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)

In the Escherichia coli lysogen HfrH73 described by Shimada et al. (1973), none of the enzymes coded for by the leucine operon is synthesized due to an insertion of phage lambda into cistron leuA. The orientation of lambda in the chromosome is ara leuDCB lambda JAN leuA. After heat induction of the lysogen, plaque-forming transducing phages of two types are formed at low frequency. One type (e.g., lambda pleu9) transduces leuD, leuC, and leuB strains to prototrophy. The other type (e.g., lambda pleu 13) transduces leuA strains to prototrophy. lambda pleu 13 forms lysogens at low frequency (about 0.2%) by integration into the leucine operon. These lysogens are unstable, segregating phage-sensitive clones at high frequency (about 1%). Phages carrying different portions of the leucine operon were formed by aberrant excision after heat induction of strain CV437 (leuA371 lambda pleu13). A phage carrying the entire leucine operon (lambda K2) was constructed by a cross between lambda pleu9 and lambda pleu13. An analysis of leucine-forming enzyme levels in strains lysogenized with lambdaK2 indicated that leuO and leuP are present and functional in lambda K2. leu-specific messenger ribonucleic acid from E. coli hybridizes to the heavy (r) strand of lambdaK2. The leucine operon of lambda G4 pleuABCD (an S7 derivative of lambda K2) exists intact on a 7.3 x 10(6)-dalton fragment (lambdaG4EcoRI-B) generated by cleavage with endonuclease EcoRI. Heteroduplexes formed between lambda G4 and lambda show a 5.4 x 10(6)-dalton piece of bacterial deoxyribonucleic acid (DNA) replacing a 4.5 x 10(6)-dalton piece of lambda DNA starting at 0.46 fractional unit on the map of lambda. Fragment lambda G4EcoRI-B has about 0.6 x 10(6) daltons of lambda DNA from the b2 region at one end and about 1.4 x 10(6) daltons of lambda DNA from the int region at the other end.
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PMID:Isolation and characterization of lambda pleu bacteriophages. 32 Jan 78

A detailed molecular dissection of the yeast mitochondrial genome can be made with restriction endonucleases that generate site-specific cuts in DNA. The ordering of restriction fragments provides the basis of the physical mapping of mitochondrial transcripts and antibiotic resistance (antR) loci, and is a means of analyzing the molecular organization of mtDNA of petite and mit- deletion mutants. We have previously mapped the sites in the mtDNA of yeast strain MH41-7B recognized by the endonucleases Eco RI, Hpa I, Hind III, Bam HI, Sal I, Pst I, and Hha I, providing a total of 41 cleavage sites. We have now mapped the sites recognized by the endonucleases Xba I, Hinc II, Bgl II, Pvu II, Xho I, and Sst I, which make 6, 13, 5, 6, 2, and 2 cuts, respectively. Fragment maps for each of these endonuclease sites were derived by analysis of the products of double-enzyme digests and by hybridization of 3H-cRNA probes transcribed from low-kinetic-complexity petite mtDNAs to restriction fragments generated by various combinations of enzymes.
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PMID:Physical mapping of the Xba I, Hinc II, Bgl II, Xho I, Sst I, and Pvu II restriction endonuclease cleavage fragments of mitochondrial DNA of S. cerevisiae. 37 13

Restriction endonuclease Bgl II cleaves T7 DNA at a unique site (28.76% on the standard T7 map), yielding two fragments of molecular weights 18.9 x 10(6) (A) and 7.6 x 10(6) (B). Fragment B, representing the leftmost portion of the genome, has been purified by zone sedimentation. Transcription of fragment B by T7-specific RNA polymerase gives only r-strand-specific RNA. Analysis of the products by polyacrylamide gel electrophoresis reveals four major RNA species which have apparent molecular weights of 2.1 x 10(6), 1.36 x 10(6), 0.85 x 10(6) and 0.125 x 10(6), respectively. Each of these RNAs is reduced in size when transcription is carried out with fragment B, which has been shortened by treatment with Escherichia coli exonuclease III. Therefore, each of the transcripts must be terminated at the right end of fragment B. Analysis of the molecular weights of the four transcripts produced from whole and from exonucleolytically shortened fragment B suggests that these transcripts are read from promoters located at 13.5, 18.9, 22.6, and 27.9%, respectively, on the standard T7 map. Hence, there are at least four promoters governing the transcription of the class II region. Transcripts initiated at these promoters on intact T7 DNA appear to read through the class II and part of the class III genetic region and terminate at the strong terminator for T7-specific RNA polymerase near 61%. Transcription of fragment B which has been cleaved with the restriction endonuclease Hpa I seems to activate a fifth promoter for T7-specific RNA polymerase. This promoter appears to be identical to the promoter previously described by Oakley and Coleman (Proc. Natl. Acad. Sci. U.S.A. 74:4266-4270, 1977) that maps near 15% on the standard T7 map. Little or no RNA is read from T7 Bgl II fragment B, which has a mobility expected for a transcript read from this promoter. However, upon cleavage with Hpa I, this promoter is utilized approximately 10-fold more efficiently than the other class II promoters. The mechanism of this activation is not yet known.
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PMID:Mapping of class II promoter sites utilized in vitro by T7-specific RNA polymerase on bacteriophage T7 DNA. 43 May 92

