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)

A method for the in vitro selection of mutant DNA has been devised as an adjunct to the recently developed method for the use of short enzymatically-synthesized oligodeoxyribonucleotides of defined sequence as site-specific mutagens for circular DNA. The selection method uses the mutating oligodeoxyribonucleotide as a primer for Escherichia coli DNA polymerase I (large fragment) under conditions where there is preferential interaction with mutant DNA template. After ligation using T4 DNA ligase, endonuclease S1 is used to degrade single-stranded non-mutant DNA leaving the desired mutant as closed circular duplex DNA. This paper describes the development of the method using mutants in phi X174 DNA as the model system. Studiies on the changes A leads to G and G leads to A at position 587 of phi X174 viral DNA (am3 to wild-type and its reversal) show that one or two cycles of selection can lead to a population of phage consisting of close to 100% mutants.
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PMID:Site-specific mutagenesis using synthetic oligodeoxyribonucleotide primers: II. In vitro selection of mutant DNA. 16 Dec 46

The structure of DNA from the temperate Bacillus subtilis phage phi105 was examined by using the restriction endonuclease EcoRI and by sedimentation analysis. The DNA contains six EcoRI cleavage sites. Although eight DNA fragments were identified in the EcoRI digests, the largest of these was shown to consist of the two fragments that carry the cohesive ends of the phage DNA. In neutral gradients, the majority of whole phi105 DNA sedimented as nicked circles and the remainder as oligomers. No unit-length linear structures were detected. The associated cohesive ends could be sealed by DNA ligase from Escherichia coli and could be cleaved by S1 nuclease. On the basis of these results and previously reported studies, it appears that, as isolated from phage particles, phi105 DNA is a circular molecule that is formed from the linear structure by the association of complementary single-stranded DNA.
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PMID:Fragmentation of Bacillus bacteriophage phi105 DNA by complementary single-stranded DNA in the cohesive ends of the molecule. 40 73

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

Predefined changes in a known DNA sequence were introduced by a general method. Oligodeoxyribonucleotides complementary to positions 582 to 593 of the viral DNA strand of the bacteriophage phiX174 am3 mutant (pGTATCCTACAAA), and to the wild type sequence in this region (pGTATCCTACAAA), were synthesized and used as specific mutagens. Each of these oligonucleotides was incorporated into a complete circular complementary strand when used as primer on a genetically heterologous viral strand template, by the combined action of subtilisin-treated Escherichia coli DNA polymerase I and T4 DNA ligase. Incomplete duplexes were removed or were inactivated by nuclease S1 and the products were used to transfect spheroplasts of E. coli. Both oligonucleotides induced specific mutations at high efficiency when used with heterologous template (15% mutants among progeny phage). The am phages isolated by this procedure are phenotypically gene E mutants, and contain A at position 587 of the viral strand. They thus appear identical with am3 and provide evidence that the change G leads to A at position 587 is sufficient to produce a defective E function. Since the template for the induction of am mutants carried another genetic marker (sB1), the strains carrying the induced mutations have the new genotype am3 sB1. It should be possible to introduce the am3 mutation into any known mutant strain of phi174 using this same oligonucleotide. Both possible transition mutations were induced in these experiments. In principle, the method could also induce transversions, insertions, and deletions. The method should be applicable to other circular DNAs of similar size, for example recombinant DNA plasmids.
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PMID:Mutagenesis at a specific position in a DNA sequence. 68 66

The mitochondrial DNA of the protozoan Leishmania tarentolae, known as kinetoplast DNA, contains thousands of minicircles linked in a two-dimensional network. When kinetoplast DNA from exponentially growing cells is centrifuged to equilibrium in a CsCl/ethidium bromide gradient, it is resolved into two discrete components, Form I and Form II. Nearly all of the minicircles in Form I networks are covalently closed and all of those in Form II networks are open. These forms are indistinguishable from each other when examined by electron microscopy and they appear identical when analyzed by gel electrophoresis after digestion with the restriction enzymes Hae III or Hpa II. However, Form II networks sediment roughly 50% faster than Form I networks on a neutral sucrose gradient, indicating that Form II networks are larger in size or more compact in conformation, or both. Analysis of denatured Form II DNA by sedimentation or electron microscopy indicates that nearly all of its minicircles have one or more interruptions in both strands. Since the majority of the Form II minicircles can be closed by DNA ligase, most of these interruptions must be nicks. Experiments with S1 nuclease indicate that some small gaps may also exist in Form II minicircles. 5'-Terminal nucleotide analysis of Form II kinetoplast DNA does not suggest that the interruptions are at specific locations in the minicircles. The significance of the two forms of kinetoplast DNA has not yet been determined, but it is possible that Form II is an intermediate in replication of this DNA.
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PMID:A nicked form of kinetoplast DNA in Leishmania tarentolae. 89 2

