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)

Restriction mutants of two different R factor-controlled host specificities (RI and RII) were isolated. All of the restriction mutants examined had a normal modification phenotype. No complementation was observed between the RI and RII host specificities. It is concluded that for each host specificity no protein subunit is shared by the restriction endonuclease and modification methylase.
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PMID:R factor-controlled restriction and modification of deoxyribonucleic acid: restriction mutants. 456 38

The restriction endonuclease from E. coli B is both an endonuclease and a DNA methylase. Both activities either require or are stimulated by Mg(+2), adenosine triphosphate, and S-adenosyl-L-methionine. The particular activity which the enzyme exhibits depends upon the nature of the SB sites, the genetic sites that identify substrate DNA. Enzymatic treatment of DNA that has an unmodified, wild-type SB site results in either rapid restriction of the DNA or very slow methylation of the SB site. On the other hand, a hybrid SB site (modified), which protects the DNA molecule from restriction, results in rapid methylation of that SB site.
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PMID:Kinetics of methylation of DNA by a restriction endonuclease from Escherichia coli B. 461 May 61

Structural genes for EcoRI restriction endonuclease and modification methylase have been inserted into the plasmid vector pKC30 (Shimatake, H., and Rosenberg, M. (1981) Nature (Lond.) 292, 128-132) downstream from the bacteriophage lambda pL promoter. Upon induction of pL expression in strains producing a thermolabile lambda cI857 repressor, synthesis of EcoRI polypeptides is enhanced to the extent that after 4 h they represent several per cent of the total cell protein. Purification of activities overproduced in this manner yields preparations of endonuclease and methylase which appear identical to those obtained from conventional sources, with overall yields corresponding to 0.5 to 0.9 g of each enzyme/kg of cell paste.
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PMID:Isolation of gram quantities of EcoRI restriction and modification enzymes from an overproducing strain. 608 51

The capacity of the modification methylase (MHhaI) and restriction endonuclease (HhaI) form Haemophilus haemolyticus to methylate and cleave, respectively, recognition sites which are in right-handed B or left-handed Z structures was determined in vitro. Plasmids containing tracts of (dC-dG) as well as numerous individual d(GCGC) sites distributed around the vector were studied. Negative supercoiling was used to convert the (dC-dG) tracts (approximately 30 bp in length) from a right-handed to a left-handed conformation. (Methyl-3H)-SAM was used to localize and quantitate modified d(GCGC) recognition sites, whereas cleavage by HhaI was used to detect unmethylated sites. In the left-handed Z-form, the (dC-dG) blocks were not methylated by MHhaI and not cleaved by HhaI. A two-dimensional gel analysis of a family of 33 topoisomers treated with MHhaI revealed that the lack of methylation in the (dC-dG) blocks was directly correlated to the supercoil-induced B to Z transition in these segments. These results are significant with respect to enzyme-DNA interactions in general and provide the basis for using HhaI and MHhaI as probes for different DNA structures and conformational transitions under physiological conditions.
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PMID:HhaI methylase and restriction endonuclease as probes for B to Z DNA conformational changes in d(GCGC) sequences. 609 48

The mutagenicity of O6-methylguanine (O6MeGua), a chemical carcinogen-DNA adduct, has been studied in vivo by using a single-stranded M13mp8 genome in which a single O6MeGua residue was positioned in the unique recognition site for the restriction endonuclease Pst I. Transformation of Escherichia coli MM294A cells with this vector gave progeny phage, of which 0.4% were mutated in their Pst I site. In a separate experiment, cellular levels of O6MeGua-DNA methyltransferase (an O6MeGua-repair protein) were depleted by treatment with N-methyl-N'-nitro-N-nitrosoguanidine (MNNG) prior to viral DNA uptake. In these cells, the mutation frequency due to O6MeGua increased with increasing MNNG dose (the highest mutation frequency observed was 20%). DNA sequence analysis of 60 mutant genomes revealed that O6MeGua induced exclusively G-to-A transitions.
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PMID:In vivo mutagenesis by O6-methylguanine built into a unique site in a viral genome. 609 94

DNA fragments of Xenopus laevis, the African frog, were cloned in the EcoRI site of the Escherichia coli plasmid pACYC189 and tested for ability to initiate and complete replication of the recombinant plasmid when injected into unfertilized eggs of X. laevis. After measurement of the [3H]-thymidine incorporation per egg for a number of recombinant plasmids, pSW14 and pSW9, which respectively contain a small segment (550 base pairs) and several kilobases of frog DNA, were selected for more extensive analysis. In spite of the small size of the segment in pSW14, it incorporates in 2 hr at least 3 times as much labeled thymidine as either pSW9 or the vector alone. The DNA synthesis in pSW14 was shown to be replication rather than repair synthesis, based on a buoyant density shift of the product when iododeoxyuridine was used for labeling. To determine the number of replications of pSW14, a novel method was employed. Because pSW14 is a head-to-head dimer of the vector with the Xenopus fragment inserted at an EcoRI site, the plasmid has three methylatable sites--two bracketing the Xenopus fragment and one opposite the fragment. By cotransformation of E. coli with pSW14 and pBR322 containing the EcoRI methylase gene, supercoiled pSW14 was methylated and injected into eggs with [3H]thymidine. Disappearance of modified EcoRI sites by semiconservative replication was followed by measuring the sensitivity to EcoRI endonuclease over time. The results showed that about 50% of the labeled, supercoiled DNA recovered from eggs after 4 hr was sensitive to EcoRI digestion, which indicates that most of the DNA that incorporated [3H]thymidine had replicated twice during the 4 hr in the unfertilized eggs of X. laevis. We conclude that pSW14 has a functional origin in the Xenopus DNA segment.
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PMID:Cloning of an origin of DNA replication of Xenopus laevis. 625 72

