EC:3.1.30.2 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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 genetic basis of trimethoprim resistance was examined in 24 Klebsiella pneumoniae, 27 Enterobacter cloacae, five Enterobacter aerogenes and nine Serratia marcescens urinary isolates from five hospitals in Greece. Analysis of the 65 isolates by serotyping and phage-typing identified 53 distinct strains. Thirty-eight isolates (15 K. pneumoniae, 19 E. cloacae, two E. aerogenes and two S. marcescens) hybridized with a probe specific for a gene encoding type II dihydrofolate reductase (DHFR). Three of the K. pneumoniae and four of the E. cloacae isolates which reacted with this probe also hybridized with probes specific for type I DHFR and transposon Tn7. Two E. cloacae isolates hybridized only with the probe for type I DHFR, while a further three isolates hybridized only with the type I DHFR and Tn7 probes. None of the isolates hybridized with a probe for type V DHFR. The plasmids in transconjugants derived from 40 isolates were analysed by digestion with restriction enzymes and Southern blotting. Eighteen (45%) of the donors (12 K. pneumoniae and 6 E. cloacae) produced transconjugants containing plasmids of about 95 kb in size, while transconjugants from the other donors had plasmids in the range 100-185 kb. Of the 18 transconjugants containing a 95 kb plasmid, 15 had similar restriction endonuclease digest patterns, although they varied in terms of the range of antimicrobial resistances which they encoded. When EcoRI digests of these 15 plasmids were hybridized with the type II DHFR probe, a 23 kb common band reacted with the probe.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prevalence of a plasmid-mediated type II dihydrofolate reductase gene among trimethoprim-resistant urinary pathogens in Greek hospitals. 160 29

This report describes an unexpected difference in the efficiency of removal of UV-induced DNA damage in the c-myc locus in splenic B lymphoblasts from two inbred strains of mice. In cells from plasmacytoma-resistant DBA/2N mice, 35% of UV-induced damage in the regulatory and 5' flank of c-myc is removed by 12 h. However, in cells from plasmacytoma-susceptible BALB/cAn mice, damage is not removed from this region. In the protein-encoding region and 3' flank of c-myc as well as in two dihydrofolate reductase gene fragments, UV damage is repaired with similar efficiency in B lymphoblasts from both strains of mice. Furthermore, in the protein-encoding portion and 3' flank of c-myc, damage is selectively removed from only the transcribed strand. No repair is detected in the nontranscribed strand. In contrast, DNA repair in the 5' flank of c-myc is not strand specific; in DNA from DBA/2N cells, UV damage is rapidly removed from both the transcribed and nontranscribed strands. In BALB/cAn cells no repair was detected in either strand in the 5'flank, consistent with the results with double-stranded, nick-translated probes to this region of c-myc. In addition to the repair studies, we have detected post-UV-damage formation: in most of the genes studied, we find that additional T4 endonuclease-sensitive sites are formed in the DNA 2 h after irradiation. Our findings provide new insights into the details of gene-specific and strand-specific DNA repair and suggest that there may be close links between DNA repair and B-cell neoplastic development.
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PMID:DNA repair in the c-myc proto-oncogene locus: possible involvement in susceptibility or resistance to plasmacytoma induction in BALB/c mice. 171 24

Splicing of tRNA precursors in extracts of Saccharomyces cerevisiae requires the action of two enzymes: a site specific endonuclease and a tRNA ligase. The tRNA ligase contains three distinct enzymatic activities: a polynucleotide kinase, a cyclic phosphodiesterase, and an RNA ligase. The polypeptide also has a high affinity pre-tRNA binding site based on its ability to form stable complexes with pre-tRNA substrates. To investigate the organization of functional enzymatic and binding elements within the polypeptide a series of defined tRNA ligase gene deletions were constructed and corresponding proteins were expressed in Escherichia coli as fusions with bacterial dihydrofolate reductase (DHFR). The DHFR/ligase derivative proteins were then efficiently purified by affinity chromatography. The complete ligase fusion protein retained enzymatic and binding activities which were unaffected by the presence of the DHFR segment. Examination of tRNA ligase deletion derivatives revealed that the amino-terminal region was required for adenylylation, while the carboxyl-terminal region was sufficient for cyclic phosphodiesterase activity. Deletions within the central region affected kinase activity. Pre-tRNA binding activity was not strictly correlated with a distinct enzymatic domain. A DHFR/ligase-derived protein lacking kinase activity efficiently joined tRNA halves. We postulate that this variant utilizes a novel RNA ligation mechanism.
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PMID:Deletion analysis of a multifunctional yeast tRNA ligase polypeptide. Identification of essential and dispensable functional domains. 185 Apr 8

