EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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 traY gene product (TraYp) from the Escherichia coli F factor has previously been purified and shown to bind a DNA fragment containing the F plasmid oriT region (E. E. Lahue and S. W. Matson, J. Bacteriol. 172:1385-1391, 1990). To determine the precise nucleotide sequence bound by TraYp, DNase I footprinting was performed. The TraYp-binding site is near, but not coincident with, the site that is nicked to initiate conjugative DNA transfer. In addition, a second TraYp binding site, which is coincident with the mRNA start site at the traYI promoter, is described. The Kd for each binding site was determined by a gel mobility shift assay. TraYp exhibits a fivefold higher affinity for the oriT binding site compared with the traYI promoter binding site. Hydrodynamic studies were performed to show that TraYp is a monomer in solution under the conditions used in DNA binding assays. Early genetic experiments implicated the traY gene product in the site- and strand-specific endonuclease activity that nicks at oriT (R. Everett and N. Willetts, J. Mol. Biol. 136:129-150, 1980; S. McIntire and N. Willetts, Mol. Gen. Genet. 178:165-172, 1980). As this activity has recently been ascribed to helicase I, it was of interest to see whether TraYp had any effect on this reaction. Addition of TraYp to nicking reactions catalyzed by helicase I showed no effect on the rate or efficiency of oriT nicking. Roles for TraYp in conjugative DNA transfer and a possible mode of binding to DNA are discussed.
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PMID:Characterization of the Escherichia coli F factor traY gene product and its binding sites. 846 82

Human cells from patients suffering with xeroderma pigmentosum (XP) characterized by extreme sensitivity to UV light and a high incidence of skin tumors fall into seven complementation groups, XPA to XPG, and are lacking a functional helicase, endonuclease, or lesion-recognizing protein involved in the initial steps during nucleotide excision repair (NER); a number of proteins involved in DNA repair are termed XPA to XPG depending on which one is defective in a particular complementation group of XP and include: (i) proteins involved in the recognition of (6-4) photoproducts (XPE) and of a broad range of lesions such as pyrimidine dimers (XPA); (ii) proteins that are DNA helicases and integral parts of the general transcription factor TFIIH functioning in both transcription and repair (XPB, XPD); (iii) endonucleases that perform the two incisions, the XPG incising six nucleotides (nt) to the 3' side from a photodimer and the ERCC1-XPF protein complex incising 22 nt to the 5' side of the lesion; and (iv) single-strand DNA-binding proteins (XPC). The ERCC6 helicase is largely responsible for coupling transcription to repair whereas XPC seems to be responsible for the repair of the inactive parts of the genome as well as for the repair of the nontranscribed strand in active genes. p53 recognizes insertion/deletion mismatches as well as free ends of DNA produced by ionizing radiation to arrest the cell cycle. Most of the human DNA repair proteins have their counterparts in both budding and fission yeasts and some of them also in E. coli evoking an evolutionary conservation of DNA repair pathways. Accumulation of mutations within repair genes in single cells followed by their escape from the immune surveillance and in clonal expansion may greatly contribute to the appearance and development of human cancers.
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PMID:Xeroderma pigmentosum and molecular cloning of DNA repair genes. 868 16

Phosphatidylcholine-specific phospholipase D (PLD) enzymes catalyze hydrolysis of phospholipid phosphodiester bonds, and also transphosphatidylation of phospholipids to acceptor alcohols. Bacterial and plant PLD enzymes have not been shown previously to be homologues or to be homologous to any other protein. Here we show, using sequence analysis methods, that bacterial and plant PLDs show significant sequence similarities both to each other, and to two other classes of phospholipid-specific enzymes, bacterial cardiolipin synthases, and eukaryotic and bacterial phosphatidylserine synthases, indicating that these enzymes form an homologous family. This family is suggested also to include two Poxviridae proteins of unknown function (p37K and protein K4), a bacterial endonuclease (nuc), an Escherichia coli putative protein (o338) containing an N-terminal domain showing similarities with helicase motifs V and VI, and a Synechocystis sp. putative protein with a C-terminal domain likely to possess a DNA-binding function. Surprisingly, four regions of sequence similarity that occur once in nuc and o338, appear twice in all other homologues, indicating that the latter molecules are bi-lobed, having evolved from an ancestor or ancestors that underwent a gene duplication and fusion event. It is suggested that, for each of these enzymes, conserved histidine, lysine, aspartic acid, and/or asparagine residues may be involved in a two-step ping pong mechanism involving an enzyme-substrate intermediate.
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PMID:A novel family of phospholipase D homologues that includes phospholipid synthases and putative endonucleases: identification of duplicated repeats and potential active site residues. 873 63

