EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Electron microscopy of UV-irradiated circular DNA molecules which had been treated with T4 endonuclease V revealed the formation of multimeric DNA structures in addition to the expected conversion of the superhelical DNA molecules into nicked circular and linear forms. The multimeric DNA molecules could be distinguished in electron micrographs from catenated molecules which were present in the original DNA preparation by a combination of rotary and single angle heavy metal shadowing. The complexity and frequency of these structures increased with time of reaction with endonuclease V. Their formation, as well as the endonuclease activity of enzyme, was dependent on UV irradiation of the DNA, and the complexes could be disrupted by prior phenol extraction and ethanol precipitation. Preparations of endonuclease V estimated to be 98% pure by mass promoted the same complex formation between DNA molecules as did preparations estimated to be only 5-10% pure. In addition to these intermolecular structures, the formation of complexes between regions on the same DNA molecules was manifest as discrete double-stranded 'loops' 200-300 base pairs in length. DNA 'bubble structures' were also observed and may represent folding of the 'loops' onto adjacent segments of DNA. These results suggest that at least one active form of T4 endonuclease V may be a multimeric complex of enzyme molecules in association with DNA.
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PMID:T4 endonuclease V promotes the formation of multimeric DNA structures. 354 3

Supercoiled DNA molecules were used for the molecular cloning of full-length avian sarcoma virus (ASV) DNA. Viral DNA produced by the Schmidt-Ruppin A (SR-A) strain of ASV was isolated from acutely infected transformed quail cells. Supercoiled DNA was separated from linear and open circular DNA by acid phenol extraction, opened into a full-length linear form by cleavage with the restriction endonuclease SacI, and cloned into lambda gtWES x lambda B. Four different cloned viral DNA molecules were isolated: SRA-1 contains two copies of the 330-base pair terminal redundancy normally found at each end of the linear DNA molecules, but harbors a 63-base pair deletion that spans the site at which the two copies of the terminal redundancy are joined in circular DNA molecules; SRA-2 contains two complete copies of the terminal redundancy; SRA-3 probably contains only one copy of the terminal redundancy but in all other respects appears to be similar to SRA-2; SRA-4 contains a 2,500-base pair deletion that removes all of the src gene (the gene responsible for transformation by ASVs) plus additional nucleotides adjacent to the src gene whose precise locations have not been determined. Transfection of chicken embryo fibroblasts by either SRA-1 or SRA-2 resulted both in the appearance of transformed cells and in the production of infectious virus. These results demonstrate that the cloned DNA molecules are functionally identical to viral DNA produced in vivo; therefore, molecular cloning did not cause any major alterations of the DNA. The infectivity of SRA-1 DNA indicates that the 63 base pairs missing from that molecule are not required for the initiation of viral RNA synthesis, even though the deletion is located in a copy of the terminal redundancy thought to carry a promoter for RNA synthesis. This suggests that the deletion does not remove any sequences required for the initiation of transcription.
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PMID:Molecular cloning and characterization of avian sarcoma virus circular DNA molecules. 625 14

Immunoprecipitable double-stranded (dsDNA) was previously shown to persist in the circulation of a clinically recognizable subgroup of patients with systemic lupus erythematosus (SLE). Plasma from 10 such patients was subjected to a DNA isolation procedure that used a combination of proteolysis, phenol extraction, and hydroxylapatite adsorption and elution in the presence of urea. The isolated dsDNA was radiolabeled by nick translation and then characterized by isopyknic ultracentrifugation in CsCl under both neutral and alkaline conditions, as well as after digestion with S1-endonuclease. These experiments demonstrated essential identity in nucleotide base composition between the plasma-derived DNA and human genomic DNA. The presence of specific human base sequences in the plasma DNA was demonstrated by finding that authentic human genomic DNA accelerated the renaturation of plasma DNA when compared with the effect of nonhuman, control DNA. The proportion of such sequences in plasma DNA was estimated by attempting to renature the plasma DNA in the presence of human DNA under conditions shown to result in complete renaturation of human DNA in model experiments. In this way, a minimum of 47% of plasma DNA base sequences could be shown also to be present in human genomic DNA. However, an average of 10-20% of the plasma-derived DNA failed to renature under these conditions, a result that was further confirmed by comparing the renaturation of the tritium-labeled plasma DNA specimens, in double-label experiments, with internal controls consisting of 14C-labeled authentic human DNA. Attempts to drive the reaction to completion with human DNA led to a similar conclusion. The relative nonrenaturability of this fraction of plasma DNA did not appear to be attributable to extensive chain breakage, although adequate analysis of this DNA subfraction was limited by reagent availability. It was therefore concluded that, in this group of SLE patients, persistently circulating DNA consisted largely of base sequences also found in human genomic DNA. The additional presence in plasma of a DNA subfraction that differed in its renaturation behavior from human genomic DNA was recognized, although its significance could not be established with certainty.
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PMID:Circulating DNA in systemic lupus erythematosus. Isolation and characterization. 632 28

