EC:3.1.30.2 - FACTA Search

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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)

The DNA-binding properties of the EcoRV restriction endonuclease and modification methyltransferase with their recognition sequence (GATATC) were analyzed using the electrophoretic band-shift assay. It has previously been observed that the endonuclease does not bind specifically to GATATC sequences in the absence of the essential cofactor Mg2+. To investigate any possible roles for Mg2+ in promoting specific DNA binding, a set of hydrolysis-resistant oligonucleotide substrates were synthesized that contained either phosphate (phosphorothioate, 3'-S-phosphorothiolate), sugar (4'-thiothymidine), or base (7-deaza-2'-deoxyadenosine) modifications. However, it was found that none of these were specifically bound by the endonuclease in either the absence or the presence of Mg2+. In contrast, the methylase bound to GATATC sequences much more strongly than to nonspecific sites, and it was possible to observe the formation of enzyme--DNA complexes by gel retardation. Binding to GATATC sequences was increased by the addition of sinefungin, a nonreactive analogue of the essential cofactor S-adenosyl-L-methionine (AdoMet). Presumably this also occurs with AdoMet although methylation and turnover prevented its direct observation. In the presence of sinefungin the strongest binding was observed with hemimethylated EcoRV sequences (Kd = 11-13 nM), and unmethylated DNA was bound less well (Kd = 46 nM). Specific, albeit weaker binding was also seen with the dimethylated product (Kd = 143 nM). A difference in electrophoretic mobility was observed between enzyme-substrate and enzyme-product complexes suggestive of structural differences between them. The Kapp value found for sinefungin, with the hemimethylated EcoRV sequence, was 10.9 mM.
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PMID:Sequence-specific binding of DNA by the EcoRV restriction and modification enzymes with nucleic acid and cofactor analogues. 766 56

Two plasmid-carried restriction-modification (R-M) systems, EcoRI (from pMB1 of Escherichia coli) and Bsp6I (from pXH13 of Bacillus sp. strain RFL6), enhance plasmid segregational stability in E. coli and Bacillus subtilis, respectively. Inactivation of the endonuclease or the presence of the methylase in trans abolish the stabilizing activity of the R-M systems. We propose that R-M systems mediate plasmid segregational stability by postsegregational killing of plasmid-free cells. Plasmid-encoded methyltransferase modifies host DNA and thus prevents its digestion by the restriction endonuclease. Plasmid loss entails degradation and/or dilution of the methylase during cell growth and appearance of unmethylated sites in the chromosome. Double-strand breaks, introduced at these sites by the endonuclease, eventually cause the death of the plasmid-free cells. Contribution to plasmid stability is a previously unrecognized biological role of the R-M systems.
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PMID:DNA restriction-modification systems mediate plasmid maintenance. 776 54

The organization and nucleotide (nt) sequences were determined for the genes encoding the SalI restriction and modification (R-M) system (recognition sequence 5'-GTCGAC-3') from Streptomyces albus G. The system comprises two genes, salIR, coding for the restriction endonuclease (ENase, R.SalI; probably 315 amino acids (aa), a predicted M(r) of 35,305; product, G'TCGAC) and salIM, coding for the methyltransferase (MTase, M.SalI; probably 587 aa, a predicted M(r) of 64,943; product, GTCGm6AC). The genes are adjacent, they have the same orientation, and they occur in the order salIR then salIM. R.SalI contains a putative magnesium-binding motif similar to those at the active sites of R.EcoRI and R.EcoRV, but otherwise it bears little aa sequence similarity to other ENases. M.SalI is a member of the m6A gamma class of MTases. In aa sequence it resembles M.AccI, another m6A gamma-MTase whose recognition sequence includes the SalI recognition sequence as a subset.
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PMID:Organization and sequence of the SalI restriction-modification system. 782 68

