EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Target Concepts:

Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Male weanling Fischer 344 rats were fed either a semipurified diet deficient in the methyl donors methionine, choline, and folic acid or a supplemented control diet for a period of 9 weeks. At intervals of 2, 5, and 7 days, 3 weeks, and 9 weeks after initiation of the respective diets, the relative level of DNA strand breaks and the degree of cytosine methylation were quantified in high molecular weight DNA and also within the p53 gene in liver samples from these rats. Genome-wide strand break accumulation was associated with progressive genomic hypomethylation and increased DNA methyltransferase activity. With the use of quantitative PCR as a gene-specific DNA strand break assay, unique DNA strand breaks were detected in exon 5 but not in exons 6-8 of the p53 gene, and were accompanied by significant p53 gene hypomethylation. DNA hypomethylation has been shown to alter the conformation and stability of the chromatin structure, rendering affected regions more accessible to DNA-damaging agents. To determine whether methylation status alters the sensitivity of DNA to strand breakage, DNA in isolated nuclei was methylated in vitro and exposed to endogenous calcium/magnesium-dependent endonuclease activated under defined conditions. The incidence of enzyme-induced DNA strand breaks was decreased significantly with increased DNA methylation. In nuclei isolated from livers of methyl-deficient rats, the hypomethylated DNA was found to be more sensitive to enzyme- and oxidant-induced DNA strand break induction. Taken together, these results provide evidence that DNA strand breaks are induced in high molecular weight DNA and also within the p53 gene in liver tissue from methyl-deficient rats. The increased incidence of these strand breaks in DNA from methyl-deficient rats may be related to alterations in chromatin accessibility associated with DNA hypomethylation.
...
PMID:Breaks in genomic DNA and within the p53 gene are associated with hypomethylation in livers of folate/methyl-deficient rats. 779 83

It has been recently shown that in developing chicken embryonic nuclear extracts there is a 5-methyldeoxycytidine excision repair activity (Jost, J. P. (1993) Proc. Natl. Acad. Sci. U. S. A. 90, 4684-4688). We show that in differentiating mouse myoblasts, a similar enzymatic reaction may be responsible for the genome-wide DNA demethylation (up to 50% of all CmCGG) occurring between the 3rd and 5th days of differentiation. Furthermore, in differentiating myoblasts, there is first a 50% transient decrease in DNA methyltransferase activity and a 90% drop in the rate of DNA synthesis, followed by an increase in 5-methyl-CpG endonuclease and 5-methyldeoxycytidine excision repair activities. As tested in vitro, the maximal activity of the 5-methyldeoxycytidine excision repair coincides with the maximal in vivo genome-wide DNA demethylation. We also find that 3-aminobenzamide, a potent inhibitor of ADP-ribosyltransferase, blocks the differentiation of myoblasts, the 5-methyldeoxycytidine excision repair activity, and the genome-wide demethylation.
...
PMID:Transient DNA demethylation in differentiating mouse myoblasts correlates with higher activity of 5-methyldeoxycytidine excision repair. 814 2

The genes encoding the Neisseria lactamica restriction endonuclease IV (R.NlaIV) and its cognate DNA methyltransferase (M.NlaIV), both of which recognize the sequence GGNNCC, have been cloned in Escherichia coli and overexpressed using the T7 polymerase/promoter system. Analysis of a sequenced 3.58 kb fragment established the gene order, leuD-M.NlaIV-R.NlaIV-leuB. The predicted primary sequence of M.NlaIV (423 amino acids) shows the highest degree of identity to a pair of cytosine-specific methyltransferases, M.BanI (44.9%) and M.HgiCI (44.3%), which recognize the sequence GGYRCC (Y, pyrimidines; R, purines). In contrast, the R.NlaIV protein sequence (243 amino acids) is unique in the existing data-base, a situation that holds for most endonucleases. Flanking the NlaIV modification and restriction genes are homologues of the leuD and leuB genes of enteric bacteria, which code for enzymes in the leucine biosynthesis pathway. This gene context implies a possible new mode of gene regulation for the RM.NlaIV system, which would involve a mechanism similar to the recently discovered leucine/Lrp regulon in E. coli.
...
PMID:The NlaIV restriction and modification genes of Neisseria lactamica are flanked by leucine biosynthesis genes. 819 68

