EC:3.1.4.1 - FACTA Search

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Query: EC:3.1.4.1 (phosphodiesterase)
18,767 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Drosophila Rrp1 has several tightly associated enzymatic activities, including double-strand DNA 3'-exonuclease, apurinic/apyrimidinic endonuclease, 3'-phosphatase, and 3'-phosphodiesterase. The carboxyl-terminal third of Rrp1, homologous to Escherichia coli exonuclease III, is sufficient to repair oxidative and alkylation-induced DNA damage in vivo. Using a screen for partial complementation of repair-deficient E. coli, we isolated three mutants of the nuclease domain of Rrp1: T462A, K463Q, and L484P, that protect against methyl methanesulfonate (MMS)-induced but not t-BuO2H-induced DNA damage. Thr-462 and Lys-463 are highly conserved residues found in a cluster of 5 conserved amino acids (LQETK), while Leu-484 is poorly conserved. Gln-460 Glu-461, Thr-462, and Lys-463 and Leu-484 were altered by site-directed mutagenesis using a plasmid including the entire Rrp1 gene and mutant proteins were purified. Mutants of the three residues Glu-461, Thr-462, and Lys-463 demonstrate 8-200-fold lower phosphodiesterase specific activity than wild-type Rrp1. E461A has a 30-fold reduction in AP endonuclease and is MMS-sensitive, but all other mutants have near-normal AP endonuclease and are MMS-resistant. Glu-461 appears to be essential for the nuclease function for Rrp1. Lys-463 and, to a lesser extent, Thr-462 influence the substrate specificity of the Rrp1 nuclease.
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PMID:Single amino acid changes alter the repair specificity of Drosophila Rrp1. Isolation of mutants deficient in repair of oxidative DNA damage. 779 76

The single-stranded-DNA-binding (SSB) proteins from Proteus mirabilis and Serratia marcescens were purified from overproducing Escherichia coli strains, which were devoid of their own ssb gene. The strains harboured an endA insertion mutation and a xonA mutation resulting in the absence of endonuclease I and exonuclease I activities from the preparations. The amino acid sequences of the SSB of all three species are nearly identical in the N-terminal parts of the proteins that contain the DNA-binding domain, but differ in the C-terminal parts. Both proteins have an apparent binding-site size of 65 and 35 nucleotides at high and low salt concentrations, respectively. The association-rate constant for binding to poly(dT) is 3.2 x 10(8) M-1 s-1 for P. mirabilis SSB (PmiSSB) and 3.4 x 10(8) M-1 s-1 for S. marcescens SSB (SmaSSB). These binding parameters are very similar to those of E. coli SSB (EcoSSB). The structural similarity of the proteins is also documented by the finding that they can exchange subunits among each other to form mixed tetramers. The transcriptional regulation of the ssb and uvrA genes from P. mirabilis and S. marcescens in SOS-induced E. coli cells was studied using lacZ fusions. While the uvrA genes were inducible, there was no induction of the ssb genes transcribed divergently from the uvrA genes. Apparently, regions with nucleotide sequence similarity to the E. coli SOS-box preceding the ssb genes of P. mirabilis and S. marcescens had no gross effect on the transcription. Studies on growth of the cells and recovery from ultraviolet damage indicate that the heterologous SSB proteins support DNA replication and recombinational DNA repair of E. coli with the same efficiency as the E. coli SSB protein. Interactions with other E. coli proteins involved in these processes either do not occur, or are not impeded.
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PMID:The single-stranded-DNA-binding proteins (SSB) of Proteus mirabilis and Serratia marcescens. 792 78

The effect of various concentrations of nalidixic acid and mitomycin C on the dynamics of growth of Serratia marcescens and synthesis of endonuclease and other extracellular enzymes by it was studied. The synthesis of extracellular endonuclease was induced during inhibition of the cell division under the effect of nalidixic acid and mitomycin C. The induction of the endonuclease synthesis preceded the start of the division of the resistant cells which overcame the phase of the population retarded growth. The fermentation broth of the cells exposed to nalidixic acid and mitomycin C contained increased amounts of protein and possessed higher activities of chitin phosphodiesterase and phosphatase. It was shown by PAAG-electrophoresis with sodium dodecyl sulphate that the pattern of the extracellular proteins of S. marcescens undergone quantitative and qualitative changes under the effect of nalidixic acid and mitomycin C.
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PMID:[Effect of nalidixic acid and mitomycin C on growth and biosynthesis of extracellular proteins by Serratia marcescens]. 803 70

