the extent of cleavage depended on the concentration of the limiting partner, and was easily detectable down to micromolar concentrations of limiting GSH. Scavengers of oxygen-derived species (such as hydrogen peroxide, superoxide radical ion and hydroxyl radical) indicated that the hydroxyl radical may be involved in the cleavage mechanism. DNA cleavage leads to some production of 2-thiobarbituric acid-reactive species and some of the cleavage sites, at least, had 5'-hydroxy and/or 3'-hydroxy groups. There was extensive base damage before cleavage. Studies with S1 nuclease indicated no gross sequence preference for Cu(II)-GSH cleavage of pSP64 plasmid DNA. The Cu(II)-thiol system did not appear to target special structural features in the DNA such as Z-DNA inserts, cruciform structures or left-handed (but non-Z) DNA. Cleavage might arise from a reagent generated either by the Cu(II)-thiol combination in free solution or by attack involving Cu(II) ions pre-bound to DNA. The attack of GSH plus Cu(II) ions on DNA may be a potential toxic lesion under physiological conditions unless special protective measures operate efficiently in the cell.
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PMID:Chemical cleavage of plasmid DNA by glutathione in the presence of Cu(II) ions. The Cu(II)-thiol system for DNA strand scission. 203 39

The regulatory elements involved in expression of the gene (fdhF) for the selenopolypeptide of formate dehydrogenase and of a gene (or transcriptional unit) (hyd) specifically responsible for the formation of the gas-evolving hydrogenase (hydrogenase 3) in Escherichia coli were investigated. Formate (or a product of it) is required for expression of both systems since in a pyruvate-formate-lyase deficient mutant induction occurs only when formate is supplemented externally. Under this condition, formate can partially overcome repression by nitrate. The transcription of both the fdhF gene and the hydrogenase-3-encoding systems is independent of the presence of a wild-type fnr gene when formate is present, supporting the view that the Fnr effect on the formation of the formate-hydrogen-lyase pathway is indirect. Mutations blocking the synthesis of a functional molybdenum cofactor also had no major affect on fdhF and hyd expression. The nucleotide sequence of the 5' flanking region of the fdhF gene was determined and the transcription start point of the fdhF gene was localized by nuclease S1 mapping. Nuclease Bal31 generated deletion clones were constructed and the regulation of their expression was studied. Anaerobic expression and induction by formate depended on the presence of a stretch of approximately 185 nucleotides upstream of the translation start. Elements mediating formate induction and oxygen or nitrate repression could not be separated physically. The regulatory features of the fdhF upstream region bear striking resemblance to systems whose expression are dependent upon upstream activating elements.
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PMID:Factors affecting transcriptional regulation of the formate-hydrogen-lyase pathway of Escherichia coli. 244

We have investigated in detail the secondary and tertiary structures of the 16 S rRNA binding site of protein S8 using a variety of chemical and enzymatic probes. Bases were probed with dimethylsulfate (at A(N-1), C(N-3) and G(N-7)), with N-cyclohexyl-N'-(2-(N-methylmorpholino)-ethyl)-carbodiimide-p- toluenesulfonate (at G(N-1) and U(N-3)) and with diethylpyrocarbonate (at A(N-7)). The involvement of phosphates in hydrogen bonds or ion co-ordination was monitored with ethylnitrosourea. RNases T1, U2 and nuclease S1 were used to probe unpaired nucleotides and RNase V1 to monitor base-paired or stacked nucleotides. The RNA region, encompassing nucleotides 582 to 656 was probed within: (1) the complete 16 S rRNA molecule; (2) a 16 S rRNA fragment corresponding to nucleotides 578 to 756 obtained by transcription in vitro; (3) the S8-16 S rRNA complex; (4) the S8-RNA fragment complex; (5) the 30 S subunit. Cleavage or modification sites were detected by primer extension with reverse transcriptase. We present a three-dimensional model derived from mapping experiments and graphic modeling. Nucleotides in area 594-599/639-645 display unusual features: a non-canonical base-pair is formed between U598 and U641; and A595, A640 and A642 are bulging out of the major groove. The resulting helix is slightly unwound. Comparative analysis of probing experiments leads to several conclusions. (1) The synthesized fragment adopts the same conformation as the corresponding region in the complete RNA molecule, thus confirming the existence of independent folding domains in RNAs. (2) A long-range interaction involving cytosine 618 and its 5' phosphate occurs in 16 S rRNA but not in the fragment. (3) The fragment contains the complete information required for S8 binding. (4) The RNA binding site of S8 is centered in the major groove of the slightly unwound helix (594-599/639-645), with the three bulged adenines appearing as specific recognition sites. (5) This same region of the 16 S RNA is not exposed at the surface of the 30 S subunit.
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PMID:Binding of Escherichia coli ribosomal protein S8 to 16 S rRNA. A model for the interaction and the tertiary structure of the RNA binding site. 332 31