The phr gene of Escherichia coli K-12 encodes the light-dependent, DNA repair enzyme photolyase, which removes UV light-induced pyrimidine dimers from cellular DNA. From Southern hybridization analysis of several strains containing successively extended phr deletions, we have determined the direction of transcription of the phr gene on the E. coli K-12 chromosome. Northern (RNA) hybridization analysis suggests that the phr gene is cotranscribed with a previously identified gene of unknown function (orf169) into two messages of different lengths. S1 nuclease mapping analysis indicates that the two transcripts share a single termination site but initiate at two different sites. Finally, we have determined that the presence of orf169 is not necessary for phr gene activity in vivo.
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PMID:Physical analysis of phr gene transcription in Escherichia coli K-12. 169 32

Choleraphage phi 149 DNA is a linear double-stranded molecule 69 X 10(6) Da or 104 kilobase pairs (kbp). From restriction enzyme analysis, it has been concluded that the DNA is circularly permuted. There are at least three S1 nuclease-sensitive sites along the length of the molecule. These sites represent single-strand interruptions repairable by T4 DNA ligase. A physical map of the DNA has been constructed using the restriction endonucleases BamH1 and BglII.
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PMID:Characterization and physical map of choleraphage phi 149 DNA. 298 31

An easy and quick method to synthesize large cDNA molecules and to clone them with very high efficiency in the expression vector lambda gt11 is described. The technique employs RNase H and Escherichia coli DNA ligase treatment during second-strand synthesis, followed by repair of the ds cDNA extremities by S1 nuclease and PolIk (Klenow fragment) treatment. This treatment allows efficient addition of suitable linkers and results in a 100-fold increase in the yield of cloned cDNA, when compared with other published techniques. Using 75 ng of poly(A)+ RNA from CHO cells, we have prepared a library of 1.1 X 10(7) clones. This library was screened with polyclonal antibodies raised against a 100-kDal nucleolar protein of CHO cells. Five recombinants were isolated with inserts of 500-2500 bp. The average size of cDNA obtained by this method is considerable: the 2500-bp cDNA represents 90% of the mRNA coding for the 100-kDal protein.
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PMID:A powerful method for the preparation of cDNA libraries: isolation of cDNA encoding a 100-kDal nucleolar protein. 299 85

The genomic double-stranded DNA of mycobacteriophage I3, when denatured with alkali, heat, formamide or dimethylsulfoxide, breaks down to heterogeneous-sized single-strand (ss) fragments smaller than the expected intact unit genome length suggesting the presence of random ss interruptions on both the strands. The occurrence of the interruptions at random is also demonstrated by two-dimensional gel electrophoresis of the restriction fragments of I3 DNA. These interruptions have no adverse effect on the phage infectivity or DNA transfectivity. Studies with nuclease BAL 31 and end-labeling analysis confirm the presence of random interruptions. Detailed analysis using T4 DNA ligase, nuclease S1 and DNA polymerase I Klenow fragment revealed that the interruptions are in the form of small gaps rather than single phosphodiester bond breaks. The average length of the gap is about 10 nucleotides long and there are 13 to 14 such gaps per DNA molecule.
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PMID:Presence of random single-strand gaps in mycobacteriophage I3 DNA. 378 Dec 46

The CDC9 gene of Saccharomyces cerevisiae encodes a DNA ligase, and we have determined the nucleotide sequence of a 3.85 kb fragment of DNA which encompasses the convergently transcribed CDC9 and CDC36 genes. S1 nuclease mapping has revealed a major 5' end for the CDC9 mRNA, and one major and one minor site for 3' polyadenylation. These two sites lie within the C-terminal coding region of the CDC36 gene, implying that these two genes are transcribed from overlapping sequences. An interesting structural feature of the CDC9 gene is a series of 6 hexanucleotide repeats (ATGATT) which occur within the 650 bp immediately upstream from the site of transcription initiation. These repeat elements may be implicated in the cell division cycle regulated expression of CDC9. Comparison of the predicted amino acid sequence of the yeast DNA ligase (Mr 84,806) with the sequences of the T4 and T7 bacteriophage DNA ligases reveals little similarity except for a stretch of approximately 45 amino acids, comprising 3 short homologous segments. This region may represent an ATP-binding domain common to polynucleotide ligases.
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PMID:The nucleotide sequence of the DNA ligase gene (CDC9) from Saccharomyces cerevisiae: a gene which is cell-cycle regulated and induced in response to DNA damage. 390 3

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