EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
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Bacteriophage M13 replicative form (RF) DNA was used to direct coupled transcription and translation in cell-free extracts prepared from Escherichia coli. By using RF DNA, isolated from cells infected with appropriate amber mutants of this phage, it has been possible to identify the products of genes I through IV. By using the same methods no gene-product relationship could be demonstrated for genes VI and VII. Coupled in vitro protein synthesis studies on RF-III DNA, a linear double-stranded DNA molecule, obtained after cleavage of either RF-I or RF-II DNA with the restriction endonuclease R.Hin11 from Haemophilus influenzae, indicated that the cleavage site for this enzyme is located in gene II. The in vitro products of both gene III and gene VIII are about 30 and six amino acids longer, respectively, than their native counterparts present within the virion. These results suggest that the latter proteins arise in vivo by cleavage of precursor molecules. Coupled transcription and translation studies on a DNA fragment which only contained the genetic information coding for gene IV protein, obtained after cleavage of RF DNA with the restriction endonuclease R.Hap11 from Haemophilus aphirophilus, indicated that a large number of the in vitro synthesized polypeptides are the result of premature chain termination.
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PMID:Identification and characterization of the in vitro synthesized gene products of bacteriophage M13. 108 7

The double-stranded replicative form DNA of bacteriophage M13 was cleaved into 13 specific fragments by the restriction endonuclease from Haemophilus aphirophilus. The individual DNA fragments from wild-type replicative form molecules were then annealed to circular, single-stranded DNAs of phage M13, bearing amber mutations as genetic markers. When such DNA hybrids infected competent Escherichia coli cells, only those duplexes which were genetically heterozygous gave rise to wild-type phages in the progeny. In this way, the genetic markers carried on the individual DNA fragments could be determined. In addition, marker rescue in each gene was obtained with the 10 specific fragments of M13 replicative form DNA, produced by cleavage with the restriction endonuclease from Haemophilus aegyptius. From these results and the enzyme cleavage maps of both types of restriction fragments a distribution of genetic markers along the physical map could be obtained, which allowed an arrangement of M13 genes into a genetic map. Evidence is presented that the gene order of M13 is: IV-(I,VI)-III-VIII-VII-V-II with II and IV being contiguous on the circular map.
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PMID:Studies on bacteriophage M13 DNA. 2. The gene order of the M13 genome. 109 71

Replicative form DNA of bacteriophage f1 was found to be sensitive in vitro to restriction by endonuclease R-EcoRII if the DNA was isolated from an Escherichia coli strain deficient in cytosine methylase activity. A similar observation was previously made with DNA from the closely related bacteriophage fd (S. Schlagman, S. Hattman, M. S. May, and L. Berger, submitted for publication). The two DNA fragments produced by the endo R-EcoRII digestion of f1 DNA were localized on the f1 cleavage map and their genetic content was determined. The polypeptides synthesized in a "coupled" transcription-translation system under the direction of each RII fragment were examined. The results of such experiments allow the ordering of genes V and VII and indicate the location of a RNA promotor for gene VIII.
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PMID:Endonuclease R-EcoRII restriction of bacteriophage f1 DNA in vitro: ordering of genes V and VII, location of an RNA promotor for gene VIII. 115 96

The peroxisomes of the asporogenic yeast Candida tropicalis contain about 20 major polypeptides (PXPs). We have isolated a number of genes encoding them; 11 POX genes encoded independent PXPs and three POY genes were likely to encode three other PXPs. To locate these genes on the chromosomes, chromosomes of C. tropicalis were separated by pulsed-field gel electrophoresis. Eight chromosomal bands were observed over the range of 1.0 Mbp (band 1) to 2.8 Mbp (band VIII); the genome size was estimated to be about 20 Mbp. Southern blot analysis showed that ten genes were on band V, three genes were on band IV, and the other gene was on band VI. Three genes gave hybridization signals of nearly equal intensity on two different chromosomal bands: POX6A and POX8B, on bands V and VII; and POX8A, on bands IV and VI. Ribosomal RNA genes also hybridized to two bands, VI and VII. Most genes assigned to only one band hybridized to two restriction fragments produced by either NotI or SfiI endonuclease. The results suggested that C. tropicalis was diploid and that restriction sites were conserved little between homologues. The three POX genes that were found on two chromosomal bands hybridized to not more than two restriction fragments, implying that the allelic genes were present on different chromosomal bands.
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PMID:Assignment of most genes encoding major peroxisomal polypeptides to chromosomal band V of the asporogenic yeast Candida tropicalis. 189 15

