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 Escherichia coli RecBCD holoenzyme and the individual constituent subunits have been purified from overproducing strains. The purified RecBCD holoenzyme has a native molecular mass of approximately 330 kDa, indicative of a heterotrimer subunit assembly. The RecB, RecC, and RecD subunits can associate in vitro to give nuclease, helicase, ATPase, and Chi-specific endonuclease activities which are indistinguishable from those of the RecBCD holoenzyme. At concentrations at which the reconstituted RecB + C + D enzyme is very active, none of the individual RecB, RecC, or RecD subunits have readily detectable activities of the holoenzyme, except RecB protein which had previously been shown to exhibit DNA-dependent ATPase activity (Hickson, I. D., Robson, C. N., Atkinson, K. E., Hutton, L., and Emmerson, P. T. (1985) J. Biol. Chem. 260, 1224-1229). At higher concentrations and with shorter DNA substrates reconstituted RecBC protein exhibits low levels of helicase and exonuclease activity.
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PMID:Reconstitution of the activities of the RecBCD holoenzyme of Escherichia coli from the purified subunits. 161 58

DNA helicase I, the traI gene product of the Escherichia coli F factor, was shown to be associated with endonuclease activity specific for the transfer origin of the F plasmid, oriT. In the presence of Mg2+, the purified enzyme forms a complex, stable in the presence of sodium dodecylsulfate (SDS) with a negatively superhelical chimeric plasmid containing oriT. The enzyme nicks and, after this, apparently binds to the 5' nick terminus when this complex is heated in the presence of SDS and/or EDTA or treated with proteinase K. Dideoxy sequencing locates the nick site in the F DNA strand transferred during bacterial conjugation after nucleotide 138 clockwise of the mid-point of the BglII site at 66.7 kb of the F genetic map. A sequencing stop after nucleotide 137 of this strand (where oriT-nicking seems to occur in vivo) is possibly an artefact caused by helicase I protein attached to the 5' terminal nucleotide. Deletion in the amino-terminal part of the traI polypeptide abolishes the oriT-nicking activity while leaving the strand-separating activity intact. These results confirm the prediction from genetic studies that helicase I is bifunctional with site-specific endonuclease and strand-separating activities.
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PMID:Endonuclease activity of Escherichia coli DNA helicase I directed against the transfer origin of the F factor. 165 Dec 33

The lambda Gam protein was isolated from cells containing a Gam-producing plasmid. The purified Gam protein was found to bind to RecBCD without displacing any of its subunits. Gam was shown to inhibit all known enzymatic activities of RecBCD: ATP-dependent single- and double-stranded DNA exonucleases, ATP-independent single-stranded endonuclease, and the ATP-dependent helicase. When produced in vivo, Gam inhibited chi-activated recombination in lambda red gam crosses but had little effect on the host's ability to act as a recipient in conjugational recombination. These experiments suggest that RecBCD possesses an additional "unknown" activity that is resistant to or induced by Gam. Additionally, the expression of Gam in recD mutants sensitizes the host to UV irradiation, indicating that Gam alters one or more of the in vivo activities of RecBC(D-).
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PMID:Lambda Gam protein inhibits the helicase and chi-stimulated recombination activities of Escherichia coli RecBCD enzyme. 165 21

A statistically significant amino acid sequence similarity is demonstrated between the endonuclease (R) subunit of EcoK restriction-modification (R-M) enzyme, and RNA and DNA helicases of the so-called 'DEAD' family. It is further shown that all three known sequences of R subunits of type-I and type-III R-M enzymes contain the conserved amino acid sequence motifs typical of the previously described helicase superfamily II [(1989) Nucleic Acids Res. 17, 4713-4730]. A hypothesis is proposed that these enzymes may exert helicase activity possibly required for local unwinding of DNA in the cleavage sites.
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PMID:Endonuclease (R) subunits of type-I and type-III restriction-modification enzymes contain a helicase-like domain. 165 45

The UvrA protein is the DNA binding and damage recognition subunit of the damage-specific UvrABC endonuclease. In addition, it is an ATPase/GTPase, and the binding energy of ATP is linked to dimerization of the UvrA protein. Furthermore, the UvrA protein interacts with the UvrB protein to modulate its activities, both in solution and in association with DNA, where the UvrAB complex possesses a helicase activity. The domains of the UvrA protein that sponsor each of these activities were localized within the protein by studying the in vitro properties of a set of purified deletion mutants of the UvrA protein. A region located within the first 230 amino acids was found to contain the minimal region necessary for interactions with UvrB, the UvrA dimerization interface was localized to within the first 680 amino acids, and the DNA binding domain lies within the first 900 amino acids of the 940-amino acid UvrA protein. Two damage recognition domains were detected. The first domain, which coincides with the DNA binding region, is required to detect the damage. The second domain, located on or near the C-terminal 40 amino acids, stabilizes the protein-DNA complex when damage is encountered.
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PMID:Deletion mutagenesis of the Escherichia coli UvrA protein localizes domains for DNA binding, damage recognition, and protein-protein interactions. 182 48

