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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)
Spontaneous mutants that were resistant to zinc were isolated from Alcaligenes eutrophus CH34 containing either the native plasmid pMOL28 or a derivative derepressed for its self-transfer, pMOL50. With the cured plasmid-free derivative of CH34, strain AE104, such mutants were not detected. The mutations, which were shown to be located in the plasmid, increased the level of the nickel and
cobalt
resistance determined by the cnr locus. The chromate resistance closely linked to the cnr locus was not affected by these mutations. In the Znr mutants, the resistance to zinc and nickel was constitutively expressed. Uptake studies showed that the zinc resistance in a Znr mutant resulted from reduced accumulation of zinc ions in comparison with that in the plasmid-free strain. Reduced accumulation of zinc was also observed to a lesser degree in the parental strain induced with nickel, suggesting that zinc interferes with the Ni2+ and
Co2+
efflux system. A 12.2-kb EcoRI-XbaI restriction
endonuclease
fragment containing the cnr locus was cloned from plasmid pMOL28 harboring the mutation and shortened to an 8.5-kb EcoRI-PstI-PstI fragment conferring resistance to zinc, nickel, and
cobalt
. The 12.2-kb EcoRI-XbaI fragment was also reduced to a 9.7-kb BamHI fragment still encoding weak resistance to nickel and
cobalt
but not to zinc. Complementation studies demonstrated the recessivity of the cnr mutations with a Znr phenotype. Such mutations thus allow positive selection of mutants affected in the expression of the cnr operon.
...
PMID:A new type of Alcaligenes eutrophus CH34 zinc resistance generated by mutations affecting regulation of the cnr cobalt-nickel resistance system. 842 50
A 26-kDa
endonuclease
has been purified to homogeneity from zinc-sufficient Euglena gracilis. The protein binds to single-stranded DNA with a higher affinity than to double-stranded DNA, but it exhibits nucleolytic activity toward both. Thus, it converts supercoiled plasmid pBR322 DNA into the linear form, a property characteristic of endonucleases, and it continues to act on the linearized DNA until it is completely degraded. It also hydrolyzes heat-denatured, single-stranded calf thymus DNA. Moreover, at amounts below 1 microgram, it enhances RNA synthesis by RNA polymerase II, a characteristic observed with other DNases. Its addition to an in vitro transcription assay increases RNA synthesis up to 3-fold. The nuclease requires two metal components to carry out its enzymatic activities. It hydrolyzes DNA only in the presence of millimolar amounts of magnesium or micromolar quantities of other activating metal ions, such as manganese, zinc, or
cobalt
. However, even when optimal concentrations of Mg2+ are present, micromolar amounts of the metal-chelating agents OP and HQSA completely inhibit pBR322 digestion. Transcription enhancement is also inhibited completely by both chelators at concentrations that do not affect the intrinsic polymerase II activity. By atomic absorption spectrometry, the enzyme contains 1 g-atom of Zn/mol, which is the likely target of chelator action. The nuclease protein can also be isolated from zinc-deficient E. gracilis, but remarkably it then contains 1 mol of Cu/g-atom and no zinc.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:A Euglena gracilis zinc endonuclease. 844 31
Intron-encoded endonucleases are distinguished by their ability to catalyze the cleavage of double-stranded DNA with high specificity. I-PpoI
endonuclease
, an intron-encoded
endonuclease
from the slime mold Physarum polycephalum, is a small enzyme (2 x 20 kDa) that catalyzes the cleavage of a large asymmetric DNA sequence (15 base pairs). Here, the interactions of I-PpoI with its substrate were examined during both binding (in the absence of Mg2+) and catalysis (in the presence of Mg2+). Using circular permutation assays, I-PpoI was shown to bend its substrate by 38 +/- 4 degrees upon binding. Two independent methods, gel mobility shift assays and fluorescence polarization assays, revealed that I-PpoI binds tightly to its substrate. Values of Kd range from 3.3 to 112 nM, increasing with increasing NaCl concentration. Similar salt effects on the values of Km were observed during steady-state catalysis. At low salt concentrations, the value of kcat/Km for the cleavage of an oligonucleotide duplex approaches 10(8) M-1 s-1. Although other divalent cations can replace Mg2+, catalysis by I-PpoI is most efficient in the presence of an oxophilic metal ion that prefers an octahedral geometry: Mg2+ > Mn2+ > Ca2+ =
Co2+
> Ni2+ > Zn2+. Together, these results provide the first chemical insight into substrate binding and turnover by an intron-encoded
endonuclease
.
...
