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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)
Oligonucleotides containing
2-aminopurine
(2-AP) in place of G or A in the recognition site of EcoRII (CCT/AGG) or SsoII (CCNGG) restriction endonucleases have been synthesized in order to investigate the specific interaction of DNA with these enzymes. Physicochemical properties (CD spectra and melting behaviour) have shown that DNA duplexes containing
2-aminopurine
exist largely in a stable B-like form. 2-Aminopurine base paired with cytidine, however, essentially influences the helix structure. The presence of a 2-AP-C mismatch strongly reduces the stability of the duplexes in comparison with the natural double strand, indicated by a biphasic melting behaviour. SsoII restriction
endonuclease
recognizes and cleaves the modified substrate with a 2-AP-T mismatch in the centre of the recognition site, but it does not cleave the duplexes containing
2-aminopurine
in place of inner and outer G, or both. EcoRII restriction
endonuclease
does not cleave duplexes containing
2-aminopurine
at all. The two-substrate mechanism of EcoRII-DNA interaction, however, allows hydrolysis of the duplex containing
2-aminopurine
in place of adenine in the presence of the canonical substrate.
...
PMID:The interaction of DNA duplexes containing 2-aminopurine with restriction endonucleases EcoRII and SsoII. 761 47
The site-specific
endonuclease
R.BspKT6I and the cognate site-specific methylase M.BspKT6I have been isolated from the thermophilic strain of Bacillus species KT6 using gel-filtration on Sephadex G100 followed by chromatography on heparin-Sepharose and hydroxyapatite. Endonuclease BspKT6I is an isomer but not an isoschizomer of Sau3AI and MboI. It recognized on the DNA molecule the GAT decreases C sequence and cleaves it; however, unlike Sau3AI and MboI it produces 3'-protruding dinucleotides. The site cleavage is inhibited by dam-methylation. The sticky ends resulting from the BspKT6I cleavage are identical and complementary to the ends formed after the PvuI cleavage. The isolated from the B. species KT6 methylase protects the DNA from subsequent cleavage by BspKT6I.
Adenine
is a methylated base.
...
PMID:[A new site-specific endonuclease and methylase from a thermophilic strain of Bacillus species KT6]. 787 80
The interaction of the EcoRV restriction
endonuclease
with the dG and dC bases in its recognition sequence (GATATC) has been studied using base analogues. These modified dG and dC bases each have a single potential protein contact removed. The analogues have been incorporated into the self-complementary dodecamer d(pGACGATATCGTC) at the appropriate positions (underlined). Many of the analogues caused no change in the Tm of the duplex or else lowered the Tm by a small amount such that a duplex was still formed at temperatures suitable for enzyme assay. However, the dG analogue
2-aminopurine
-1-beta-D-2'-deoxyriboside destabilized the duplex to such an extent that the 12'-mer could not be used for enzyme assays. To overcome this, a longer self-complementary 18'-mer was used with this modified base. The circular dichroism spectra of the modified base containing 12'-mers (and the 18'-mer in the case of
2-aminopurine
) were very similar to the parent sequences lacking modified bases. This demonstrates the formation of B-DNA structures in all cases and similar overall conformations. The Km and kcat values for the various modified oligomers have been determined, and these data have been used to assess the roles that functional groups on the dG and dC bases play in the recognition and hydrolysis of GATATC sequences by the
endonuclease
. The results obtained here have been compared to the crystal structures of the EcoRV complexed with a GATATC sequence, and this has allowed a critical evaluation of the base analogue approach.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Interaction of the restriction endonuclease EcoRV with the deoxyguanosine and deoxycytidine bases in its recognition sequence. 811 Jul 83
The Vsr
endonuclease
of Escherichia coli initiates the repair of T/G mismatches caused by deamination of 5-methylcytosine to thymine. In this paper, we examine the capacity of Vsr to prevent CG-to-TA mutations in cells with increased transcription of the cytosine methylase gene (dcm). We find that sufficient Vsr is produced by a single chromosomal copy of vsr to prevent mutagenesis. We also investigate the cause of the transition and frameshift mutations in cells overproducing Vsr. Neither the absence of the dcm methylase nor its overproduction affects Vsr-stimulated mutagenesis. However, addition of mutS, mutL, or mutH on multicopy plasmids has a significant effect: mutL or mutH decreases the number of mutations, while mutS stimulates mutagenesis. The mut-containing plasmids have the same effect in cells treated with
2-aminopurine
and in cells made defective in DNA proofreading, two experimental situations known to cause transition and frameshift mutations by saturating mismatch repair.