The E. coli single-stranded binding protein (SSB) has been demonstrated in vitro to be involved in a number of replicative, DNA renaturation, and protective functions. It was shown previously that SSB can interact with exonuclease I to stimulate the hydrolysis of single-stranded DNA. We demonstrate here that E. coli SSB can also enhance the DNA deoxyribophosphodiesterase (dRpase) activity of exonuclease I by stimulating the release of 2-deoxyribose-5-phosphate from a DNA substrate containing AP endonuclease-incised AP sites, and the release of 4-hydroxy-2-pentenal-5-phosphate from a DNA substrate containing AP lyase-incised AP sites. E. coli SSB and exonuclease I form a protein complex as demonstrated by Superose 12 gel filtration chromatography. These results suggest that SSB may have an important role in the DNA base excision repair pathway.
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PMID:Escherichia coli single-stranded DNA binding protein stimulates the DNA deoxyribophosphodiesterase activity of exonuclease I. 812 10

A one- and two-dimensional NMR study has been performed on seven A(2'-5')A(2'-5')A fragments containing 9-(3'-fluoro-3'-deoxy-beta-D-xylofuranosyl)-adenine (AF) or 3'-fluoro-3'-deoxyadenosine (AF) residues at different positions, and on the corresponding monomers. A(2'-5')A(2'-5')A served as a reference compound. The fluoro substituent governs the conformation of the sugar ring: an AF residue displays mainly N-type sugar and the ring is considerably flattened (phi N approximately 30 degrees) compared to AF residues (phi S approximately 40 degrees), which exhibit almost pure S-type conformation. Moreover, in AF moieties the rotamer distribution around torsion angle gamma (O5'-C5'-C4'-C3') and the base orientation are influenced to a large extent by the presence of the fluorine substituent. The sugar rings of nonfluorinated residues in the trimers appear rather flexible. A possible correlation between the conformational characteristics of the fluorinated fragments and their biological activity has been found: the fragments that meet the prerequisites for binding to RNase L indeed show enhanced binding to this endonuclease. Furthermore, substitution of the 3'-OH group of the second residue by hydrogen or of the 3'-OH group of the 2'-terminal residue by fluorine or hydrogen results in increased resistance towards 2'-5'-phosphodiesterase.
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PMID:Conformation analysis of 3'-fluorinated A(2'-5')A(2'-5')A fragments. Relation between conformation and biological activity. 817 55

Exonuclease I of E. coli is a 3'-->5' exonuclease acting on single-stranded DNA. We further demonstrate that the enzyme can remove phosphoglycolate groups at 3' termini in DNA. These types of lesions are introduced into DNA by agents that cause oxidative damage such as ionizing radiation. An oligonucleotide substrate pd(T)20[32P]dA was treated with acid to remove the adenine base to generate 3' termini containing 2-deoxyribose-5-phosphate end groups. This substrate was then treated with periodate to generate 3'-phosphoglycoaldehyde groups and was further oxidized with I2 to generate 3'-phosphoglycolate groups. The pd(T)20[32P]PGA substrate was annealed to pd(A)40-60 to produce a double-stranded substrate. Exonuclease I was effective in the removal of the 3'-phosphoglycolate groups from this substrate as determined by HPLC separation. With exonuclease III and endonuclease IV of E. coli, exonuclease I is the third activity found in E. coli that is able to excise deoxyribose-phosphate fragments at 3' termini in DNA. These sugar fragments are blocks to DNA polymerase, and their removal is necessary to complete the base excision repair process.
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PMID:Exonuclease I of Escherichia coli removes phosphoglycolate 3'-end groups from DNA. 836 94