PMID:Substrate binding and turnover by the highly specific I-PpoI endonuclease. 854 43
We purified an apurinic/apyrimidinic (AP)
endonuclease
from mouse ascites sarcoma (SR-C3H/He) cells. The enzyme showed nicking activity on acid-depurinated DNA but not on untreated, intact DNA. It also showed priming activity for DNA polymerase on both acid-depurinated and bleomycin-damaged DNA. The priming activity on bleomycin-damaged DNA was two times higher than that on an acid-depurinated DNA. The enzymatic properties indicate that the enzyme is a class II AP endonuclease having DNA 3' repair diesterase activity. The purified enzyme has a molecular weight of 39,000 as determined by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The optimal pH for AP
endonuclease
activity was 8.0 in 50 mM Tris-HCl buffer. The AP
endonuclease
activity depended on divalent cation such as Mg2+ and
Co2+
ions, and was inhibited by 2 mM EDTA with no addition of the divalent cation. An appropriate concentration of sodium or potassium salt stimulated the activity. Partial digestion of the AP
endonuclease
with Staphylococcus aureus V8 protease produced 4 major peptide fragments which may be used for protein sequencing.
...
PMID:Purification and characterization of a 39kDa apurinic/apyrimidinic endonuclease from mouse ascites sarcoma cells. 880 52
The two steps of DNA digestion seen in apoptotic cells were recreated in nuclei isolated from 5123tc rat hepatoma cells. The initial DNA cleavage, into high molecular weight fragments (300-50 kb), was stimulated by magnesium ions alone, whereas the second step required both calcium and magnesium ions and produced the ladder of oligonucleosomes. Endonucleolytic activities involved in both steps of DNA cleavage could be separated under appropriate conditions since the magnesium-modulated activity was tightly bound to the chromatin whereas the calcium/magnesium-dependent internucleosomal cleaving activity was easily extractable with a low ionic strength buffer. This calcium/ magnesium-dependent activity was attributed to a novel 97 kDa
endonuclease
which was also activated by manganese and
cobalt
and inhibited by millimolar concentrations of zinc, consistent with the properties ascribed to the apoptotic
endonuclease
. Furthermore, this activity became resistant to extraction with a low salt buffer in nuclei of apoptotic cells. Isoelectrofocusing revealed that the p97 protein existed in multiple forms of different isoelectric points (pI range 4.6-5.0), indicative of its postranslational modification. The p97 enzyme was present constitutively in a variety of cultured cells and rat tissues. It was active over a broad range of pH (6-9), but it was inactivated by reducing agents. In vitro, it displayed both endo- and exonucleolytic activities, and it was capable of both single- and double-stranded DNA cleavage. Rabbit polyclonal anti-p97 antibodies were generated and used to further distinguish this protein from other known cellular nucleases, namely, DNases I and II.
...
PMID:Identification of a novel 97 kDa endonuclease capable of internucleosomal DNA cleavage. 902 Jul 68
We previously identified three distinct DNA endonucleases, DNases alpha, beta and gamma, present in rat thymocyte nuclei. On the basis of their enzymic and biochemical properties, gamma-type DNase was regarded as a candidate for the apoptotic
endonuclease
. Here we purified DNase gamma to apparent homogeneity from apoptotic rat thymocyte nuclei induced by X-irradiation and characterized its properties in detail. The purified DNase gamma exhibited one predominant protein band on SDS/PAGE and an
endonuclease
activity in a zymography with an estimated molecular mass of 33 kDa. The molecular mass of the native form determined by G2000SW gel-filtration HPLC was 30 kDa. Amino acid analysis showed that the amino acid composition of DNase gamma was similar to that of rat DNase I (molecular mass 32 kDa) but different with regard to alanine and lysine residues. The N-terminal amino acid sequence of DNase gamma was revealed to be not identical with that of rat DNase I. In accordance with previous studies, homogeneously purified DNase gamma requires both Ca2+ and Mg2+ for activity. This requirement could be partially supplied by Mn2+. Of the bivalent metal ions tested,
Co2+
, Ni2+, Cu2+ and Zn2+ inhibited DNase gamma activity. These bivalent cations also suppressed apoptotic DNA fragmentation in rat thymocytes irradiated by X-rays. The same order of inhibitory ability was observed for these bivalent metal ions in vivo (in intact cells) and in vitro, suggesting that the suppression of apoptotic DNA fragmentation at the cellular level is due to the inhibition of DNase gamma. DNase gamma activity was found to exist at high levels in spleen, lymph node, thymus, liver and kidney, but little was present in brain, heart or pancreas. On the basis of these findings, together with previous data, we conclude that DNase gamma is a novel DNase I-like endonuclease responsible for internucleosomal cleavage of chromatin during thymic apoptosis.
...
PMID:Purification and properties of DNase gamma from apoptotic rat thymocytes. 930 16
An
endonuclease
named DNase gamma was purified to apparent homogeneity from rat splenocyte nuclei and its properties were characterized. We also determined the NH2-terminal and partial amino acid sequences of the proteolytic internal peptides. The molecular mass of gamma DNase was 33,000 daltons as determined by SDS-polyacrylamide gel electrophoresis. A native molecular mass of 30,000 was estimated by gel filtration. Purified DNase gamma is active in the presence of both Ca2+ and Mg2+ or Mn2+ alone and inhibited by
Co2+
, Ni2+, Cu2+, and especially Zn2+. Maximal activity was achieved at pH 7.2 in Mops-NaOH buffer. The sequence data on the NH2-terminal and seven internal peptides obtained by sequential digestions with Achromobacter protease I and endoproteinase Asp-N revealed that DNase gamma is a novel
endonuclease
that shows sequence homology with DNase I.