Analysis of 94 kb of DNA, located between map positions 88 and 182 kb in the 330-kb chlorella virus PBCV-1 genome, revealed 195 open reading frames (ORFs) 65 codons or longer. One hundred and five of the 195 ORFs were considered major ORFs. Twenty-six of the 105 major ORFs resembled genes in the databases including three chitinases, a chitosanase, three serine/threonine protein kinases, two additional protein kinases, a tyrosine protein phosphatase, two ankyrins, an ornithine decarboxylase, a copper/zinc-superoxide dismutase, a proliferating cell nuclear antigen, a DNA polymerase, a fibronectin-binding protein, the yeast Ski2 protein, an adenine DNA methyltransferase and its corresponding DNA site-specific endonuclease, and an amidase. The genes for the 105 major ORFs were evenly distributed along the genome and, except for one noncoding 1788-nucleotide stretch, the genes were close together. Unexpectedly, a 900-bp region in the 1788-bp noncoding sequence resembled a CpG island.
...
PMID:Analysis of 94 kb of the chlorella virus PBCV-1 330-kb genome: map positions 88 to 182. 861 77

Three proteins, yeast transcription regulatory protein GCN4, M.FokI DNA methyltransferase and R.FokI restriction endonuclease (ENase) were used to attain specific cleavage of DNA at the 18-20-bp GCN4 recognition site. This is a novel version of the 'Achilles' heel cleavage' (AC) technique [Koob et al., Science 241 (1988) 1084-1086]. Since the method employs a class-IIS ENase (R.FokI), which cleaves the DNA outside of its recognition sequence, it leaves the overlapping GCN4-binding intact. Thus, the same GCN4 site can be used in consecutive cleavage reactions. This novel GCN4-IIS-AC technique was applied to study the protein-DNA interaction. Quantitative analysis of the effect of temperature, reaction time, and GCN4 and M.FokI concentrations allowed determination of the GCN4-DNA complex half-life, which was found to be 7 h at 30 degrees C, 18 h at 22 degrees C and over 24 h at 10 degrees C. In addition, conditions for controlled, partial GCN4-IIS-AC digestion of DNA were determined, and applied to the physical mapping of large genomes.
...
PMID:GCN4 eukaryotic transcription factor/FokI endonuclease-mediated 'Achilles' heel cleavage': quantitative study of protein-DNA interaction. 862 Oct 67

The contribution of nonspecific DNA to enzyme efficiency (k(cat)/K(m)) is described for a sequence-specific DNA-modifying enzyme. Our investigation focuses on the EcoRI DNA methyltransferase which transfers a methyl group from the cofactor S-adenosylmethionine to the second adenine in the double-stranded DNA sequence GAATTC. k(cat)/K(m) increases 4-fold as DNA length increases from 14 to 429 base pairs and increases 2-fold as the distance from the site to the nearest end is increased from 29 to 378 base pairs. No changes in k(cat)/K(m) result from further increases in either case. A facilitated diffusion mechanism is proposed in which the methyltransferase scans an average of <400 base pairs prior to dissociation from a DNA molecule. The methyltransferase was found to methylate two sites on a single DNA molecule in a distributive rather than a processive manner, suggesting that the enzyme dissociates from the DNA prior to release of the reaction product S-adenosylhomocysteine. A direct competition experiment with the EcoRI endonuclease shows the methyltransferase to be slightly more efficient at specific site location and catalysis. A rationale for the role of facilitated diffusion in this type II restriction-modification system is proposed.
...
PMID:Contribution of facilitated diffusion and processive catalysis to enzyme efficiency: implications for the EcoRI restriction-modification system. 865 61