The gene coding for the sequence-specific modification methylase methM . BspI of Bacillus sphaericus R has been cloned in Escherichia coli by means of plasmid pBR322. The selection was based on the expression of the cloned gene which rendered the recombinant plasmid resistant to BspI restriction endonuclease cleavage. The gene is carried by a 9 kb BamHI fragment and by a smaller 2.5 kb EcoRI fragment derived from the BamHI fragment. The Bsp-specific methylase level was found to be higher in the recombinant clones than in the parental strain. The methylase gene is probably located on the Bacillus sphaericus chromosome, and not on a plasmid known to be carried by this strain. The recombinant clones do not exhibit an BspI restriction endonuclease activity.
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PMID:Cloning the modification methylase gene of Bacillus sphaericus R in Escherichia coli. 625 40

The Eco RI endonuclease and methylase recognize the same hexanucleotide substrate sequence. We have determined the sequence of a fragment of DNA which encodes these enzymes using the chain-termination method of Sanger (Sanger, F., Nicklen, S., and Coulson, A. R. (1977) Proc. Natl. Acad. Sci. U. S. A. 74, 5463-5467). The amino acid sequences of both enzymes were derived from the DNA sequence. The coding regions selected include the only open translational frames of sufficient length to accommodate the enzymes. They coincide with previously established gene boundaries and orientation. The predicted amino acid sequences correlate well with analyses of the purified protein. Comparison of the nucleotide and protein sequences reveals no homology between the endonuclease and methylase which might provide insight into the origin of the restriction-modification system or the mechanism of common substrate recognition. Based on secondary structure predictions, the two enzymes also have grossly different molecular architecture. The base composition of the sequence is 65% A + T, and the codon usage is significantly different from that observed in several Escherichia coli chromosomal genes. In some cases, frequently selected codons are recognized by minor tRNA species. A spontaneous mutation in the endonuclease gene was isolated. Serine replaces arginine at residue 187. In crude extracts, Eco RI specific cleavage is approximately 0.3% wild type.
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PMID:Sequence analysis of the DNA encoding the Eco RI endonuclease and methylase. 625 3

A library of Bacillus subtilis chromosomal deoxyribonucleic acid (DNA) was constructed, using lambda charon 4A as a cloning vector. Partially cleaved Bacillus subtilis DNA was prepared by partial methylation with EcoRI methylase, followed by complete EcoRI endonuclease digestion. More than 95% of the phage particles carried B. subtilis DNA inserts. When this library was screened for transforming activity, using competent cells, 70% of the genetic markers tested were found in a sample of 1,710 plaques. Cloned genetic loci were found to be about 100-fold more efficient in transforming activity than chromosomal DNA. Intact phage particles containing the pheA locus were found to be able to transform competent recipients with approximately the same efficiency as phage DNA. Transformation by intact particles was insensitive to deoxyribonuclease.
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PMID:Isolation of Bacillus subtilis genes from a charon 4A library. 626 Jul 47

Here we report the cloning and preliminary characterization of the Pst I restriction-modification system of Providencia stuartii 164. Transformants of Escherichia coli carrying the Pst I gene system inserted into the cloning vector pBR322 were selected on the basis of acquired resistance to bacteriophage lambda infection. Pst I endonuclease was detected in osmotic shock fluid from each of the resistant clones. Plasmid and chromosomal DNA from these clones could not be digested by Pst I, indicating that the gene for the corresponding modification enzyme had also been cloned and was being expressed. The smallest recombinant plasmid encoding both activities, pPst201, contains an insert of approximately 4000 base pairs. In vitro transcription studies indicate that this DNA fragment also contains the endogenous promoter(s) of the system. When pPst201 was introduced into a minicell-producing strain of E. coli, two new proteins, 32,000 and 35,000 daltons, were synthesized. We have assigned these to the Pst I modification (methylase) and restriction enzymes, respectively. The active form of the restriction enzyme is a dimer, as determined by gel filtration. Constructed transformants of P. stuartii 164 that carry the Pst I system inserted into pBR322 produce approximately 10 times more Pst I endonuclease activity than does the native strain.
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PMID:Cloning and expression of the Pst I restriction-modification system in Escherichia coli. 626 7

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