The Ti plasmids of Agrobacterium tumefaciens encode two transfer systems. One mediates the translocation of the T-DNA from the bacterium to a plant cell, while the other is responsible for the conjugal transfer of the entire Ti plasmid from one bacterium to another. The determinants responsible for conjugal transfer map to two regions, tra and trb, of the nopaline-type Ti plasmid pTiC58. By using transposon mutagenesis with Tn3HoHo1, we localized the tra determinants to an 8.5-kb region that also contains the oriT region. Fusions to lacZ formed by transposon insertions indicated that this region is expressed as two divergently transcribed units. We determined the complete nucleotide sequence of an 8,755-bp region of the Ti plasmid encompassing the transposon insertions defining tra. The region contains six identifiable genes organized as two units divergently transcribable from a 258-bp inter-genic region that contains the oriT site. One unit encodes traA, traF, and traB, while the second encodes traC, traD, and traG. Reporter insertions located downstream of both sets of genes did not affect conjugation but were expressed, suggesting that the two units encode additional genes that are not involved in transfer under the conditions tested. Proteins of the predicted sizes were expressible from traA, traC, traD, and traG. The products of several Ti plasmid tra genes are related to those of other conjugation systems. The 127-kDa protein expressed from traA contains domains related to MobA of RSF1O1O and to the helicase domain of TraI of plasmid F. The translation product of traF is related to TraF of RP4, and that of traG is related to TraG of RP4 and to VirD4 of the Ti plasmid T-DNA transfer system. Genetic analysis indicated that at least traG and traF are essential for conjugal transfer, while sequence analysis predicts that traA also encodes an essential function. traB, while not essential, is required for maximum frequency of transfer. Patterns of sequence relatedness indicate that the oriT and the predicted cognate site-specific endonuclease encoded by traA share lineage with those of the transfer systems of RSF1010 and plasmid F, while genes of the Ti plasmid encoding other essential tra functions share common ancestry with genes of the RP4 conjugation system.
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PMID:The tra region of the nopaline-type Ti plasmid is a chimera with elements related to the transfer systems of RSF1010, RP4, and F. 876 53

The Rep68 and Rep78 proteins of adeno-associated virus type 2 (AAV) are multifunctional proteins which contain overlapping amino acid sequences. They are required for viral replication and preferential integration of the AAV genome into a region of human chromosome 19. During the terminal resolution process of AAV DNA replication, these proteins make a site-specific and strand-specific endonuclease cut within the AAV inverted terminal repeat DNA. The Rep68 and Rep78 proteins also have helicase and DNA-binding activities. The endonuclease activity is believed to involve the covalent attachment of Rep68 or Rep78 at the cut site via a phosphotyrosine linkage. In an attempt to identify the active-site tyrosine residue of Rep78 and Rep68, tyrosine residues were site specifically mutated to phenylalanines by overlap extension PCR, and the resulting PCR fragments were cloned into a maltose binding protein-Rep68 fusion (MBP-Rep68delta) expression vector. The mutant MBP-Rep68delta proteins were expressed in Escherichia coli cells, purified with amylose resin, and assayed in vitro for Rep68-specific activities. Although several of the mutations disrupted the endonuclease activity, only the mutation of tyrosine 152 abrogated the endonuclease activity with no discernible effect on the helicase or DNA-binding activities. Our data therefore suggest that there are distinct active sites for the helicase and endonuclease activities.
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PMID:Mutational analysis of the adeno-associated virus Rep68 protein: identification of critical residues necessary for site-specific endonuclease activity. 906 Jun 25

The adeno-associated virus type 2 (AAV) Rep78 and Rep68 proteins are required for viral replication. These proteins are encoded by unspliced and spliced transcripts, respectively, from the p5 promoter of AAV and therefore have overlapping amino acid sequences. The Rep78 and Rep68 proteins share a variety of activities including endonuclease, helicase, and ATPase activities and the ability to bind AAV hairpin DNA. The part of the amino acid sequence which is identical in Rep78 and Rep68 contains consensus helicase motifs that are conserved among the parvovirus replication proteins. In the present study, we mutated highly conserved amino acids within these helicase motifs. The mutant proteins were synthesized as maltose binding protein-Rep68 fusions in Escherichia coli cells and affinity purified on amylose resin. The fusion proteins were assayed in vitro, and their activities were directly compared to those of the fusion protein MBP-Rep68 delta, which contains most of the amino acid sequences common to Rep78 and Rep68 and was demonstrated previously to have all of the in vitro activities of wild-type Rep78 and Rep68. Our analysis showed that almost all mutations in the putative helicase motifs severely reduced or abolished helicase activity in vitro. Most mutants also had ATPase activity less than one-eighth of the wild-type levels and lacked endonuclease activity.
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PMID:Mutational analysis of the adeno-associated virus type 2 Rep68 protein helicase motifs. 926 29