The genes encoding a class-IIN restriction-modification (R-M) system (MamI, sequence specificity [symbol: see text] from Microbacterium ammoniaphilum have been cloned in Escherichia coli. The vector used for cloning was plasmid pUC18 modified by the inclusion of three MamI recognition sites. Recombinant clones containing the mamIM gene in its genomic context became fully methylated in vivo and remained completely resistant against digestion with the R.MamI restriction endonuclease (ENase). Determination of the nucleotide (nt) sequence revealed three open reading frames with lengths of 1089 bp (ORF1), 276 bp (ORFc) and 927 bp (ORF2). On the basis of expression and deletion experiments, the 1089-bp ORF1 was assigned to mamIM encoding the M.MamI DNA methyltransferase (MTase). By amino acid sequencing of the N terminus of R.MamI and comparison of the deduced nt sequence with ORF2, the 927-bp ORF2 was identified as the mamIR gene encoding R.MamI. The 276-bp ORFc, located between mamIR and mamIM, is part of the DNA sequence downstream from mamIM shown to be necessary for controlled mamIM expression.
...
PMID:Cloning and characterization of the MamI restriction-modification system from Microbacterium ammoniaphilum in Escherichia coli. 865 88

A plasmid (5.4 kbp) from Salmonella Typhi D4 has been identified as encoding a restriction and modification (R-M) system. DNA fragments (2537 bp) that carried the genes for restriction endonuclease and methyltransferase encoded on the plasmid were sequenced. Two divergently arranged open reading frames of 957 bp for the restriction endonuclease consisting of 318 aa (amino acids) and 1140 bp for the DNA methyltransferase consisting of 379 aa were identified. These sequences were similar to the sequences of the SsoII R-M system, including the interspace between the two genes.
...
PMID:StyD4I restriction-modification system of Salmonella typhi D4: cloning and sequence analysis. 905 87

The gene (xamIM) encoding the DNA methyltransferase of the XamI restriction-modification system from Xanthomonas campestris pv. amaranithicola (M.XamI) has been cloned in Escherichia coli and its nucleotide sequence determined. The sequence predicts a protein of 527 amino acids that contains nine conserved motifs characteristic of DNA amino methyltransferases. In fact, M.XamI shows significant similarity with N6-adenine methyltransferases of the gamma group of amino methyltransferases, including M.SalI (from the isoschizomeric SalI restriction-modification system) and M.TaqI (the only N6-adenine methyltransferase for which a three-dimensional structure is available). M.XamI and M.SalI share two highly conserved regions within the C-terminal domain, one of which aligns with one of the DNA recognition loops proposed for M.TaqI. Analysis of the chromosomal DNA adjacent to xamIM led to the identification of an additional ORF (275 codons), downstream, in the same transcriptional orientation. Although some limited similarities between the SalI restriction enzyme and the product deduced from this ORF were found, the clone carrying xamIM did not express the expected endonuclease function.
...
PMID:Isolation and nucleotide sequence of the gene encoding the XamI DNA methyltransferase of Xanthomonas campestris pv. amaranthicola. 913 May 89

4'-Thio-2'-deoxycytidine was synthesized as a 5'- protected phosphoramidite compatible with solid phase DNA synthesis. When incorporated as the target cytosine (C*) in the GC*GC recognition sequence for the DNA methyltransferase M. HhaI, methyl transfer was strongly inhibited. In contrast, these same oligonucleotides were normal substrates for the cognate restriction endonuclease R. HhaI and its isoschizomer R. Hin P1I. M. HhaI was able to bind both 4'-thio-modified DNA and unmodified DNA to equivalent extents under equilibrium conditions. However, the presence of 4'-thio-2'-deoxycytidine decreased the half-life of the complex by >10-fold. The crystal structure of a ternary complex of M. HhaI, AdoMet and DNA containing 4'-thio-2'-deoxycytidine was solved at 2.05 A resolution with a crystallographic R-factor of 0.186 and R-free of 0.231. The structure is not grossly different from previously solved ternary complexes containing M. HhaI, DNA and AdoHcy. The difference electron density suggests partial methylation at C5 of the flipped target 4'-thio-2'-deoxycytidine. The inhibitory effect of the 4'sulfur atom on enzymatic activity may be traced to perturbation of a step in the methylation reaction after DNA binding but prior to methyl transfer. This inhibitory effect can be partially overcome after a considerably long time in the crystal environment where the packing prevents complex dissociation and the target is accurately positioned within the active site.
...
PMID:DNA containing 4'-thio-2'-deoxycytidine inhibits methylation by HhaI methyltransferase. 920 24

<< Previous 1 2 3 4 5 6 7 8 9 10 Next >>