Polymerase Chain Reaction (PCR) was used to detect and to identify Mycobacterium species. In this study, 13 out of 14 Mycobacterium species were detected by using six pairs of oligonucleotide primers. The PCR product was detected by non-isotopic southern blot hybridization even when as little as 10 fg of purified M. tuberculosis DNA was used. And 8 mycobacterial species were identified by PCR-Restriction Fragment Length Polymorphism (RFLP) using two kinds of endonuclease.
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PMID:[Detection of mycobacteria by DNA amplification]. 129 56

We have integrated pulsed field gel electrophoresis with the partial digestion strategy of Smith and Birnstiel (1976, Nucleic Acids Res. 3,2387-2398) to generate a rapid and accurate method of restriction endonuclease mapping recombinant lambda DNA molecules. Use of pulsed field gels dramatically improves the accuracy of size determination and resolution of DNA restriction fragments relative to standard agarose gels. Briefly, DNA is partially digested with restriction enzymes to varying extents and then hybridized with a radiolabeled oligonucleotide which anneals specifically to one of the lambda cohesive (cos) ends, effectively end labeling only those digestion products containing that cos end. In this study, we have used an oligonucleotide hybridizing to the right cos end. DNA is then fractionated by pulsed field gel electrophoresis, the gel dried down, and cos end containing fragments visualized by autoradiography. Fragment sizes indicate the distances from the labeled cos end to each restriction site for the particular restriction enzyme employed. This procedure requires only minimal quantities of DNA and is applicable to all vectors utilizing lambda cos ends.
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PMID:Restriction mapping of recombinant lambda DNA molecules using pulsed field gel electrophoresis. 215 Mar

Molluscum contagiosum lesions obtained from 75 Australian patients, 22 (29%) of whom were HIV positive, were examined by restriction endonuclease analysis and Southern blot hybridisation using radiolabelled and digoxigenin-labelled MCV DNA probes. The isolates were classified (MCV 1, 1v, 2, and 2v) on the basis of these results, which were in turn correlated with the clinical features of each lesion. A total of 44 (59%) of the lesions contained MCV 1 or 1v, 24 (32%) contained MCV 2 or 2v, three (4%) contained multiple MCV types, whereas four (5%) of lesions submitted contained no detectable MCV DNA. The ratio of MCV 1/1v to MCV 2/2v was determined to be approximately 1.75:1. There were substantial differences between the distribution of MCV types 1 and 2 among patients of different age groups, but no significant relationship between MCV type and the sex of the patient was found. MCV 2 was more frequently detected in lesions from anogenital areas and in immunosuppressed (HIV-positive) patients, and MCV 1 was more commonly isolated from skin rather than genital lesions, but neither association was statistically significant. Fragment F (10 kbp) obtained from the genome of MCV 1 was capable of differentiating MCV 1 from MCV 2 when used as a probe in hybridisation experiments with BamHI cut samples and may be useful when small amounts of lesion prevents differentiation by direct visualisation of restriction endonuclease fragments.
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PMID:Molecular epidemiology of Australian isolates of molluscum contagiosum. 217 32

A simple and efficient method of purifying linear plasmid DNA from contaminating DNA fragments is described. Both vector and insert containing plasmids may be used without extensive purification, in particular without cesium chloride centrifugation. Careful deproteinization with phenol-chloroform allows efficient restriction enzyme digestion. Fragment separation can be performed immediately after restriction endonuclease digestion in a single 6% polyacrylamide gel. Extraction of DNA fragments from the gel is easy and gives a good yield. The DNA may be used for ligation and transformation without further purification.
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PMID:A protocol for DNA fragment extraction from polyacrylamide gels. 285 97