A new site-specific endonuclease BspLU11III was purified to homogeneity from a thermophilic strain Bacillus species LU11. BspLU11III recognizes the 5'-GGGAC-3' sequence on the double-stranded DNA and cleaves the 10/14 and 11/15 nucleotides in different strands away from the recognition site. The enzyme exists in solution as a monomer with a molecular mass of about 93 kDa. When incubated with S-adenosyl-L-methionine, BspLU11III displays a DNA-methyltransferase activity. The adenine residue is methylated inside the recognition site 5'-GGGAC-3' in the only strand. The restriction activity does not change in the presence of ATP but is stimulated by 80 microM S-adenosyl-L-methionine (4-fold). Magnesium cations are needed for the restriction activity. Sodium chloride stimulates the "star" activity of BspLU11III. According to its properties, BspLU11III can be classified as a type IV endonuclease.
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PMID:[A new site specific endonuclease-methylase from a thermophilic strain of Bacillus species LU11]. 787 79

The restriction endonuclease EcoRI binds and cleaves DNA containing GAATTC sequences with high specificity. According to the crystal structure, most of the specific contacts of the enzyme to the DNA are formed by the extended chain region and the first turn of alpha-helix alpha 4 (amino acids 137-145). Here, we demonstrate that a dodecapeptide (WDGMAAGNAIER), which is identical in the underlined parts of its sequence to EcoRI amino acids 137-145, specifically binds to GAATTC sequences. The peptide inhibits DNA cleavage by EcoRI but not by BamHI, BclI, EcoRV, HindIII, PacI, and XbaI. DNA cleavage by XbaI is slowed down at sites that partially overlap with EcoRI sites. The peptide inhibits cleavage of GAATTC sites by ApoI, which recognizes the sequence RAATTY. It interferes with DNA methylation by the EcoRI methyltransferase but not by the BamHI methyltransferase. It competes with EcoRI for DNA binding. Based on these results, the DNA binding constant of the peptide to GAATTC sequences was calculated to be 3 x 10(4) M-1. DNA binding is not temperature-dependent, suggesting that binding of the peptide is entropy-driven. As the peptide does not show any nonspecific binding to DNA, its DNA binding specificity is similar to that of EcoRI, in spite of the fact that the affinity is much smaller. These results suggest that contacts to the phosphate groups in EcoRI mainly provide binding affinity, whereas the specificity of EcoRI is based to a large extent on sequence-specific base contacts.
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PMID:A dodecapeptide comprising the extended chain-alpha 4 region of the restriction endonuclease EcoRI specifically binds to the EcoRI recognition site. 789 Jun 21

A 2648-bp fragment from the P4 plasmid of Shigella sonnei strain 47 coding for the SsoII restriction endonuclease (ENase) and methyltransferase (MTase) (recognition sequence 5'-CCNGG) was sequenced. Two divergently arranged open reading frames of 905 bp for the SsoII ENase (R.SsoII) and 1137 bp for the MTase (M.SsoII) were identified. The coding regions are separated by 110 bp. The calculated M(r) of R.SsoII (35937) and M.SsoII (42887) are in good agreement with values previously obtained by in vitro transcription-translation experiments, i.e., 35 and 43 kDa for the ENase and MTase, respectively. The M.SsoII amino acid (aa) sequence revealed a considerable similarity to m5C-MTases recognizing the related sequences--M.EcoRII, M.dcm, M.MspI, M.BsuFI, M.HpaII, and M.HhaI. Surprisingly, the greatest degree of homology has been observed between the aa sequences of M.SsoII and M.NlaX, with an unidentified recognition sequence. The multiple alignment of aa sequences helps to identify the blocks of conserved aa in variable regions of MTases. These conserved aa can play a key role in target recognition. Some aspects of evolution of m5C-MTases are discussed.
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PMID:Analysis of the nucleotide and derived amino acid sequences of the SsoII restriction endonuclease and methyltransferase. 791 6