Analogues of the 2',5'-linked adenylate trimer 5'-monophosphates (p5'A2'p5'A2'p5'A) containing 8-hydroxyadenosine and 8-mercaptoadenosine in the first, second, and third nucleotide positions were tested for their ability to bind to and activate RNase L of mouse L cells. The ability of p5'ASH2'p5'ASH2'p5'ASH (pASH3) (1c) to bind 2-5A dependent endonuclease was markedly decreased. On the other hand, an analogue of the 2',5'-linked adenylate trimer monophosphate substituted by 8-hydroxyadenosine in the first, second, and third nucleotide positions bound almost as well as parent 2-5A [pppA(2'p5'A)2] (p3A3) (1d) to RNase L. The 8-substituted analogues of 2-5A were more resistant to the degradation by the (2',5') phosphodiesterase. Of particular interest is monophosphate, pASH3 (1c) which possessed higher anti-HIV activity than pA3 (1a) or pAOH3 (1b).
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PMID:Characterization and biological activity of 8-substituted analogues of 2',5'-oligoadenylates. 846 24

Exposure of DNA to ionising radiation produces a variety of lesions. Double-strand breaks are repaired by recombinational pathways including a rapid single-strand annealing process which results in deletion of DNA sequences, and a double-strand break repair pathway which conserves genetic information. Single-strand breaks are repaired by the sequential action of a 3'-phosphodiesterase, DNA polymerase beta and a DNA ligase. Damaged bases are excised by DNA glycosylases, and a single-base gap introduced, either by the action of an AP endonuclease activity and a DNA deoxyribophosphodiesterase, or by the AP lyase activity of the glycosylase and an AP endonuclease. Repair is completed by DNA polymerase beta and a DNA ligase.
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PMID:The repair of ionising radiation-induced damage to DNA. 851 49

It was demonstrated previously that a deoxyribophosphodiesterase (dRpase) activity is associated with the DNA repair enzyme exonuclease I, and that this activity is stimulated by the addition of the E. coli single-stranded DNA-binding protein (Ssb). This activity catalyzes the release of deoxyribose-phosphate groups at apurinic/apyrimidinic (AP) sites in the DNA that have been cleared by the action of an AP endonuclease. We have now used the yeast two-hybrid system to demonstrate that a protein-protein interaction occurs between exonuclease I and Ssb. When the E. coli ssb gene was fused in frame to the DNA-activating domain of the GAL4 transcriptional activator and the exonuclease I gene was fused in frame to the DNA-binding domain, a functional GAL4 transcriptional activator was produced as determined by growth of yeast on selective medium and the measurement of beta-galactosidase activity. We have also demonstrated that Ssb can stimulate the dRpase activity of exonuclease I using double-stranded bacteriophage M13 DNA containing several strand interruptions at incised AP sites. These results suggest that Ssb may be required for efficient base-excision repair in bacteria.
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PMID:Protein-protein interactions between the Escherichia coli single-stranded DNA-binding protein and exonuclease I. 861 28

APEX nuclease is a mammalian DNA repair enzyme having apurinic/apyrimidinic (AP) endonuclease, 3'-5'-exonuclease, DNA 3' repair diesterase and DNA 3'-phosphatase activities. It is also a redox factor (Ref-1), stimulating DNA binding activity of AP-1 binding proteins such as Fos and Jun. In the present paper, a cDNA for the enzyme was isolated from a rat brain cDNA library using mouse Apex cDNA as a probe and sequenced. The rat Apex cDNA was 1221 nucleotides (nt) long, with a 951-nt coding region. The amino acid sequence of rat APEX nuclease has 98.4% identity with mouse APEX nuclease. Using the rat Apex cDNA as a probe for Northern blot analysis, the size of rat Apex mRNA was shown to be approximately 1.5 kb. Its expression was compared in 9 rat organs on postnatal days 7 and 28. Although Apex mRNA was expressed ubiquitously, the levels varied significantly, suggesting organ- or tissue-specific expression of the Apex gene. The highest level was observed in the testis, relatively high levels in the thymus, spleen, kidney and brain, and the lowest level in the liver. The level of expression at postnatal day 28, with the exception of the testis, was almost the same as or lower in respective organs than that at postnatal day 7. Postnatal developmental changes of Apex mRNA expression in the testis and thymus were further studied. The expression in testis was markedly increased on postnatal days 21 and 28. The expression in thymus increased once at postnatal day 14, and then decreased. The developmental changes of Apex mRNA expression in testis and thymus suggest that APEX nuclease is involved in processes such as recombinational events.
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PMID:cDNA cloning of rat major AP endonuclease (APEX nuclease) and analyses of its mRNA expression in rat tissues. 870 82

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