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)

Initiator tRNAs have an anticodon loop conformation distinct from that of elongation tRNAs as detected by susceptibility to S1 nuclease. We now find the anticodon loop conformation of E. coli tRNAfMet to be stable under different salt conditions as detected by using S1 nuclease as a structural probe. In contrast, a conformational change is observed in the T- and D- loop of this tRNA in the absence of added Mg2+. This change can be suppressed by spermine. Even under those conditions effecting a change in T- and D- loop conformation, the anticodon loop does not change. This suggests that the conformational shift is controlled by Mg2+ and restricted to the D- and T- loop region only without affecting the anticodon domain. The use of S1 nuclease as a conformational probe requires the use of kinetic studies to determine the initial cleavage sites. Thus, the use of a strong inhibitor which immediately stops the action of this nuclease is necessary. ATP is shown to be such an inhibitor.
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PMID:Stability of the unique anticodon loop conformation of E.coli tRNAfMet. 4 Dec 23

An alkaline nuclease was purified from microplasmodia of Physarum polycephalum. The nuclease, active on denatured DNA and RNA and free of contamination by other nucleolytic activities, appeared to be a zinc-metallo protein. The enzyme was only active under conditions, where Zn2+ were retained in the enzyme. Loss of zinc occurred by the chelating action of EDTA, EGTA or ampholines, by acid of highly alkaline pH conditions or by high ionic strength. The addition of ZnCl2 to compensate losses, restored all activity, while all other divalent cations caused inhibition. The nuclease, with a molecular weight of 32 000, was stable at neutral pH at high temperatures with a half-life of 20 min at 80 degrees C. It was inhibited by any salt of buffer concentration above the level of zero ionic strength and showed a special sensitivity towards phosphate ions. The possible similarity of this enzyme to nuclease S1 from Aspergillus oryzae is pointed out.
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PMID:Purification of an alkaline nuclease from Physarum polycephalum. 4 84

Using purified single-stranded ovalbumin complementary DNA (cDNAov) as a template for avian myeloblastosis (AM) virus reverse transcriptase, we have enzymatically synthesized a complete double-stranded cDNAov sequence. Our data suggests that many single-stranded cDNAov molecules contain short double-stranded sequences (hairpins) at their 3' termini capable of acting as primers for synthesis of complete double-stranded cDNAs. Optimum conditions for synthesis of the double-stranded cDNAov were found to be a high temperature (46 degrees) and a low salt concentration. Nevertheless, in all cases 40% of the initial single-stranded cDNAov molecules fail to prime for synthesis of a complementary double strand. Following synthesis, the second DNA strand is covalently linked to the first cDNAov strand as shown by analysis on alkaline sucrose gradients. The two strands have a high Tm on hydroxylapatite (89 degrees). These intact double-stranded cDNAov structures have a bouyant density in CsCl gradients of 1.700 g/cm3 and rapidly renature after heat denaturation with a C0t1/2 value of less than 2 X 10(-6) mol s liter(-1). All size classes of cDNAs, i.e. partial as well as complete transcripts of the mRNA, are capable of forming double-stranded structures. The closed loop of the double-stranded cDNAov could be opened with S1 nuclease. The denatured complementary strands of the cDNAov then renatured with the appropriate second order kinetics at a C0t1/2 value of 1.89 X 10(-3) mol s liter(-1). Using the enzyme terminal deoxyribonucleotidyltransferase to label to free 3'-terminal end of double-stranded [32P]cDNAov with 3H, we demonstrate a convenient procedure to study the site for restriction endonuclease cleavage within the ovalbumin gene.
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PMID:The ovalbumin gene. In vitro enzymatic synthesis and characterization. 6 59