The genes encoding the HindIII restriction endonuclease (R.HindIII ENase) and methyltransferase (M.HindIII MTase) from Haemophilus influenzae Rd were cloned and expressed in Escherichia coli and their nucleotide (nt) sequences were determined. The genes are transcribed in the same orientation, with the ENase-encoding gene (hindIIIR) preceding the MTase-encoding gene (hindIIIM). The two genes overlap by several nt. The ENase is predicted to be 300 amino acids (aa) in length (34,950 Da); the MTase is predicted to be 309 aa (35,550 Da). The HindIII ENase and MTase activities increased approx. 20-fold when the genes were brought under the control of an inducible lambda pL promoter. Highly purified HindIII ENase and MTase proteins were prepared and their N-terminal aa sequences determined. In H. influenzae Rd, the HindIII R-M genes are located between the holC and valS genes; they are not closely linked to the HindII R-M genes.
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PMID:Cloning, analysis and expression of the HindIII R-M-encoding genes. 795 67

Pasteurella haemolytica is the leading cause of economic loss to the beef cattle industry in the United States and an important etiologic agent worldwide. Study of P. haemolytica is hindered by researchers' inability to genetically manipulate the organism. A new restriction endonuclease, PhaI, an isoschizomer of SfaNI (R. J. Roberts, Methods Enzymol. 65:19-36, 1980), was isolated from P. haemolytica serotype 1, strain NADC-D60, obtained from pneumonic bovine lung. PhaI recognizes the 5-base nonpalindromic sequences 5'-GCATC-3' and 5'-GATGC-3'. Cleavage occurs 5 bases 3' from the former recognition site and 9 bases 5' from the latter recognition site. A gene encoding a methyltransferase which protects against PhaI cleavage was cloned from P. haemolytica NADC-D60 into Escherichia coli. Whereas unmethylated plasmid DNA containing a P. haemolytica origin of replication was unable to transform P. haemolytica when introduced by electroporation, the same plasmid DNA obtained from E. coli which contained a cloned PhaI methyltransferase gene could do so. The data indicate that PhaI is an effective barrier to the introduction and establishment of exogenous DNA in P. haemolytica.
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PMID:Characterization of a restriction endonuclease, PhaI, from Pasteurella haemolytica serotype A1 and protection of heterologous DNA by a cloned PhaI methyltransferase gene. 803 Oct 94

The complete type-II Cfr9I restriction-modification (R-M) system of Citrobacter freundii strain RFL9, recognizing the DNA sequence CCCGGG, has been cloned and expressed, and functionally active enzymes have been produced in Escherichia coli. Both the methyltransferase (MTase; M.Cfr9I) and restriction endonuclease (ENase; R.Cfr9I) were found to be encoded on a 2.3-kb cloned fragment in the same transcriptional orientation, but differing in translational phases. The last codon (underlined) (ATGA) of the MTase-encoding gene (Cfr9IM) overlaps with the start codon for the ENase-encoding gene (overlined) (cfr9IR). A nucleotide sequence complementary to a predicted Shine-Dalgarno sequence preceding cfr9IR is within this gene. Predicted free energy (delta G) for formation of the mRNA secondary structure involving these complementary sequences was found to be -16.1 kcal/mol. Amino-acid sequence homology of 80% was found between R.Cfr9I and R.XcyI.
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PMID:Cloning and analysis of translational control for genes encoding the Cfr9I restriction-modification system. 816 80

A genetic screen was used to identify amino acid substitutions that enable the FokI restriction endonuclease to cleave DNA in cells that express the cognate methyltransferase activity. Missense mutations that give rise to this phenotype were isolated at eight different positions (G188K, P196S, T343I, S388N, S395F, E407K, E410K, D421N), clustered in two regions of the polypeptide sequence of FokI. Two of the mutant endonucleases (P196S and D421N) were purified to homogeneity and analyzed in detail. Both mutants cleave FokI target sites (5'-GGATG-3') in a manner similar to the wild-type enzyme. Neither mutant cleaved noncanonical sequences, but both efficiently cleaved DNA substrates containing hemi-methylated FokI sites. This class of mutations has not been observed with other restriction enzymes.
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PMID:A novel class of FokI restriction endonuclease mutants that cleave hemi-methylated substrates. 816 34

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