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)

A series of chimeric plasmids was constructed using colicinigenic factor E1 (ColE1) DNA as the replicon and DNA fragments carrying the galactose or tryptophan operons from E. coli. Restriction endonuclease EcoRI digests of ColE1 DNA and various DNAs containing the trp or gal operons were joined by T4 polynucleotide ligase [polynucleotide synthetase (ATP), poly(deoxyribonucleotide):poly(deoxyribonucleotide) ligase (AMP-forming), EC 6.5.1.1]. Chimeric plasmids carrying the desired genes were selected after transformation of Trp- or Gal- cells with ligated DNA. By using this method, we constructed ColE1-gal and ColE1-trp chimeric plasmids in which the source of the bacterial gal and trp operons was an unfractionated EcoRI digest of total E. coli DNA. The frequency of recovery of such chimeric plasmids is 10 to 20 colonies per mug of ligated DNA used in the transformation step. The method utilized in this report for constructing specific chimeric plasmids from total E. coli DNA is very simple. It requires only endonuclease R-EcoRI and T4 polynucleotide ligase, both of which are commercially available. The yield of transformants suggests that this method will be useful for cloning and amplifying a wide variety of functionally defined genes from E. coli and other prokaryotic organisms.
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PMID:Biochemical construction of specific chimeric plasmids from ColE1 DNA and unfractionated Escherichia coli DNA. 79 75

Experiments with the Neurospora crassa single strand-specific endonuclease have provided evidence for the existence of regions of partially single-stranded character in covalently closed superhelical replicative form DNA of phiX174. The nuclease converts the superhelical molecules to either singly hit relaxed circular or doubly hit linear molecules. We show that the initial cleavage of phiX174 superhelical DNA is a "nick" bounded by a 5'-phosphate and a 3'-hydroxyl; no nucleotides are excised as evidenced by the ability of T4-polynucleotide ligase to reform the phosphodiester bond. The nick can be found in either strand of the double-stranded DNA and is either randomly distributed or at least can be found at any one of many possible locations in the genome. Thus, the regions in phiX174 superhelical molecules that are sensitive to the N. crassa nuclease do not occur at highly specific sites in the genome.
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PMID:Site of cleavage of superhelical phiX174 replicative form DNA by the single strand-specific Neurospora crassa endonuclease. 94 17

A protein, called relaxation protein because of its ability to remove superhelical turns in closed-circular DNA, has been isolated and partially characterized from the nuclei of LA9 mouse and HeLa cells. The purification was facilitated by an assay method, with PM2 DNA, which used the fluorescence enhancement of the intercalating dye ethidium bromide upon binding to the closed-circular DNA. The amount of dye bound depends upon the degree of the superhelix density of the DNA. The relaxation products were analysed by the buoyant separation method in CsCl containing ethidium bromide and were shown to be completely relaxed. The purification resulted in a single band in a dodecylsulfate gel electrophoresis with an apparent molecular weight of 37000. The pH optimum is 7.0 and the optimal salt concentration is 0.2 M NaCl. The relaxation protein removes negative as well as positive supercoils, the latter generated by the interaction of ethidium bromide with closed-circular DNA. Relaxation of positive supercoils results, after removal of the dye, in the formation of molecules with superhelix densities exceeding that of native PM2 DNA (0.054). The highest negative superhelix density observed was -0.098 +/- 0.001. The corresponding positive superhelix density has been calculated to be + 0.023. A nicking--swivelling--closing mechanism is postulated, but nicked intermediates have so far not been demonstrated. The relaxation protein is not inhibited by known mammalian endonuclease I inhibitors, except for denatured DNA, and does not possess a conventional polynucleotide ligase activity. The relaxation activity was found to be predominantly in the nuclei, with only small amounts present in the cytoplasm and mitochondria. The biological function of transient swivels induced by the relaxation protein is not known. However, transient swivels are considered necessary or useful in the replication of closed-circular DNA or long linear DNA, respectively. Relaxation protein could replace the combined action of an endonuclease and a ligase ahead of the replication fork. Alternatively, transient swivels could be involved in the transcription process.
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PMID:Isolation and partial characterisation of the relaxation protein from nuclei of cultured mouse and human cells. 110 Mar 83

An endonuclease from Escherichia coli which acts specificially upon UV-irradiated DNA (correndonuclease II) and is absent from the uvrA and uvrB mutants has been isolated and partially chacterized. The enzyme is present in normal amounts in the urvC mutant. It elutes from phosphocellulose at about 0.25 M potassium phosphate (pH 7.5) and passes through dialysis tubing. The enzyme binds tightly to UV-irradiated DNA but does not bind to unirradiated DNA. The enzyme incises irradiated DNA to the 5' side of a pyrimidine dimer and leaves a 5'-phosphoryl terminus which can be resealed with polynucleotide ligase. The Km of the enzyme is about 1.5 X 10(-8) M dimers. Endonucleolytic activity of the enzyme is inhibited by caffeine with a KI of about 10mM.
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PMID:The Escherichia coli UV endonuclease (correndonuclease II). 110 24

