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)

The promoter region of two bacterial rRNA genes was investigated by electron-microscopic analysis of polymerase binding, transcription initiation and nitrocellulose filtration of RNA-polymerase-DNA complexes, using restriction endonuclease generated fragments of recombinant plasmids and a transducing phage. The following observations have been made: 1. Two transcription initiation sites have been located approximately 200 and 300 base pairs upstream from the beginning of the sequence coding for mature 16 S rRNA. 2. Polymerase binding at these sites can be observed electronmicroscopically and a 360 base-pair fragment containing these sites binds to nitrocellulose in the presence of RNA-polymerase. This complex dissociates even at moderately high (0.1-0.2 M) salt concentrations. Although transcription initiation is reported to be more frequent at the first of these sites, the binding is much stronger at the second site. 3. In the case of the rrnD gene, BamHI cleaves a few base pairs upstream from the first transcription start site. This cleavage destroys polymerase binding at this site but does not influence binding at the second site. 4. At higher polymerase/DNA ratio four weak but distinct and regularly spaced binding sites can be observed preceding the two initiation sites at approximately 1000, 820, 640 and 440 base pairs before the mature 16 S rRNA sequence. 5. An extremely strong binding site is located about 1300 base pairs upstream from the beginning of the 16 S rRNA sequence. Very little (if any) initiation occurs at this site. The possibility is discussed that the noninitiating binding sites preceding the two transcription start points might functionally belong to the promoter region.
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PMID:RNA-polymerase binding at the promoters of the rRNA genes of Escherichia coli. 615 22

Highly repeated, or satellite, DNA fractions have been isolated from total Triturus cristatus carnifex DNA by renaturation kinetics, caesium salt centrifugation and restriction endonuclease digestion. We have shown by DNA/DNA in situ hybridisation and autoradiography that all of these probes bind to C-band positive regions on mitotic or lampbrush chromosomes of T.c. carnifex. Under conditions of DNA to RNA-transcript in situ hybridisation labelled satellite DNA binds to nascent RNA transcripts that are still associated with the DNA axes of many lampbrush loops. The majority of the loops that label heavily in these experiments are located on the long arms of chromosome I, a region previously shown to be rich in highly repeated DNA and to have many of the properties of heterochromatin. These satellite DNA probes also label many loops on a comparable chromosome region in T. marmoratus, a species closely related to T. cristatus. However, in DNA/RNA-transcript hybrids to other more distantly related species of Triturus, there are no chromosome regions that have the same concentration of labelled loop pairs as the long arms of T.c. carnifex and T. marmoratus, although some loop pairs do label. We have cloned two satellite sequences in pBR322, and have obtained the same results using these pure probes as we obtained using satellite probes isolated by other techniques. These results demonstrate unequivocally that satellite DNA is transcribed on lampbrush chromosomes during oogenesis in crested newts.
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PMID:Cytological evidence of transcription of highly repeated DNA sequences during the lampbrush stage in Triturus cristatus carnifex. 616 22

Bacteriophage T7 DNA reacts uniformly with trans-7,8-dihydroxy-anti-9,10-epoxy-7,8,9,10-tetrahydrobenzo(a)pyrene(anti-BPDE). The reaction product retains the native configuration so that only one site sensitive to S1 nuclease is produced for every 70 anti-BPDE adducts. DNA treated with anti-BPDE is retained on benzoylated naphthoylated DEAE-cellulose even after washing with 1.0 M salt solutions. About 100 adducts per T7 molecule are required for adherence which is not due to breaks or single-stranded regions since adherence is not affected by S1 nuclease treatment. The binding of anti-BPDE reacted DNA to benzoylated naphthoylated DEAE-cellulose is cooperative and requires many residues per bound fragment. Treatment of T7 DNA treated with anti-BPDE with restriction endonuclease yields smaller molecules, still containing adducts, which do not adhere. We interpret these results to mean that reaction with BPDE does not involve deformation of the DNA structure and that the adducts lie in a position which they are readily accessible for interaction with aromatic groups on the column resin.
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PMID:Reaction of T7 DNA with a polycyclic aromatic hydrocarbon. Lack of structural perturbation. 624 97