Based on the results of a systematic study of factors affecting plasmid yield and purity, a procedure suitable for the rapid screening for and isolation of covalently closed circular DNA from Streptomyces lividans and Escherichia coli was developed. The method consists of lysis of lysozyme-treated bacteria combined with alkaline denaturation of DNA at high temperature. Renaturation of CCC DNA and precipitation of single-stranded DNA together with protein is achieved by the addition of a minimal amount of phenol/chloroform. The screening procedure uses only a single tube and the samples can be analyzed by agarose gel electrophoresis about 30 min after lysis. Removal of phenol and further purification of the plasmid preparation is achieved by consecutive precipitations with isopropanol and spermine, followed by extraction with ethanol, producing samples suitable for restriction endonuclease digestion, ligation, and transformation of S. lividans protoplasts or competent E. coli cells in about 2 h. All steps of the procedure are explained in detail with information about the effects of changing parameters. This should help the experimenter to obtain reproducible results and may be useful if the method has to be adapted to new strains or plasmids.
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PMID:Factors affecting the isolation of CCC DNA from Streptomyces lividans and Escherichia coli. 638 33

Procedures are described for the detection and isolation of plasmids of various sizes (2.6 to 350 megadaltons) that are harbored in species of Agrobacterium, Rhizobium, Escherichia, Salmonella, Erwinia, Pseudomonas, and Xanthomonas. The method utilized the molecular characteristics of covalently closed circular deoxyribonucleic acid (DNA) that is released from cells under conditions that denature chromosomal DNA by using alkaline sodium dodecyl sulfate (pH 12.6) at elevated temperatures. Proteins and cell debris were removed by extraction with phenol-chloroform. Under these conditions chromosomal DNA concentrations were reduced or eliminated. The clarified extract was used directly for electrophoretic analysis. These procedures also permitted the selective isolation of plasmid DNA that can be used directly in nick translation, restriction endonuclease analysis, transformation, and DNA cloning experiments.
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PMID:Rapid procedure for detection and isolation of large and small plasmids. 700 83

Hepatitis B virus DNA contains a tightly bound protein which was not removed by healing to 60 degrees C with 2% SDS, 2% mercaptoethanol. The protein was indirectly demonstrated by the extraction of the DNA-protein complex with phenol before but not after its digestion with proteinase K. The DNA-protein complex had a lower buoyant density than protease-treated or free DNA; it was bound to glass fiber filters; it migrated at a slower rate in gel electrophoresis; and it could be radiolabeled by oxidative iodination. The binding site of the protein was mapped by extraction of restriction endonuclease digests with phenol and analysis of the digests for missing DNA fragments. The protein was localized to a site near the 5' end of the complete viral DNA strand. It remained attached to this strand after heating with SDS to 90 degrees C or treatment with 0.1 N NaOH, suggesting a covalent linkage. The 5' end of neither viral DNA strand could be phosphorylated in a reaction with polynucleotide kinase, consistent with attachment of protein to the 5' ends. The incomplete DNA strand, however, which is the strand elongated by the virion DNA polymerase reaction, did not contain a detectable amount of polypeptide as did the complete strand. The reasons for the apparent block of the 5' end of the incomplete DNA strand is thus not known. The protein bound covalently to HBV DNA could be involved in the replication of the complete viral DNA strand and/or endonucleolytic generation of linear unit-length DNA pieces from replicative intermediates, although its function and origin are not yet known.
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PMID:Hepatitis B virus contains protein attached to the 5' terminus of its complete DNA strand. 743 7

