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)

Schizosaccharomyces pombe mitochondria were isolated from the cells treated with Novozyme 234, and purified in a Percoll gradient. A zymographic assay in a SDS-polyacrylamide gel containing single-stranded DNA revealed that an endonuclease of 32 kDa is associated with the mitochondria. The endonuclease was extracted from the mitochondria with 0.5 M KCl and was partially purified. The 32-kDa enzyme degraded both DNA and RNA at a weak alkaline pH, but preferred single-stranded DNA. The enzyme required Mg2+ or Mn2+, but not Ca2+ or Zn2+ for activity, and was inhibited by 50% with a 150 mM salt solution. Nicks generated by the enzyme could be resealed with T4 DNA ligase, indicating that the enzyme produces 5'-P and 3'-OH ends.
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PMID:Identification and characterization of a mitochondrial endonuclease from yeast, Schizosaccharomyces pombe. 895 92

A method is described which permits the ligation- mediated PCR amplification of specific fragments from a Class-II restriction endonuclease total digest. Feasibility was tested using Bcl I and phage lambda DNA as a model enzyme and amplicon system, respectively. Bcl I is one of many widely used restriction enzymes which cleave at palindromic recognition sequences and leave 5'-protruding ends of defined sequence. Using a single pair of universal primers, a given fragment can be specifically amplified after joining the fragments to adaptors consisting of a duplex primer region and a 9-nucleotide protruding single-stranded 5'-end containing the sequence complementary to the cleaved restriction site and a 4-nucleotide 'indexing sequence.' The protruding strand anneals to a restriction fragment by displacing its corresponding strand in the same fragment-specific indexing sequence located juxtaposed to the restriction site. The adaptor is covalently linked to the restriction fragment by T4 DNA ligase, and amplification is carried out under conditions for long-distance PCR using the M13 forward and reverse primers. The technique discriminated robustly between mismatches and perfect matches for the 16 indexing sequences tested to allow individual lambda Bcl I fragments to be amplified from their respective adaptor pairs. A strategy is proposed enabling a non-cloning approach to the accession, physical mapping and sequencing of genomic DNA. The method could also have application in high-throughput genetic mapping and fingerprinting and should expand the enzyme base for ligation- mediated indexing technology which has previously been limited to the Class-IIS and IP restriction endonucleases.
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PMID:Ligation-mediated PCR amplification of specific fragments from a class-II restriction endonuclease total digest. 910 71

An endonuclease was extracted from intact rat liver mitochondria with 0.4 M NaCl, and partially purified. A zymographic assay in SDS-polyacrylamide gel containing single-stranded DNA revealed that the enzyme has an apparent molecular mass of 55 kDa. It was different from the molecular mass of the major endonuclease of bovine heart mitochondria (a homodimer of a 29-kDa peptide), that was recently shown to be identical to the endonuclease G. The purified 55-kDa enzyme degraded both DNA and RNA, preferring RNA and single-stranded DNA at a weak alkaline pH, required Mg(2+) and Mn(2+) but not Ca(2+) for activity, and was strongly inhibited by monovalent cations. Nicks generated by the enzyme were resealable with T4 DNA ligase, indicating that the enzyme produces 5'-p and 3'-OH ends. The 55-kDa enzyme, like endonuclease G, displayed a strong preference to nick within a (dG)n.(dC)n sequence tract.
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PMID:Identification of a 55-KDA endonuclease in rat liver mitochondria with nucleolytic properties similar to endonuclease G. 913 52

We have previously described a cell-free assay that can be employed to study rejoining of radiation-induced DNA double-stranded breaks (dsb) in 'naked' DNA prepared from agarose-embedded cells using an extract of HeLa cells as a source of enzymes. Rejoining of dsb in this assay is absolutely dependent on cell extract and proceeds, under optimal reaction conditions, to an extent and with kinetics similar to those observed in intact cells. Here, we extend these experiments and demonstrate that the assay also supports rejoining of bleomycin and restriction endonuclease-induced dsb, agents that generate dsb with known ends. Rejoining of bleomycin-induced dsb proceeds to an extent and with kinetics similar to those observed with radiation-induced dsb. The kinetics of rejoining of restriction endonuclease-induced dsb are also similar to those of radiation-induced dsb. However, more and more dsb remain unrejoined as the extent of DNA fragmentation increases when enzymes cutting the DNA at frequent intervals are used. Dsb with blunt ends are rejoined with a similar efficiency to dsb with cohesive ends. Rejoining of restriction endonuclease-induced dsb is, in the presence of cell extract, more efficient than in the presence of T4 DNA ligase, suggesting the action in the overall reaction of activities in addition to DNA ligases. The experiments presented generalize the utility of the assay in studying the enzymology of dsb rejoining after treatment with radiomimetic drugs and restriction endonucleases and should be useful in the elucidation of the enzymatic requirements of dsb repair.
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PMID:In vitro rejoining of double strand breaks induced in cellular DNA by bleomycin and restriction endonucleases. 915 40

Two forms of DNA base excision-repair (BER) have been observed: a 'short-patch' BER pathway involving replacement of one nucleotide and a 'long-patch' BER pathway with gap-filling of several nucleotides. The latter mode of repair has been investigated using human cell-free extracts or purified proteins. Correction of a regular abasic site in DNA mainly involves incorporation of a single nucleotide, whereas repair patches of two to six nucleotides in length were found after repair of a reduced or oxidized abasic site. Human AP endonuclease, DNA polymerase beta and a DNA ligase (either III or I) were sufficient for the repair of a regular AP site. In contrast, the structure-specific nuclease DNase IV (FEN1) was essential for repair of a reduced AP site, which occurred through the long-patch BER pathway. DNase IV was required for cleavage of a reaction intermediate generated by template strand displacement during gap-filling. XPG, a related nuclease, could not substitute for DNase IV. The long-patch BER pathway was largely dependent on DNA polymerase beta in cell extracts, but the reaction could be reconstituted with either DNA polymerase beta or delta. Efficient repair of gamma-ray-induced oxidized AP sites in plasmid DNA also required DNase IV. PCNA could promote the Pol beta-dependent long-patch pathway by stimulation of DNase IV.
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PMID:Second pathway for completion of human DNA base excision-repair: reconstitution with purified proteins and requirement for DNase IV (FEN1). 921 49