Herpes simplex virus type 1 (HSV-1) and type 2 (HSV-2) DNA polymerases were highly purified from infected HeLa BU cells by DEAE cellulose, phosphocellulose and DNA cellulose column chromatography. DNA exonuclease activity but not endonuclease activity was found associated with both types of DNA polymerase. Both DNA polymerase activities could be activated by salt in a similar fashion with the optimal activity in the range of ionic strength between 0.22 and 0.29 alpha. At an ionic strength of 0.14, spermidine and putrescine in the concentration range (0--5 mM) studied could mimic the action of KCI in stimulating DNA polymerase activity. Spermine, in the same concentration range, had a biphasic effect. At an ionic strength of 0.29 all three polyamines were inhibitory. HSV-1 and HSV-2 DNA polymerase are similar in their column chromatographic behavior, sedimentation rate in sucrose gradient centrifugation, and activation energy, but they differ in their heat stability at 45 degrees C with the HSV-2 enzyme more stable than the HSV-1 enzyme. Kinetic behavior of both enzymes is similar, with Km values for deoxyribonucleoside triphosphates in the range of 5 . 10(-7) to 1.8 . 10(-8) M. IdUTP and dUTP served as apparent competitive inhibitors with respect to dTTP, and AraATP acted as an apparent competitive inhibitor with respect to dATP. AraATP could not replace dATP in the DNA polymerization reaction; in contrast, IdUTP could replace TTP. Phosphonoformic acid behaved as an uncompetitive inhibitor with respect to DNA. The ID(50) value estimated was foind to be dependent on the purity of the DNA polymerase used and the ionic strength of the assay condition. Each DNA-polymerase associated DNA exonuclease had the same stability at 45 degrees C as its DNA polymerase. The associated DNAase activity was inhibited by phosphonoformic acid and high ionic strength of the assay condition.
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PMID:Properties of herpes simplex virus type 1 and type 2 DNA polymerase. 625 Jun 18

It has been shown previously (Polisky, B., Green, P., Garfin, D. E., McCarthy, B. J., Goodman, H. M., and Boyer, H. W. (1975) Proc. Natl. Acad. Sci. U. S. A. 72, 3310-3314; Hsu, M., and Berg, P. (1978) Biochemistry 17, 131-138) that the cleavage sequence specificity of Eco RI endonuclease can be "relaxed" by various means. In this paper this phenomenon is explored in detail, in order to obtain further insight into the nature and selectivity of sequence recognition patterns between proteins and double-stranded nucleic acids. Using conditions of low ionic strength and alkaline pH, we have mapped the positions of potentially cleavable sites in the (completely sequenced) replicative form of the bacteriophage phi X174 genome, and have deduced their sequence. The time course of digestion of phi X174 DNA suggests that double-stranded sequences reading GGATTT, AAATTT, GAATTT, and GAATTA (only "top" strands, written 5' leads to 3', are shown) are cleaved readily under these conditions, while sequences reading CAATTN (N = A, T, G) resist attack. Cleavages at (at least) the more labile sites result in cohesive ends that are religatable. End group analysis of cleaved phi X174 DNA fragments indicates the presence of a 5'-terminal adenine residue on most of the fragments; some fragments may carry a 5'-terminal guanine residue, consistent with the cleavage site sequences suggested above. Addition of Mn2+ to cleavage reactions carried out at moderate salt concentrations and near-neutral pH induces the same pattern of cleavage seen at low ionic strength and alkaline pH. These results are combined with those from other studies, and are interpreted in terms of a model for the site-specific interaction of the Eco RI endonuclease with its substrate, considering both the effects of changes in DNA sequence and of environmental alterations. The resulting model is compared with data developed on similar grounds for Eco RI methylase (see Woodbury, C. P., Downey, R. L., and von Hippel, P. H. (1980) J. Biol. Chem. 255, 11526-11533), and attempts are made to define both common and differing molecular facets of the DNA recognition specificity of these companion (but genetically distinct) enzymes.
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PMID:DNA site recognition and reduced specificity of the Eco RI endonuclease. 625 72

A procedure for simultaneous large-scale purification of the bacteriophage-T4-induced polynucleotide kinase, DNA ligase, RNA ligase and DNA polymerase has been developed. The method involves bacterial cell disruption by sonication, fractionation of cell extract with polymin P, salt elution from the polymin pellets, ammonium sulfate precipitation, and subsequent column chromatography purification of the enzymes. To enrich the enzyme content highly in the initial source non-permissive Escherichia coli B-23 cells infected with T4 amN82 phage were used. The procedure described is rapid, reproducible, high in yield, and able to handle preparations using from 1 g to 200 g cell paste. It can be easily scaled up. The method results in large amounts of the enzymes with very high specific activities, good stability essential lacking exonuclease and endonuclease contamination. The final enzyme preparations were efficiently used in DNA sequencing and in multiple experiments on construction of various recombinant DNAs for cloning and expression in vivo.
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PMID:A new procedure for the simultaneous large-scale purification of bacteriophage-T4-induced polynucleotide kinase, DNA ligase, RNA ligase and DNA polymerase. 626 Apr 93