Peptides of 5 and 8 residues encoded by the leaders of attenuation regulated chloramphenicol-resistance genes inhibit the peptidyltransferase of microorganisms from the three kingdoms. Therefore, the ribosomal target for the peptides is likely to be a conserved structure and/or sequence. The inhibitor peptides "footprint" to nucleotides of domain V in large subunit rRNA when peptide-ribosome complexes are probed with dimethyl sulfate. Accordingly, rRNA was examined as a candidate for the site of peptide binding. Inhibitor peptides MVKTD and MSTSKNAD were mixed with rRNA phenol-extracted from Escherichia coli ribosomes. The conformation of the RNA was then probed by limited digestion with nucleases that cleave at single-stranded (T1 endonuclease) and double-stranded (V1 endonuclease) sites. Both peptides selectively altered the susceptibility of domains IV and V of 23S rRNA to digestion by T1 endonuclease. Peptide effects on cleavage by V1 nuclease were observed only in domain V. The T1 nuclease susceptibility of domain V of in vitro-transcribed 23S rRNA was also altered by the peptides, demonstrating that peptide binding to the rRNA is independent of ribosomal protein. We propose the peptides MVKTD and MSTSKNAD perturb peptidyltransferase center catalytic activities by altering the conformation of domains IV and V of 23S rRNA. These findings provide a general mechanism through which nascent peptides may cis-regulate the catalytic activities of translating ribosomes.
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PMID:Peptide inhibitors of peptidyltransferase alter the conformation of domains IV and V of large subunit rRNA: a model for nascent peptide control of translation. 756 91

An efficient method is described for the purification of Ti plasmid DNA from Agrobacterium. The procedure is based on the relative binding capacity of ethidium bromide to supercoiled plasmid DNA and linear DNA and on the high solubility of ethidium bromide in phenol. Following treatment with ethidium bromide, more than 87% of linear chromosomal DNA and most of the RNA was present in the phenol phase, while 91% of Ti plasmid DNA was recovered from the aqueous phase. The Ti plasmid DNA was sufficiently pure for restriction endonuclease analysis and cloning. The procedure is simple, fast and provides eight times higher yield than the standard isopycnic ultracentrifugation method.
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PMID:Rapid purification of Ti plasmids from Agrobacterium by ethidium bromide treatment and phenol extraction. 776

An improved method for the extraction of viral RNAs was developed to facilitate the reverse transcription (RT)-PCR detection of mosquitoes infected with Western equine encephalitis virus or La Crosse virus. The solubilization method, which uses only EDTA and sodium dodecyl sulfate (SDS) followed by dilution of sample, allows accurate viral detection through the use of random hexamers for the RT followed by specific primers for the PCR. Identities of the reaction products were confirmed either by sequencing or restriction endonuclease digestion. Previous methods for the extraction of RNA for the coupled RT-PCR depended on combinations of guanidinium isothiocyanate, acid phenol, detergents and multiple centrifugations. Ideally, routine detection of viral RNAs for diagnostic purposes should bypass many of the above steps, while still providing a sensitive assay. Our level of detection is 1 infected mosquito in a group of 100.
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PMID:PCR-based detection of arboviral RNA from mosquitoes homogenized in detergent. 794 93

The hyperbilirubinemic Gunn rat lacks hepatic UDP-glucuronosyltransferase (UDPGT) activity toward bilirubin and has been used as an animal model for human Crigler-Najjar syndrome type I. Rat liver bilirubin UDPGT cDNA was isolated. The cDNA shared an identical 913-bp sequence (corresponding to the C-terminal 247 amino acid residues) with that for phenol UDPGT whose activity was also deficient in the Gunn rat. The bilirubin UDPGT gene was mapped at the position of 37 on mouse chromosome 1 by analyzing restriction endonuclease fragment length variations using the rat bilirubin UDPGT cDNA as a probe. The genetic defect of bilirubin UDPGT in the mutant rat was proved to be a -1 frameshift mutation. The mutation was found not only to be located in the region where the cDNA for bilirubin UDPGT shared the identical sequence with that for phenol UDPGT but also to occur in the same position in the two cDNAs from the mutant.
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PMID:[Genetic defect of the hyperbilirubinemic Gunn rat, a model for Crigler-Najjar syndrome type I]. 809 54

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