...
PMID:The Vsr endonuclease of Escherichia coli: an efficient DNA repair enzyme and a potent mutagen. 932 51
Adenine
-DNA glycosylase MutY of Escherichia coli catalyzes the cleavage of adenine when mismatched with 7,8-dihydro-8-oxoguanine (GO), an oxidatively damaged base. The biological outcome is the prevention of C/G-->A/T transversions. The molecular mechanism of base excision repair (BER) of A/GO in mammals is not well understood. In this study we report stimulation of mammalian adenine-DNA glycosylase activity by apurinic/apyrimidinic (AP)
endonuclease
using murine homolog of MutY (Myh) and human AP
endonuclease
(Ape1), which shares 94% amino acid identity with its murine homolog Apex. After removal of adenine by the Myh glycosylase activity, intact AP DNA remains due to lack of an efficient Myh AP lyase activity. The study of wild-type Ape1 and its catalytic mutant H309N demonstrates that Ape1 catalytic activity is required for formation of cleaved AP DNA. It also appears that Ape1 stimulates Myh glycosylase activity by increasing formation of the Myh-DNA complex. This stimulation is independent of the catalytic activity of Ape1. Consequently, Ape1 preserves the Myh preference for A/GO over A/G and improves overall glycosylase efficiency. Our study suggests that protein-protein interactions may occur in vivo to achieve efficient BER of A/GO.
...
PMID:Enhanced activity of adenine-DNA glycosylase (Myh) by apurinic/apyrimidinic endonuclease (Ape1) in mammalian base excision repair of an A/GO mismatch. 1116 Aug 97
Schistosoma mansoni genomic DNA from male and female adult worms was subjected to restriction by the isoschizomeric endonucleases HpaII and MspI, which display different sensitivities with respect to cytosine methylation. The digested DNA was hybridized with 13 S. mansoni probes. Southern blot analysis showed that there were no observable differences in the restriction patterns of the two isoschizomers and that the patterns were identical in male and female parasites.
Adenine
methylation was also ruled out since no differences were observed with DpnI, Sau3A1, or MboI restriction enzymes. The methylation-dependent restriction
endonuclease
McrBC, which cleaves DNA containing methylcytosine and will not cleave unmethylated DNA, did not digest S. mansoni genomic DNA. These results demonstrate that the genome of adult S. mansoni is not methylated.
...
PMID:Lack of DNA methylation in Schistosoma mansoni. 1152 39
The PspGI restriction-modification system recognizes the sequence CCWGG. R.PspGI cuts DNA before the first C in the cognate sequence and M.PspGI is thought to methylate N4 of one of the cytosines in the sequence. M.PspGI enhances fluorescence of
2-aminopurine
in DNA if it replaces the second C in the sequence, while R.PspGI enhances fluorescence when the fluorophore replaces adenine in the central base pair. This strongly suggests that the methyltransferase flips the second C in the recognition sequence, while the
endonuclease
flips both bases in the central base pair out of the duplex. M.PspGI is the first N4-cytosine MTase for which biochemical evidence for base flipping has been presented. It is also the first type IIP methyltransferase whose catalytic activity is strongly stimulated by divalent metal ions. However, divalent metal ions are not required for its base-flipping activity. In contrast, these ions are required for both base flipping and catalysis by the
endonuclease
. The two enzymes have similar temperature profiles for base flipping and optimal flipping occurs at temperatures substantially below the growth temperature of the source organism for PspGI and for the catalytic activity of
endonuclease
. We discuss the implications of these results for DNA binding by these enzymes and their evolutionary origin.