Human polyomavirus JC DNA was purified directly from the diseased brain tissue of two patients with progressive multifocal leukoencephalopathy (PML) by a method employing differential salt precipitation (B. Hirt, J. Mol. Biol. 26:365-369, 1967). Each of the viral genomes (JC-NIH-1 and JC-NIH-2) was molecularly cloned intact in Escherichia coli, using pBR322, at their unique EcoRI (0.00 map unit) and BamHI (0.51 map unit) sites. The JC-NIH-1 genome was approximately 50 base pairs larger and the JC-NIH-2 genome was approximately 50 base pairs smaller than the prototype human polyomavirus JC (Mad-1) DNA. Analysis of the restriction endonuclease cleavage fragments of these two DNAs and the human polyomavirus JC (Mad-1) DNA revealed only slight differences which mapped in a region of the genome extending from 0.67 to 0.74 map unit. From previous homology studies, this region of variance corresponds to the noncoding region to the late side of the origin of DNA replication.
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PMID:Analysis of JC virus DNA purified directly from human progressive multifocal leukoencephalopathy brains. 626 42

Endonuclease V from E. coli infected with phage T4 was used to evaluate the frequency and the removal of pyrimidine dimers from DNA in cultured mammalian cells. Cellular membranes were made permeable to the enzyme by two cycles of rapid freezing and thawing. The number of endonuclease-sensitive sites in DNA was assayed by sedimentation in alkaline sucrose gradients upon which the cells were lysed directly. Comparison of the frequency of endonuclease-sensitive sites with the frequency of pyrimidine dimers determined by chromatographic analysis of hydrolysed DNA indicated that about 50% of the dimers in the permeabilized cells were substrates for T4 endonuclease V. This was confirmed by observation that when DNA treated with the enzyme in situ was purified, it contained the expected additional number of endonuclease-sensitive sites if again treated with the enzyme. The percentage of pyrimidine dimers recognized by T4 endonuclease V was enhanced to nearly 100% by exposing the permeabilized cells to 2 M NaCl before the enzyme was introduced. This method allowed the measurement of frequencies of endonuclease-sensitive sites after doses of UV irradiation at low as 0.5 J/m2. Loss of endonuclease sites from cellular DNA was observed during post-irradiation incubation of V79 Chinese hamster cells and several human cell strains. A comparison of the results obtained in human cells with or without the high-salt exposure before endonuclease treatment suggested that the dimers recognized under low-salt conditions may be removed slightly faster than those recognized only after high-salt exposure.
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PMID:Sensitive determination of pyrimidine dimers in DNA of UV-irradiated mammalian cells. Introduction of T4 endonuclease V into frozen and thawed cells. 626 56

An endonuclease, which is found only in the mitochondrion of the yeast Saccharomyces cerevisiae, has been purified. The protein has a sedimentation coefficient of 6.3 S, equivalent to a molecular weight of 105,000. The enzyme is active at pH 7.6, when it degrades single-stranded DNA about 10-times faster than double-stranded DNA, but at pH 5.4 only double-stranded DNA is degraded. In both cases the enzyme acts endonucleolytically, breaking a single phosphodiester bond at a random location within the DNA substrate. Mn2+ or Mg2+ are required for activity; Ca2+ and Zn2+ are ineffective cofactors. Enzyme activity at pH 7.6 is severely inhibited by low concentrations of NaCl or KCl, while activity at pH 5.4 is unaffected by salt. Ethidium bromide inhibits both the DNase activity at pH 5.4 and the activity with single-stranded DNA at pH 7.6, but has no effect on the DNase activity with double-stranded DNA at pH 7.6.
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PMID:Purification and properties of an endonuclease from the mitochondrion of Saccharomyces cerevisiae. 627 19

DNA fragments from Pseudomonas aeruginosa carrying the PaeR7 restriction/modification genes have been cloned in the plasmid vector pBR322 and propagated in Escherichia coli. A subclone (pPAORM3.8) has been constructed that contains the complete restriction/modification system on a 3.8-kilobase DNA fragment. Digestion of the pPAORM3.8 plasmid with nuclease BAL-31 has yielded two types of clones. One type contains an active methylase gene but no active endonuclease gene; such clones will modify the DNA but not restrict the growth of incoming phage in vivo. The second type contains an active endonuclease gene but no active methylase gene, as judged both by in vivo tests and by the activity of the cell extracts in vitro. Although extracts of cells containing these plasmids display restriction endonuclease activity, these bacteria are unable to restrict the growth of incoming phage. Furthermore, chromosomal and phage DNA isolated from these host cells are not protected against cleavage by PaeR7 in vitro. The properties of PaeR7 endonuclease and methylase enzymes have also been examined. The PaeR7 restriction endonuclease recognizes and cleaves the sequence C decreased T-C-G-A-G, as does Xho I. However, there exists a canonical Xho I site at 26.5% on the adenovirus 2 genome which is totally refractory to PaeR7 cleavage but is cut by Xho I. Under conditions of low salt, high glycerol, and high enzyme concentrations, a "PaeR7" activity is found that is similar to that observed for EcoRI. Finally, evidence is presented that the PaeR7 methylase modifies the adenine residue within the recognition sequence.
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PMID:Cloned restriction/modification system from Pseudomonas aeruginosa. 630 Aug 41

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