The double-stranded form of adeno-associated virus (AAV) DNA has about 20 sites sensitive to endonuclease R.Hae III from Haemophilus aegypitus; the fragments produced fall into about 13 size classes, 8 of which contain single fragments. The location of the Hae III-produced AAV fragments relative to the three EcoR1 fragments was determined. Using revised figures for the molecular weights of the Hae III cleavage products of phiX174 replicative form DNA, we calculated that AAV DNA contains about 4,000 nucleotides. After Hae III digestiion of duplex DNA terminally labeled with 32P using polynucleotide kinase, the majority of fragments containing a 5' 32P label were about 40 nucleotides in length, and fragments of similar size were generated from each end, suggesting that the Hae site closest to the end is within the terminal repetition. Two more-slowly-migrating cleavage products also bore 5' 32P end label. These three terminally labeled species were also generated from single-stranded AAV DNA by digestion with Hae III, and evidence that one may have a nonlinear ("rabbit-ear") structure is presented. The predominant 5' terminal base was identified as thymine for both the plus and minus strands of AAV. Single-stranded AAV molecules could not be efficiently covalently circularized by incubation with polynucleotide ligase or ligase plus T4 DNA polymerase.
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PMID:Multiple structures of adeno-associated virus DNA: analysis of terminally labeled molecules with endonuclease R-Hae III. 127 22

Nucleotide excision is initiated by the UvrABC endonuclease system in which the initial DNA interaction is with UvrA which was dimerized in the presence of ATP. Nucleoprotein formation most likely takes place on undamaged regions of DNA by (UvrA)2 which has been dimerized in the presence of ATP. Topological unwinding of DNA, driven by ATP binding, is increased by the presence of UvrB to approximately a single helical turn. The Uvr(A)2B complex translocates to a damaged site by the combined Uvr(A)2B helicase in which the driving force is provided by the UvrB-associated ATPase. The dual incision reaction is initiated by the binding of the UvrC protein to the Uvr(A)2B-nucleoprotein complex. The proteins in this post-incision nucleoprotein complex do not turn over and require the presence of the UvrD protein and DNA polymerase I under polymerizing conditions. The final integrity of the DNA strands is restored with polynucleotide ligase.
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PMID:The UvrABC endonuclease system of Escherichia coli--a view from Baltimore. 214 12

Nuclei from secondary mouse-embryo cells contain an activity capable of untwisting closed-circular DNAs containing either negative or positive superhelical turns. The activity has no apparent effect on a closed-circular DNA containing no superhelical turns, and is not due to the combined action of an endonuclease and polynucleotide ligase. The enzyme apparently acts by introducing a single-strand nick into the DNA, forming a DNA-enzyme complex that allows the strands to rotate relative to the helix axis before reversing the reaction and sealing the break. The enzyme might possibly serve as a swivel during DNA replication.
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PMID:An activity from mammalian cells that untwists superhelical DNA--a possible swivel for DNA replication (polyoma-ethidium bromide-mouse-embryo cells-dye binding assay). 433 36

Linear double-stranded molecules of the circularly permuted and terminally redundant DNA of Salmonella bacteriophage P22 have been converted to oligomeric products in the presence of polynucleotide ligase coded for by the coliphage T4. The reaction has been monitored by sucrose density-gradient centrifugation and electron microscopy. It goes slowly and gives yields of 30-40%. The products are mainly dimers and trimers, but higher oligomers are also present.DNA ligase extracted from uninfected Escherichia coli seems unable to perform a similar reaction, which is concluded to involve the fully base-paired termini. Linear double-stranded molecules of simian virus(SV) 40 DNA, produced by the action of the bacterial restriction endonuclease R(1), are oligomerized by either ligase; therefore, this reaction seems to involve single-stranded cohesive ends. No mixed products could be found when P22 DNA and linear SV 40 DNA were exposed together to the T4 ligase.
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PMID:Enzymatic oligomerization of bacteriophage P22 DNA and of linear Simian virus 40 DNA. 434 70

varphiX174 RF (replicative form) II DNA, labeled in vivo with [methyl-(3)H]thymidine, was isolated from Escherichia coli polA (DNA polymerase I-deficient) and polA(+) cells during RF replication. [(32)P]dCMP was incorporated into the gaps present in the RF II DNA with [alpha-(32)P]dCTP and T4 DNA polymerase. Sedimentation in alkaline sucrose gradients revealed that much of the incorporated (32)P was present in a heterogeneous collection of fragments shorter than unit length. Inclusion of polynucleotide ligase in the gap-filling reaction increased the average size of the (32)P-labeled fragments. Gel electrophoresis of the products formed by digestion of the (32)P-labeled RF II molecules with the restriction nuclease, endonuclease R, indicated that in the population of RF II molecules gaps could occur anywhere in the genome. Competition-annealing experiments provided evidence that the majority of the label incorporated into gaps was present in the minus strand. RF II molecules isolated from polA(+) cells were enriched for gaps in a unique region of the genome in comparison with RF II molecules isolated from polA cells. The presence of multiple gaps in the minus strand implies that it is synthesized by a discontinuous mechanism during varphiX RF replication.
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PMID:Structure of nascent phiX174 replicative form: evidence for discontinuous DNA replication. 452 6

Linear phiX174 single-stranded DNA can be isolated from phiX phage particles produced under various conditions. About half of the linear strands have a dGMP residue at the 5' end, the remaining have roughly comparable amounts of dCMP, dTMP, and dAMP. The linear strands can be converted to covalently closed circular molecules by polynucleotide ligase, but only after they have been incubated with T4 DNA polymerase and deoxynucleoside triphosphates. Experiments with endonuclease R, the restriction enzyme from Haemophilus influenzae, indicated that the nucleotides incorporated into the DNA during this reaction were found predominantly in a limited region of the genome. The results suggest that the normal intermediate in single-stranded phiX174 DNA synthesis may be a single-stranded linear molecule which is shorter than unit length and is intrinsically capable of circularization.
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PMID:Mechanism of replication of single-stranded PhiX174 DNA. VII. Circularization of the progeny viral strand. 459 Oct 49

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