...
PMID:DNA base flipping by both members of the PspGI restriction-modification system. 1871 29
Mycobacterium leprae, which has undergone reductive evolution leaving behind a minimal set of essential genes, has retained intervening sequences in four of its genes implicating a vital role for them in the survival of the leprosy bacillus. A single in-frame intervening sequence has been found embedded within its recA gene. Comparison of the M. leprae recA intervening sequence with the known intervening sequences indicated that it has the consensus amino acid sequence necessary for being a LAGLIDADG-type homing
endonuclease
. In light of massive gene decay and function loss in the leprosy bacillus, we sought to investigate whether its recA intervening sequence encodes a catalytically active homing
endonuclease
. Here we show that the purified M. leprae RecA intein (PI-MleI) binds to cognate DNA and displays
endonuclease
activity in the presence of alternative divalent cations, Mg2+ or Mn2+. A combination of approaches, including four complementary footprinting assays such as DNase I, copper-phenanthroline, methylation protection, and KMnO4, enhancement of
2-aminopurine
fluorescence, and mapping of the cleavage site revealed that PI-MleI binds to cognate DNA flanking its insertion site, induces helical distortion at the cleavage site, and generates two staggered double strand breaks. Taken together, these results implicate that PI-MleI possesses a modular structure with separate domains for DNA target recognition and cleavage, each with distinct sequence preferences. From a biological standpoint, it is tempting to speculate that our findings have implications for understanding the evolution of the LAGLIDADG family of homing endonucleases.
...
PMID:Characterization of Mycobacterium leprae RecA intein, a LAGLIDADG homing endonuclease, reveals a unique mode of DNA binding, helical distortion, and cleavage compared with a canonical LAGLIDADG homing endonuclease. 1960 45
T7
endonuclease
I is a dimeric nuclease that is selective for four-way DNA junctions. Previous crystallographic studies have found that the N-terminal 16 amino acids are not visible, neither in the presence nor in the absence of DNA. We have now investigated the effect of deleting the N-terminus completely or partially. N-terminal deleted enzyme binds more tightly to DNA junctions but cleaves them more slowly. While deletion of the N-terminus does not measurably affect the global structure of the complex, the presence of the peptide is required to generate a local opening at the center of the DNA junction that is observed by
2-aminopurine
fluorescence. Complete deletion of the peptide leads to a cleavage rate that is 3 orders of magnitude slower and an activation enthalpy that is 3-fold higher, suggesting that the most important interaction of the peptide is with the reaction transition state. Taken together, these data point to an important role of the N-terminus in generating a central opening of the junction that is required for the cleavage reaction to proceed properly. In the absence of this, we find that a cruciform junction is no longer subject to bilateral cleavage, but instead, just one strand is cleaved. Thus, the N-terminus is required for a productive resolution of the junction.
...
PMID:The importance of the N-terminus of T7 endonuclease I in the interaction with DNA junctions. 2320 96
EcoP15I is a Type III DNA restriction and modification enzyme of Escherichia coli. We show that it contains two modification (Mod) subunits for sequence-specific methylation of DNA and one copy of a restriction
endonuclease
(Res) subunit for cleavage of DNA containing unmethylated target sequences. Previously the Mod2 dimer in the presence of cofactors was shown to use nucleotide flipping to gain access to the adenine base targeted for methylation (Reddy and Rao, J. Mol. Biol. 298 (2000) 597-610.). Surprisingly the Mod2 enzyme also appeared to flip a second adenine in the target sequence, one which was not subject to methylation. We show using fluorescence lifetime measurements of the adenine analogue,
2-aminopurine
, that only the methylatable adenine undergoes flipping by the complete Res1Mod2 enzyme and that this occurs even in the absence of cofactors. We suggest that this is due to activation of the Mod2 core by the Res subunit.
...
PMID:Time-resolved fluorescence of 2-aminopurine in DNA duplexes in the presence of the EcoP15I Type III restriction-modification enzyme. 2481 95
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