M13B1 vector based on the filamentous phage M13 has been constructed. M13B1 phage carries the gene of resistance to ampicillin and contains the unique site of recognition for BamHI restriction endonuclease in gene VIII coding for the major coat protein. BamHI restriction site has been inserted into the gene of the major coat protein by means of oligonucleotide directed mutagenesis. The synthetic DNA fragment coding for the model peptides has been inserted through BamHI site into the M13B1 DNA. The possibility of inserting foreign peptides into the N-terminus at maintaining the viability of hybrid phages has been shown. The differences in specificity of the recombinant phage maturation have been determined by analysing the amino acid sequence of B-protein.
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PMID:[The use of filamentous phage M13 in protein engineering]. 236 94

The biological processing of thymine ring saturation and fragmentation products is summarized in Table 1. The ring saturation product, thymine glycol, is a block to in vitro DNA synthesis, whereas the ring saturation product, dihydrothymine, is not. Both these lesions are recognized in vitro by endonucleases III and VIII. Since thymine glycol is a replicative block, it is a lethal lesion in vivo. The excision repair process for removal of thymine glycols from DNA is initiated in vivo by endonuclease III and is followed by the action of either exonuclease III or endonuclease IV. Thymine glycol is very efficiently bypassed by translesion bypass in both single and double stranded DNA, however, because thymine glycol templates an adenine (A) and retains pairing characteristics, it is at best a weakly mutagenic lesion. The thymine ring fragmentation product, urea, and apurinic/apyrimidinic (AP) sites are both strong blocks to in vitro DNA synthesis. Both are substrates in vitro for endonucleases III, IV, VIII and IX as well as exonuclease III. Both are lethal lesions in single stranded and double stranded phage transfecting DNA. The excision repair of urea residues and AP sites is initiated in vivo by either exonuclease III or endonuclease IV. Neither of these noninstructive lesions are efficiently bypassed by UV-induced translesion bypass, however, when bypass occurs mutations result. beta-ureidoisobutylic acid is also a block to DNA synthesis in vitro. DNA containing this lesion is a substrate for endonucleases VIII and IX. The biological processing of this ring open thymine fragmentation product has yet to be determined. Thus, these ring saturation and fragmentation products of thymine have provided a point of departure for understanding the biological processing of modified bases with altered pairing and/or stacking properties.
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PMID:Processing of ring saturation and fragmentation products of DNA thymine in Escherichia coli. 266

The mutant adenoviruses H5sub304 and H5RIr were isolated sequentially from adenovirus 5 wild type by selection for the loss of EcoRI restriction endonuclease sites by Jones and Shenk (Cell 13:181-188, 1978). sub304 lacks the site at 84.0 map units (m.u.), and RIr lacks both that and the site at 75.9 m.u. A set of derivatives of RIr that lack the site at 75.9 m.u. accumulated virus more slowly at 38.8 or 39.5 degrees C than those with the site present, as measured by low-multiplicity passage or single-step replication cycles, respectively. Since the EcoRI site at 75.9 m.u. is predicted to lie in the gene encoding the precursor to virion polypeptide VIII (pVIII), the failure to accumulate virus rapidly could lie either in some step in processing and assembly of virions or in an increased virion thermolability. The latter possibility was shown to be the case, as all strains mutated at the EcoRI 75.9 m.u. site were extremely thermolabile in vitro, even at 37 degrees C. CsCl equilibrium density centrifugation of heated crude stocks of RIr and sub304 demonstrated that loss of infectivity in RIr was accompanied by physical disruption of virions. Polyacrylamide gel electrophoresis of infected cell extracts or of purified virions showed that pVIII of RIr had an apparent molecular weight that was slightly greater than that of sub304, and mature RIr and sub304 virions displayed polypeptide VIIIs which appeared to be of identical molecular weights. Nucleotide sequence analysis of RIr demonstrated that it contained a 9-base-pair (bp) substitution for 6 bp found in sub304, leading to a loss of the EcoRI site and a predicted insertion of a single amino acid. Comparison of the sequence of sub304 with the published sequence of adenovirus 2 revealed two changes, a single transversion at bp 1,722 and a bp deletion at 1,749, leading to the loss of a TaqI site. The predicted reading frame change would lead to a stop codon at bp 1,885. This raises the question of whether adenovirus 2 and adenovirus 5 use the same reading fame for pVIII.
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PMID:A thermolabile mutant of adenovirus 5 resulting from a substitution mutation in the protein VIII gene. 397 69