...
PMID:Purification, characterization, and amino acid sequencing of DNase gamma from rat spleen. 932 79
The class-IIS restriction
endonuclease
, R.MmeI, was isolated from Methylophilus methylotrophus. It was originally described as a monomeric enzyme, with the native Mr 105000+/-7000, which did not cleave DNA efficiently [Boyd et al. (1986) Nucleic Acids Res. 14, 5255-5274; Tucholski et al. (1995) Gene 157, 87-92]. However, it was discovered that R.MmeI endonucleolytic activity is enhanced by S-adenosyl-l-methionine (AdoMet) and sinefungin, an analogue of AdoMet. Surprisingly, the purified R.MmeI
endonuclease
was found to have a second enzymatic activity, namely methylation of the adenine residue to N6-methyladenine in the top strand of the MmeI-recognition sequence, 5'-TCCR*AC-3' (*A=meA. The R.MmeI methylating activity requires AdoMet and is increased in the presence of several divalent cations, 20-fold by Mg2+ or Ca2+, and less by Mn2+, Zn2+ and
Co2+
; however, methylation is inhibited entirely by sinefungin, at concentrations above 9microM. The latter observation shows that the enhancing effect of AdoMet or sinefungin on the DNA cleavage was not related to the process of DNA methylation. Furthermore, a second component of the MmeI restriction-modification system, a M.MmeI methyltransferase, was isolated and purified. The M.MmeI protein was found to have an Mr of 48000+/-2000 (under denaturing conditions) and to methylate both adenine residues (*A) in the MmeI-recognition sequence 5'-TCCR*AC-3'/3'-*AGGYTG-5'. Methylation of the top strand does not inhibit the DNA cleavage by R.MmeI, whereas methylation of both DNA strands blocks the cleavage process.
...
PMID:Two intertwined methylation activities of the MmeI restriction-modification class-IIS system from Methylophilus methylotrophus. 985 52
We have purified an endo-exonuclease from the fruiting body of the basidiomycete fungus Armillaria mellea by using an ethanol fractionation step, followed by two rounds of column chromatography. The enzyme had an apparent molecular mass of 17500 Da and was shown to exist as a monomer by gel-filtration analysis. The nuclease was active on both double-stranded and single-stranded DNA but not on RNA. It was optimally active at pH8.5 and also exhibited a significant degree of thermostability. Three bivalent metal ions, Mg2+,
Co2+
and Mn2+, acted as cofactors in the catalysis. It was also inhibited by high salt concentrations: activity was completely abolished at 150 mM NaCl. The nuclease possessed both
endonuclease
activity on supercoiled DNA and a 3'-5' (but not a 5'-3') exonuclease activity. It generated 5'-phosphomonoesters on its products that, after a prolonged incubation, were hydrolysed to a mixture of free mononucleotides and small oligonucleotides ranging in size from two to eight bases. Elucidation of its N-terminal amino acid sequence permitted the cDNA cloning of the A. mellea nuclease via a PCR-based approach. Peptide mapping of the purified enzyme generated patterns consistent with the amino acid sequence coded for by the cloned cDNA. A BLAST search of the SwissProt database revealed that A. mellea nuclease shared significant amino acid similarity with two nucleases from Bacillus subtilis, suggesting that the three might constitute a distinct class of nucleolytic enzymes.
...
PMID:Purification, characterization and cDNA cloning of an endo-exonuclease from the basidiomycete fungus Armillaria mellea. 1021 11
The influenza virus RNA-dependent RNA polymerase protein complex contains an associated RNA
endonuclease
activity, which cleaves host mRNA precursors in the cell nucleus at defined positions 9-15 nucleotides downstream of the cap structure. This reaction provides capped oligoribonucleotides, which function as primers for the initiation of viral mRNA synthesis. The
endonuclease
reaction is dependent on the presence of divalent metal ions. We have used a number of divalent and trivalent metal ions alone and in combination to probe the mechanism of RNA cleavage by the influenza virus
endonuclease
. Virus-specific cleavage was observed with various metal ions, and maximum cleavage activity was obtained with 100 microM Mn2+ or 100 microM
Co2+
. This activity was about 2-fold higher than that observed with Mg2+ at the optimal concentration of 1 mM. Activity dependence on metal ion concentration was cooperative with Hill coefficients close to or larger than 2. Synergistic activation of cleavage activity was observed with combinations of different metal ions at varying concentrations. These results support a two-metal ion mechanism of RNA cleavage for the influenza virus cap-dependent
endonuclease
. The findings are also consistent with a structural model of the polymerase, in which the specific
endonuclease
active site is spatially separated from the nucleotidyl transferase active site of the polymerase module.
...
PMID:Metal ion catalysis of RNA cleavage by the influenza virus endonuclease. 1022 Mar 50
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