A cosmid library of Rhodopseudomonas capsulata DNA was constructed in Escherichia coli HB101 using the broad-host-range cosmid vector pLAFR1. More than ninety per cent of the clones in the bank contained cosmids with DNA inserts averaging 20 kilobase pairs in length. Mutants deficient in uptake hydrogenase (Hup-) were obtained from R. capsulata strain B10 by ethylmethylsulfonate (EMS) mutagenesis. The content of hydrogenase protein in Hup- mutant cells was tested by rocket immunoelectrophoresis. Hup- mutants (Rifr) were complemented with the clone bank by conjugation and, from the transconjugants selected by rifampicin and tetracycline resistance, Hup+ transconjugants were screened for the ability to grow photoautotrophically and to reduce methylene blue in a colony assay. The recombinant plasmid pAC57 restored hydrogenase activity in the Hup- mutants RCC8, RCC10, RCC12 and ST410 whereas pAG202 restored that of IR4. The cloned R. capsulata DNA insert of pAC57 gave 5 restriction fragments by cleavage with EcoRI endonuclease. Fragment 1 (7 kb) restored hydrogenase activity in Hup- mutant strains RCC12 and ST410 and fragment 5 (1.3 kb) in strains RCC8 and RCC10. Since the 2 cosmids pAC57 and pAG202 are different cosmids, as indicated by restriction analyses and absence of cross hybridization, it is concluded that at least two hup genes are required for the expression of hydrogenase activity in R. capsulata.
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PMID:Cloning of DNA fragments carrying hydrogenase genes of Rhodopseudomonas capsulata. 301 42

The DNA of the recombinant phage lambda gtWES Mr974 (GRUMMT et al., 1979) which contains the 18S region and adjacent spacer sequences of the ribosomal genes from mouse has been digested with the restriction endonuclease SalI. Fragments corresponding to the non-transcribed spacer (A and D) and the external transcribed spacer (B) have been prepared and their nucleotide composition and sequence organization has been determined. The data indicate that the part of the non-transcribed spacer contained in Mr974 consists of at least two structural domains of distinct sequence characteristics. Fragment A contains 49% G + C and exhibits a high sequence complexity. Fragment D, the spacer fragment flanking the coding region, is very rich in G + C and is obviously composed of an internally repetitive sequence which is cut by several restriction enzymes into a similar set of repetitive fragments. Most of the fragments have sizes that are multiples of 60 and 80 or 140 base pairs, respectively, suggesting an alternating 60/80bp arrangement. This regular sequence in fragment D accounts both for the observed instability and length heterogeneity of the rDNA insert in several clones and probably for the heterogeneity in the structure of the ribosomal repeats in the genomic DNA.
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PMID:Structural organization of mouse rDNA: comparison of transcribed and non-transcribed regions. 624 36

Late in the life cycle of the single-stranded DNA phage phi X, the synthesis of positive strand DNA is coupled to the maturation of progeny virions. DNA synthesis and packaging take place in a replication-assembly complex, which we have purified to homogeneity and characterized. The following conclusions can be drawn: 1. The DNA component of the replication-assembly complex is a rolling circle with a single-stranded DNA tail which is less than or equal to genome length. 2. The major protein component of the replication-assembly complex is an intact viral capsid, as shown by gel analysis of 35S-labeled complexes. As replication proceeds at the DNA growing point, the positive strand tail of the rolling circle is displaced directly into the capsid. In addition to the capsid, the complex contains at least 1 molecule of the phi X gene A nicking protein, which appears to be covalently linked to the DNA. 3. The rolling circle . capsid complex can be purified to homogeneity by taking advantage of its uniform sedimentation velocity (35 S) and its uniform density upon equilibrium centrifugation in CsCl (1.50 g/cc). 4. The replication-assembly complex can be visualized in the electron microscope. An electron-dense particle, which has the dimensions of a viral capsid, is observed attached to a rolling circle at the DNA growing point. 5. Hybridization of specific phi X restriction fragments to the deproteinized, single-stranded tails of intact rolling circles has allowed the use of these replicating intermediates to determine both the origin/terminus and the direction of phi X positive strand DNA synthesis. The ends of the rolling circle tails map in the Hae III restriction Fragment Z6b, at the position on the phi X genome at which the gene A endonuclease is known to cut. This result indicates that this endonuclease participates in the "termination" of each round of synthesis by cutting off unit-length viral genomes. 6. Rolling circle . capsid complexes were also isolated from two other icosahedral, single-stranded DNA phages: G4 and St-1. The rolling circle . capsid complex seen in the case of the single-stranded DNA phages represents the first example of a structure in which DNA synthesis and viral assembly occur in a coupled manner. This tight coordination explains why double-stranded DNA circles are the net product of synthesis early in the viral life cycle while only single-stranded DNA circles are produced later. The single-stranded tails of the rolling circle intermediates are available for conversion to the duplex state at early times, whereas the concentration of preformed capsids later is high enough to bind to all of the replicating molecules and package the emerging positive strand DNA.
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PMID:The rolling circle . capsid complex as an intermediate in phi X DNA replication and viral assembly. 644 68

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