During repair of a double-strand break (DSB) by gene conversion, one or both 3' ends of the DSB invade a homologous donor sequence and initiate new DNA synthesis. The use of the invading DNA strand as a primer for new DNA synthesis requires that any nonhomologous bases at the 3' end be removed. We have previously shown that removal of a 3' nonhomologous tail in Saccharomyces cerevisiae depends on the nucleotide excision repair endonuclease Rad1/Rad10, and also on the mismatch repair proteins Msh2 and Msh3. We now report that these four proteins are needed only when the nonhomologous ends of recombining DNA are 30 nucleotides (nt) long or longer. An additional protein, the helicase Srs2, is required for the RAD1-dependent removal of long 3' tails. We suggest that Srs2 acts to extend and stabilize the initial nascent joint between the invading single strand and its homolog. 3' tails shorter than 30 nt are removed by another mechanism that depends at least in part on the 3'-to-5' proofreading activity of DNA polymerase delta.
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PMID:Two pathways for removal of nonhomologous DNA ends during double-strand break repair in Saccharomyces cerevisiae. 934 41

Bacteriophage T4 RNase H is a 5'- to 3'-nuclease that has exonuclease activity on RNA.DNA and DNA.DNA duplexes and can remove the pentamer RNA primers made by the T4 primase-helicase (Hollingsworth, H. C., and Nossal, N. G. (1991) J. Biol. Chem. 266, 1888-1897; Hobbs, L. J., and Nossal, N. G. (1996) J. Bacteriol. 178, 6772-6777). Here we show that this exonuclease degrades duplex DNA nonprocessively, releasing a single oligonucleotide (nucleotides 1-4) with each interaction with the substrate. Degradation continues nonprocessively until the enzyme stops 8-11 nucleotides from the 3'-end of the substrate. T4 gene 32 single-stranded DNA-binding protein strongly stimulates the exonuclease activity of T4 RNase H, converting it into a processive nuclease that removes multiple short oligonucleotides with a combined length of 10-50 nucleotides each time it binds to the duplex substrate. 32 protein must bind on single-stranded DNA behind T4 RNase H for processive degradation. T4 RNase H also has a flap endonuclease activity that cuts preferentially on either side of the junction between single- and double-stranded DNA in flap and fork DNA structures. In contrast to the exonuclease, the endonuclease is inhibited completely by 32 protein binding to the single strand of the flap substrate. These results suggest an important role for T4 32 protein in controlling T4 RNase H degradation of RNA primers and adjacent DNA during each lagging strand cycle.
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PMID:The 5'-exonuclease activity of bacteriophage T4 RNase H is stimulated by the T4 gene 32 single-stranded DNA-binding protein, but its flap endonuclease is inhibited. 935 14

This report completes a preliminary analysis of the sequence of the 330,740-bp chlorella virus PBCV-1 genome, the largest virus genome to be sequenced to date. The PBCV-1 genome is 57% the size of the genome from the smallest self-replicating organism, Mycoplasma genitalium. Analysis of 74 kb of newly sequenced DNA, from the right terminus of the PBCV-1 genome, revealed 153 open reading frames (ORFs) of 65 codons or longer. Eighty-five of these ORFs, which are evenly distributed on both strands of the DNA, were considered major ORFs. Fifty-nine of the major ORFs were separated by less than 100 bp. The largest intergenic distance was 729 bp, which occurred between two ORFs located in the 2.2-kb inverted terminal repeat region of the PBCV-1 genome. Twenty-seven of the 85 major ORFs resemble proteins in databases, including the large subunit of ribonucleotide diphosphate reductase, ATP-dependent DNA ligase, type II DNA topoisomerase, a helicase, histidine decarboxylase, dCMP deaminase, dUTP pyrophosphatase, proliferating cell nuclear antigen, a transposase, fungal translation elongation factor 3 (EF-3), UDP glucose dehydrogenase, a protein kinase, and an adenine DNA methyltransferase and its corresponding DNA site-specific endonuclease. Seventeen of the 153 ORFs resembled other PBCV-1 ORFs, suggesting that they represent either gene duplications or gene families.
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PMID:Analysis of 74 kb of DNA located at the right end of the 330-kb chlorella virus PBCV-1 genome. 935 47

The 78-kDa product (p78Rep) of the rep gene of AAV-2 was expressed with an amino-terminal histidine-tag in Escherichia coli and was purified under denaturing conditions. After renaturation of the p78Rep protein by serial steps of dialysis, the biochemical activities of the p78Rep protein were demonstrated, which include the ATP-dependent endonuclease and helicase activity as well as sequence-specific binding to the AAV-2 terminal repeat. These activities were retained when the protein was purified under denaturing conditions followed by renaturation. When compared with published data for p68Rep, the helicase activity of p78Rep was stronger and the endonuclease activity was weaker. The p78Rep protein was able to inhibit HIV-1 replication after co-microinjection together with infectious proviral HIV-1 DNA into the nuclei of human cells, suggesting that p78Rep is necessary for inhibition of HIV-1 in vivo.
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PMID:Purification and characterization of an active form of the p78Rep protein of adeno-associated virus type 2 expressed in Escherichia coli. 942 27

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