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

Cloning of the phi X174 viral origin of replication into phage M13mp8 produced an M13-phi X174 chimera, the DNA of which directed efficient replicative-form----single-strand rolling-circle replication in vitro. This replication assay was performed with purified phi X174-encoded gene A protein, Escherichia coli rep helicase, single-stranded DNA-binding protein, and DNA polymerase III holoenzyme. The nicking of replicative-form I (RFI) DNA by gene A protein was essentially unaffected by the presence of UV lesions in the DNA. However, unwinding of UV-irradiated DNA by the rep helicase was inhibited twofold as compared with unwinding of the unirradiated substrate. UV irradiation of the substrate DNA caused a strong inhibition in its ability to direct DNA synthesis. However, even DNA preparations that contained as many as 10 photodimers per molecule still supported the synthesis of progeny full-length single-stranded DNA. The appearance of full-length radiolabeled products implied at least two full rounds of replication, since the first round released the unlabeled plus viral strand of the duplex DNA. Pretreatment of the UV-irradiated DNA substrate with purified pyrimidine dimer endonuclease from Micrococcus luteus, which converted photodimer-containing supercoiled RFI DNA into relaxed, nicked RFII DNA and thus prevented its replication, reduced DNA synthesis by 70%. Analysis of radiolabeled replication products by agarose gel electrophoresis followed by autoradiography revealed that this decrease was due to a reduction in the synthesis of progeny full-length single-stranded DNA. This implies that 70 to 80% of the full-length DNA products produced in this system were synthesized on molecules that carried photodimers. Thus, similarly to its activity on UV-irradiated single-stranded DNA, DNA polymerase III holenzyme can bypass pyrimidine photodimers in the more complex replicative form --->single-strand replication, which involves, in addition to the polymerizing activity, the unwinding of the duplex by the rep helicase and the participation of a more complex multiprotein replisome.
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PMID:Rolling-circle replication of UV-irradiated duplex DNA in the phi X174 replicative-form----single-strand replication system in vitro. 252 71

The requirement for nucleotide hydrolysis in the DNA repair mechanism of the Escherichia coli UvrABC protein complex has been analyzed. The DNA-activated UvrAB ATPase activity is part of a helicase activity exhibited by the UvrAB protein complex. The helicase acts only on short duplexes and, therefore, is unlike other helicases such as those involved in DNA replication that unwind long duplexes. The strand displacement activity occurs in the 5'----3' direction and requires either ATP or dATP. The helicase activity is inhibited by UV photoproducts. The absence of this activity in a complex formed with proteolyzed UvrB (UvrB*), a complex also deficient in the endonuclease activity, suggests that this activity is important in the repair mechanism. The UvrAB protein complex may remain bound to a damaged site and by coupling the energy derived from ATP hydrolysis, alter the DNA conformation around the damage site to one that is permissive for endonucleolytic events. The conformational changes may take the form of DNA unwinding.
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PMID:Characterization of the helicase activity of the Escherichia coli UvrAB protein complex. 253 20

Three tandem repeats of a 13-mer in the AT-rich region are essential to the unique replication origin of E. coli and of remotely related Enterobacteriaceae. These iterated sequences are identified by deletion analysis and sensitivities to endonucleases as the site for initial duplex opening by the initiator dnaA protein. This "open complex" requires ATP and 38 degrees C for optimum formation and stability. The subsequent dnaC-dependent entry of dnaB helicase to form a "prepriming complex" stabilizes the open structure, blocks cleavages by a restriction endonuclease in the 13-mer region, and broadens the endonuclease cutting pattern. We propose that dnaA protein recognizes and successively opens the 13-mer sequences, thereby guiding the entry of dnaB helicase into the duplex preparatory to priming of replication.
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PMID:Duplex opening by dnaA protein at novel sequences in initiation of replication at the origin of the E. coli chromosome. 283 Sep 93

DNA-dependent ATPase IV has been purified to near homogeneity from the Novikoff rat hepatoma. The enzyme is devoid of DNA polymerase, RNA polymerase, exonuclease, endonuclease, phosphomonoesterase, 3'- or 5'-phosphodiesterase, polynucleotide kinase, protein kinase, topoisomerase, helicase or DNA reannealing activities at a detection level of 10(-5) to 10(-7) relative to the ATPase activity. The enzyme is a monomer of Mr 110,000, has a sedimentation coefficient of 5.9 S, a Stokes radius of 40 A and a frictional coefficient of 1.32. In the presence of Mg2+ ion and a polynucleotide effector, ATPase IV hydrolyzes either ATP or dATP to the nucleoside diphosphate plus Pi. Other ribo- or deoxyribonucleoside triphosphates are not substrates. ATPase IV utilizes double-stranded DNA and single-stranded DNA as effector; however, it does not utilize poly(dT). The Km for dsDNA or ssDNA is 2.2 microM (nucleotide). A variety of ATP analogues were found to be competitive inhibitors of ATPase IV.
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PMID:Purification and enzymological characterization of DNA-dependent ATPase IV from the Novikoff hepatoma. 296 5

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