Thirteen different serogroup strains of Yersinia pseudotuberculosis and two strains of Yersinia enterocolitica O:3 were examined for the presence of plasmids and plasmid-mediated properties, calcium growth dependency, and autoagglutination. Two Y. enterocolitica strains and eight serogroup (IA, IIA, IIC, III, IVA, VB, VI, and VIII) strains, except for five serogroups (IB, IIB, IVB, VA, and VII), of Y. pseudotuberculosis harbored plasmids ranging in molecular size from 27 to 115 kilobases. Filter hybridization of restriction endonuclease-digested plasmid DNA from different serogroup strains indicated that all plasmid DNAs conferring calcium growth dependency and autoagglutination shared a high degree of DNA sequence homology, regardless of the different serogroups of Y. pseudotuberculosis and Y. enterocolitica.
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PMID:Plasmid DNA relatedness among different serogroups of Yersinia pseudotuberculosis. 398 10

Resistance to copper's toxicity in yeast is controlled by the CUP1r locus. This gene was cloned by transforming sensitive recipients (cup1(8)) with a collection of hybrid DNA molecules, consisting of random yeast DNA fragments inserted into the vector YRp7. Four resistant transformants were studied in detail. Autonomously replicating or integrated by homologous recombination into chromosomal sites, the corresponding plasmids and several subclones confer resistance on sensitive recipients carrying the natural variant allele, cup1(8). Tetrad analysis and genetic mapping established that integration occurs typically at the cup1(8) site located 28 centimorgans distal to thr1, a chromosome VIII marker. Restriction endonuclease cleavage and electrophoretic mobility studies revealed that the CUP1r locus consists of a tandem array of repetitive units. Each unit is 1.95 kilobases in length and contains single sites for Kpn I and Xba I and two Sau3A sites. The sensitive allele represents one repeat and the resistant allele embraces 15 tandemly arrayed repeat units. Progressive selections in higher copper concentrations establish strains with markedly enhanced resistance. Resistance, we propose, is mediated by a gene amplification mechanism based on unequal sister chromatid exchange.
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PMID:Tandem gene amplification mediates copper resistance in yeast. 629 Oct 39

Exonuclease VIII is an enzyme whose synthesis is induced as a result of sbcA mutations. The enzyme has been purified to near homogeneity from an Escherichia coli strain containing an sbcA mutation and mutations in the structural genes for exonuclease III, exonuclease V, and endonuclease I. The enzyme specifically degrades linear duplex DNA in a reaction which requires magnesium ions and is susceptible to inhibition by other divalent cations and by sulfhydryl-blocking reagents. Enzyme activity occurs over a broad pH range with peak activity at pH 8.5 in Tris buffer. The protein has a subunit Mr = 140,000, a sedimentation coefficient of 8.4 +/- 0.6, and a Stokes radius of 142 +/- 6 A, which is consistent with its active form being a multimer. Exonuclease VIII has a frictional coefficient of 2.6 which indicates that it has an asymmetric structure.
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PMID:Exonuclease VIII of Escherichia coli. I. Purification and physical properties. 635 Feb 89

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