The interaction of poly-N6-methyladenylic acid (poly(m6A) with poly-5-bromouridylic acid (poly(BU) was studied by the mixing curve method. A.1 m6A: 2 BU stoichiometry was clearly indicated over a wide range of ionic strengths at neutral pH, while the binding of poly(m6A) to poly(U) is known to occur with 1 m6A:1 U. Digestion by nuclease S1 confirmed this stoichiometry, indicating the absence of single strands in a 1:2 mixture. Heating profile analysis and hydroxyapatite column chromatography provided further confirmation of this finding. To determine whether 1:2 stoichiometry holds in a monomer-polymer system, the interaction of N6-methyl-9-methyladenine (m6m9A), a corresponding monomer of poly(m6A), with poly(BU) was investigated. Equilibrium dialysis experiments showed the stoichiometry of the interaction to be 1 m6A:2 BU. Thus, we would describe some structural studies of the above complexes using c.d. and i.r. spectroscopy. Poly (m6A).2poly(BU) and m6m9A.2poly(BU) are helical and analogous to each other in structure, and the bases in the complexes are all bound by hydrogen-bonding. N6-(delta 2-isopentenyl)- and N6-allyl-9-methyladenine were also found to form complexes with poly(BU), giving similar c.d. spectra with that of m6m9A.2poly(BU). The melting experiments indicated the Tms to be substantially decreased, compared to the parent unmodified complexes, even though the Tm dependence of the polymer complex on salt concentration conforms to the typical triple strand. In the following, the biological significance of this novel pairing will be discussed.
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PMID:Interactions of poly-N6-methyladenylic acid and N6-substituted-9-methyladenines with poly-5-bromouridylic acid: a novel base-pairing. 391 14

We have isolated promoters inducible by paraquat, a superoxide radical-generating agent, from Escherichia coli, using promoter-probing plasmid pJAC4 (Y.S. Koh and J.H. Roe, Korean J. Microbiol. 31:267-273, 1993). One promoter clone pqi-5 (pqi denotes paraquat-inducible gene) was mapped at 21.8 min on the E. coli chromosome by using the Kohara phage library. We constructed an operon fusion of the lacZ gene with the pqi-5 promoter to monitor the expression of the gene in the single-copy state. LacZ expression was induced about 7- to 13-fold by 77 to 780 microM paraquat. Other known superoxide generators such as menadione, phenazine methosulfate, and plumbagin also induced the expression of beta-galactosidase in this fusion strain. On the other hand, no significant induction was observed with treatment with hydrogen peroxide, ethanol, and heat shock. Induction of beta-galactosidase was significantly reduced by introducing a delta sox-8::cat or soxS3::Tn10 mutation into the fusion strain, indicating that pqi-5 is a member of the soxRS regulon. A DNA fragment containing the pqi-5 promoter was cloned and sequenced from the Kohara phage E2E5. We identified two pqi-5 open reading frames (ORFs); ORF-A encodes a predicted protein of 342 amino acids, and ORF-B is truncated at the cloning site. The transcription start site from the pqi-5 promoter was determined by primer extension and S1 nuclease protection analyses. Northern (RNA) and S1 analyses indicated that there are two kinds of pqi-5 transcript; one covers ORF-A only and the other covers ORF-A and possibly also ORF-B.
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PMID:Isolation of a novel paraquat-inducible (pqi) gene regulated by the soxRS locus in Escherichia coli. 775 Dec 75

In the thermophilic archaeon Methanobacterium thermoautotrophicum Marburg, the structural gene for isoleucyl-tRNA synthetase (ileS) is flanked upstream by orf401 and downstream by purL. orf401 encodes a 43.5-kDa protein with an unknown function. Northern (RNA) hybridization and S1 nuclease protection experiments showed that the orf401, ileS, and purL genes are cotranscribed from an archael consensus promoter in front of orf401. The corresponding transcript was about eightfold increased in cells that had been exposed to pseudomonic acid A, a specific inhibitor of isoleucyl-tRNA synthetase. Growth inhibition by puromycin, tryptophan starvation, or starvation for hydrogen did not affect the level of this transcript. The level of a trpE transcript, however, was drastically elevated upon tryptophan starvation, while inhibition by pseudomonic acid A had no effect on the level of this transcript. Expression of ileS thus appears to be controlled by a regulatory mechanism which specifically responds to the availability of isoleucyl-tRNA. Extensive decay of the orf401-ileS-purL message was observed. Degradation occurred, presumably by endonucleolytic cleavage, within the orf401 region.
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PMID:Transcription of the ileS operon in the archaeon Methanobacterium thermoautotrophicum Marburg. 837 40

Linear oligonucleotides that bind to single-stranded nucleic acid targets by formation of both Watson-Crick (duplex) and Hoogsteen (triplex) hydrogen bonds simultaneously (foldback triplex-forming oligonucleotides; FTFOs) were studied for their ability to disrupt duplex DNA. Recently, we reported that FTFOs interfere with quadruplex forming ability of guanine rich RNA and DNA sequences and indicated that they might also disrupt duplex structures binding to the purine target strand by foldback triplex formation (Kandimalla and Agrawal, Nucleic Acids Res. (1995) 23, 1068-1074). We now obtained evidence for strand displacement of duplex DNA by FTFOs using nuclease assays and thermal melting studies. UV melting studies revealed that complementary strands of 16 to 31 bases long were completely displaced. Results of DNase I assays showed that the FTFOs bound to purine site by strand displacement probably by preassociating with the duplex DNA in the major groove via Hoogsteen hydrogen bonding and subsequently displacing the complementary strand. Experiments with S1 nuclease, an enzyme specific for single-stranded nucleic acids, confirmed the strand displacement ability of the FTFOs.
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PMID:Single strand targeted triplex formation: strand displacement of duplex DNA by foldback triplex-forming oligonucleotides. 882 28

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