Sequential reverse transcriptase, DNA polymerase, and S1 nuclease reactions can be employed to synthesize double-stranded DNA representing messenger RNA. Using reverse transcriptase products made from partially purified lysozyme, ovomucoid, and ovalbumin messengers from hen oviduct, we have characterized the Escherichia coli DNA polymerase I reaction. We have optimized for a high yield of full length second strands under conditions which require only a small amount of mRNA. The effects of several parameters (time, enzyme levels, salt concentration, monovalent cation, and temperature) on the length of products synthesized by DNA polymerase I have been investigated. Each has a significant influence on the proportion of products which are full length. Under our conditions the three reactions are efficient in synthesizing full length duplex DNA from partially purified mRNA fractions or from total poly(A)-containing RNA.
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PMID:Synthesis of double-stranded DNA complementary to lysozyme, ovomucoid, and ovalbumin mRNAs. Optimization for full length second strand synthesis by Escherichia coli DNA polymerase I. 7 87

Hepatitis B virus DNA made fully double stranded by a virion DNA polymerase reaction could be converted from circular to linear molecules by heating in 10 mM NaCl at 77 degrees C or in 100 mM NaCl at 90 degrees C for 15 min. Heat-generated linear hepatitis B virus DNA was reannealed to circular molecules by incubating in higher salt concentrations. The identity of the molecular forms was established by their electrophoretic mobility and appearance in electron micrographs. Recircularization was blocked by reacting linear molecules with nuclease S1 or avian myeloblastosis virus reverse transcriptase. These results suggest that the heated linear DNA had single-stranded ends with complementary nucleotide sequences. It also suggests that a discontinuity or nick is present in each strand of the circular DNA molecule after the single-stranded region is made double stranded by the virion DNA polymerase reaction. The difference in contour length by electron microscopy of circular and linear molecules spread under aqueous conditions suggested that the discontinuities in the two strands were about 270 base pairs apart. The amount of nucleotide incorporated into the ends of heat-generated linear hepatitis B virus DNA by reverse transcriptase suggested that the single-stranded ends were about 305 bases in length. This fully double-stranded linear DNA was cleaved with EcoRI or HpaI restriction endonuclease. The sum of the two fragments generated by each totaled 3,510 base pairs, 310 base pairs greater than the contour length of circular hepatitis B virus DNA which represents a third estimate of the distance between the discontinuities in the two DNA strands of circular DNA. Restriction endonuclease cleavage also indicated that the ends of heated linear DNA which correspond to the discontinuities in the two strands of the circular DNA are at unique sites in the DNA with respect to the restriction sites.
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PMID:Hepatitis B viral DNA molecules have cohesive ends. 9 58

SV40 DNA FO I is randomly cleaved by S1 nuclease both at moderate (50 mM) and higher salt concentrations (250 mM NaC1). Full length linear S1 cleavage products of SV40 DNA when digested with various restriction endonucleases revealed fragments that were electrophoretically indistinguishable from the products found after digestion of superhelical SV40 DNA FO I with the corresponding enzyme. Concordingly, when the linear S1 generated duplexes were melted and renatured, circular duplexes were formed in addition to complex larger structures. This indicated that cleavage must have occurred at different sites. The double-strand-cleaving activity present in S1 nuclease preparations requires circular DNA as a substrate, as linear SV40 DNA is not cleaved. With regard to these properties S1 nuclease resembles some of the complex type I restriction nucleases from Escherichia coli which also cleave SV40 DNA only once, and, completely at random.
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PMID:Random cleavage of superhelical SV 40 DNA S1 nuclease. 17 52