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

Uracil can arise in DNA by misincorporation of dUTP into nascent DNA and/or by cytosine deamination in established DNA. Based on recent findings, both pathways appear to be promoted in the methyl-deficient model of hepatocarcinogenesis. A chronic increase in the ratio dUTP:dTTP with folate/methyl deficiency can result in a futile cycle of excision and reiterative uracil misincorporation leading to premutagenic apyrimidinic (AP) sites, DNA strand breaks, DNA fragmentation and apoptotic cell death. The progressive accumulation of unmethylated cytosines with chronic methyl deficiency will increase the potential for cytosine deamination to uracil and further stress uracil mismatch repair mechanisms. Uracil is removed by a highly specific uracil-DNA glycosylase (UDG) leaving an AP site that is subsequently repaired by sequential action of AP endonuclease, 5'-phosphodiesterase, a DNA polymerase and DNA ligase. Since the DNA polymerases cannot distinguish between dUTP and dTTP, an increase in dUTP:dTTP ratio will promote uracil misincorporation during both DNA replication and repair synthesis. The misincorporation of uracil for thymine (5-methyluracil) may constitute a genetically significant form of DNA hypomethylation distinct from cytosine hypomethylation. In the present study a significant increase in the level of uracil in liver DNA as early as 3 weeks after initiation of folate/methyl deficiency was accompanied by parallel increases in DNA strand breaks, AP sites and increased levels of AP endonuclease mRNA. In addition, uracil was also detected within the p53 gene sequence using UDG PCR techniques. Increased levels of uracil in DNA implies that the capacity for uracil base excision repair is exceeded with chronic folate/methyl deficiency. It is possible that enzyme-induced extrahelical bases, AP sites and DNA strand breaks interact to negatively affect the stability of the DNA helix and stress the structural limits of permissible uracil base excision repair activity. Thus substitution of uracil for thymine induces repair-related premutagenic lesions and a novel form of DNA hypomethylation that may relate to tumor promotion in the methyl-deficient model of hepatocarcinogenesis.
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PMID:Presence and consequence of uracil in preneoplastic DNA from folate/methyl-deficient rats. 939 4

NaeI is a remarkable type II restriction endonuclease. It must bind two recognition sequences to cleave DNA, forms a covalent protein-DNA intermediate, and is only 1 aa change away from topoisomerase and recombinase activity. The latter activities apparently derive from reactivation of a cryptic DNA ligase active site. Here, we demonstrate that NaeI has two protease-resistant domains, involving approximately the N-terminal and C-terminal halves of the protein, linked by a protease-accessible region of 30 aa. The domains were purified by cloning. The C-terminal domain was shown by gel mobility-shift assay to have approximately 8-fold lower DNA-binding ability than intact NaeI. Analytical ultracentrifugation showed this domain to be a monomer in solution. The N-terminal domain, which contains the catalytic region defined by random mutagenesis, did not bind DNA and was a mixture of different-sized complexes in solution implying that it mediates self-association. DNA greatly inhibited proteolysis of the linker region. The results identify the DNA-binding domain, imply that DNA cleavage and recognition are independent and separable, and lead us to speculate about a cleft-like structure for NaeI.
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PMID:The domain organization of NaeI endonuclease: separation of binding and catalysis. 952 Apr

Apurinic/apyrimidinic (AP) sites occur frequently in DNA as a result of spontaneous base loss or following removal of a damaged base by a DNA glycosylase. The action of many AP endonuclease enzymes at abasic sites in DNA leaves a 5'-deoxyribose phosphate (dRP) residue that must be removed during the base excision repair process. This 5'-dRP group may be removed by AP lyase enzymes that employ a beta-elimination mechanism. This beta-elimination reaction typically involves a transient Schiff base intermediate that can react with sodium borohydride to trap the DNA-enzyme complex. With the use of this assay as well as direct 5'-dRP group release assays, we show that T4 DNA ligase, a representative ATP-dependent DNA ligase, contains AP lyase activity. The AP lyase activity of T4 DNA ligase is inhibited in the presence of ATP, suggesting that the adenylated lysine residue is part of the active site for both the ligase and lyase activities. A model is proposed whereby the AP lyase activity of DNA ligase may contribute to the repair of abasic sites in DNA.
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PMID:The action of DNA ligase at abasic sites in DNA. 952 83

Random mutagenesis has become a powerful means of studying the effects of a large number of permutations of a particular DNA sequence. As a prime example, libraries of randomized cDNA clones, when translated into their corresponding proteins, can be useful in investigating the functional contributions of a mutagenized region to the overall properties of a protein. Existing molecular cloning techniques for random mutagenesis are tedious and frequently plagued with high levels of background from wild-type (nonmutagenized) template. We report a PCR-based method involving amplification of an entire plasmid containing a gene sequence of interest with partially complementary degenerate oligonucleotides for randomization of up to 12 consecutive nucleotide residues. Sequential treatment of the PCR product with Dpn/and a second specific restriction endonuclease and T4 DNA ligase followed by high-efficiency electroporation permits the generation of libraries with very low background. This technique should prove useful for studies on enzyme structure-function relationships as well as for other diverse applications.
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PMID:Random mutagenesis by whole-plasmid PCR amplification. 952 53


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