A simple method for the isolation and characterization of DNA-DNA and DNA-RNA hybrid molecules formed in solution was developed. It was based on the fact that, in appropriate salt concentration, such as 5% Na2HPO4, DNA in either double-stranded (DNA-DNA or DNA-RNA) or single-stranded forms, but not free nucleotides, can bind to diethylaminoethylcellulose disc filters (DE81). Thus tested samples were treated with the single-strand-specific nuclease S1 and then applied to DE81 filters. The free nucleotides, resulting from degrading the single-stranded molecules, were removed by intensive washing with 5% Na2HPO4, leaving only the hybrid molecules on the filters. The usefulness of this method was illustrated in dissociation and reassociation studies of viral (SV40) or cellular (NIH/3T3) DNAs and DNA-RNA hybrid molecules. Using this technique the reassociation of denatured SV40 DNA was found to be a very rapid process. Dissociation studies revealed that the melting curves of tested DNAs were dependent on salt concentration. Thus the melting temperatures (tm) obtained for SV40 DNA were 76 degrees C at 1 X SSC (0.15 M NaCl-0.015 M sodium citrate) and 65 degrees C at 0.1 X SSC, and for NIH/3T3 DNA 82 degrees C at 1 X SSC and 68 degrees C at 0.1 X SSC. MuLV DNA-RNA hybrid molecules were formed by annealing in vitro synthesized MuLV DNA with 70S MuLV RNA at 68 degrees C. The melting temperature of this hybrid in the annealing solution was 87 degrees C. Another important feature of this procedure was that, after being selectively bound to the filters, the hybrid molecules could efficiently be recovered by heating the filters for 5 min at 60 degrees C in 1.5-1.7 M KCl. The recovered molecules were intact hybrids as they were found to be completely resistant to S1 nuclease.
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PMID:Isolation and characterization of DNA-DNA and DNA-RNA. 18 45

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

The kinetics of cleavage of superhelical PM2 DNA by the single strand-specific S1 nuclease is studied at various salt concentrations (0.01--1 MNaCl) by electrophoresis in neutral and alkaline agarose gels. Cleavage of different DNA forms (superhelical DNA I, relaxed circular DNA II and linear DNA III) is described by the kinetic equations of the first order, and respective rate constants k1, k2, and k3 are determined at all salt concentrations used. It is shown that a high salt concentration (not lower than 0.2 MNaCl) is necessary for high specificity of S1 nuclease action on DNA regions with impaired base pairing. Examination of the S1 nuclease preparation action on superhelical PM2 DNA may be used as a convenient and reliable assay of its specificity.
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PMID:[Cleavage of bacteriophage PM2 DNA by S1 nuclease]. 69 11

A scheme is presented for cloning a double-stranded cDNA molecule that codes for a portion of chicken preproalbumin. This method, which does not require pure mRNA or cDNA, has widespread applicability. Chicken preproalbumin was identified as a Mr = 72,000 polypeptide by immunoprecipitation of proteins synehesized in a wheat germ cell-free translation system from total, guanidine.HCl-extracted, rooster liver RNA. After removal of the bulk of the ribosomal RNA by poly(U)-Sephadex G-10 chromatography, albumin mRNA was enriched approximately 2-fold by centrifugation through low salt, isokinetic sucrose gradients, until it represented about 30% of the mRNA sequences present. Double-stranded cDNA prepared from this mRNA was then inserted into the Pst 1 site of the plasmid PBR322 by the "G-C tailing" technique and the recombinant DNA was used to transform Echerichia coli stran X1776. Transformants containing putative albumin DNA sequences were identified by colony hybridization with a cDNA probe that was highly enriched for albumin cDNA sequences. This probe was isolated by hybridizing the partially purified RNA preparation to its cDNA, under conditions of RNA excess, to a R0t value such that only the most abundant cDNA sequences had hybridized. Unhybridized, less abundant, sequences were destroyed by subsequent S1 nuclease digestion. The identity of clones that hybridized to this abundant class cDNA was established by DNA-mRNA hybrid-arrested cell-free translation. Hybridization of nick-translated, albumin-containing, plasmid DNA to total liver poly(A)+ RNA, that had been separated on methyl mercury agarose gels and transferred to diazobenzyloxymethyl paper, established that avian albumin mRNA has a molecular weight of 850,000. This molecular weight corresponds to approximately 2,600 nucleotides, or 600 nucleotides longer than the size required to code for the preproalbumin polypeptide.
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PMID:Cloning of a double-stranded cDNA that codes for a portion of chicken preproalbumin. A general method for isolating a specific DNA sequence from partially purified mRNA. 71 69

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