The influence of terminal differentiation on UV-induced DNA damage and its repair in transcriptionally active and inactive genomic sequences was investigated using the murine 3T3-T proadipocyte cell culture system. Actively cycling 3T3-T cells terminally differentiate into adipocytes after exposure to media containing platelet-depleted human plasma. Suitable DNA fragments were analyzed from four genes: beta-actin, adenosine deaminase, dihydrofolate reductase, and lipoprotein lipase. As a result of 3T3-T cell differentiation, lipoprotein lipase and beta-actin expression was modified, whereas adenosine deaminase and dihydrofolate reductase expression was not affected. A DNA fragment representing the transcriptionally inactive locus 70-38 was also evaluated. UV-induced cyclobutane pyrimidine dimers, detected as UV-specific endonuclease-sensitive sites, in each fragment increased linearly as a function of UV dose (0-20 J/m2) independently of gene expression or differentiation. Sequence-specific repair of dimers was measured in stem and terminally differentiated 3T3-T cells after UV irradiation (10 J/m2). For undifferentiated stem cells, the rate and extent of dimer repair was higher in the actively transcribed adenosine deaminase and dihydrofolate reductase genes than in the inactive lipoprotein lipase or 70-38 fragments, the greater difference being observed in the first 8 h post-UV irradiation. In contrast, similar dimer repair rates were found for each DNA fragment in terminally differentiated 3T3-T cells. These data suggest that cellular differentiation is accompanied by a loss of heterogeneity in intragenomic DNA repair.
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PMID:Loss of intragenomic DNA repair heterogeneity with cellular differentiation. 193 6

A new gene transfer protocol has been developed that introduces up to 800 copies of an expression vector into Chinese hamster ovary cells in a single step by electroporation. The DNA typically integrates in tandem repeats so that the restriction endonuclease site used to linearize the input DNA remains intact. This is likely due to ligation of vector DNA via cohesive ends prior to integration. This high-copy-number procedure is far more rapid than the conventional stepwise gene amplification method used to generate stable eukaryotic protein production cell lines. By employing the expression vector pJODtPA, in which the selectable marker dihydrofolate reductase (DHFR) and the human tissue plasminogen activator (tPA) casettes are separated by a spacer and an RNA polymerase II terminator, cell lines secreting as much as 24 pg/cell.day tPA were isolated following electroporation and a single methotrexate selection. Gene copies and expression levels are stable over long periods of growth. A single round of gene amplification was performed following the high-copy-number procedure to yield a clone having a tPA production level of 45 pg/cell.day.
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PMID:Introduction of stable high-copy-number DNA into Chinese hamster ovary cells by electroporation. 211 95

During the 3-year period 1985-7, all strains of Shigella sonnei isolated in Catania, Sicily, showed a high level of resistance to trimethoprim (Tp) which was invariably associated with resistance to other antibiotics. Plasmid analysis showed 18 different electropherotypes: 35 of 37 strains harboured a plasmid of 70 Megadaltons (MDa), and 29 of 37 strains a plasmid of 130 MDa. Restriction endonuclease fingerprinting of purified 70 MDa plasmid DNA from different strains demonstrated that these plasmids were similar but not identical. In some strains with transferable Tp resistance, DNA hybridization analysis demonstrated the presence of gene coding for the production of dihydrofolate reductase (DHFR) type V. In contrast, there was no detectable hybridization with DNA probes specific for genes coding for DHFR types I, II and IV. This is the first report of the DHFR type V gene outside Sri Lanka.
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PMID:Molecular characterization of trimethoprim resistance in Shigella sonnei in Sicily. 220 Jun 99

The limited DNA-excision repair in UV-irradiated nondividing fibroblasts from xeroderma pigmentosum complementation group C (XP-C) occurs in localized chromatin regions generating large DNA segments (at least 30-70 kb) free of pyrimidine dimers. A genomic fraction enriched for this DNA was isolated on the basis of the larger size of the repaired fragments after UV-endonuclease treatment and screened for specific genes. It contains more copies per microgram DNA of two transcriptionally active genes, beta-actin and dihydrofolate reductase, compared to the remaining DNA but an equal number of copies per microgram DNA of an inactive locus termed 754. We confirmed that the active genes were preferentially repaired by measuring the removal of pyrimidine dimers from specific genomic restriction fragments comprising these sequences. These results mean that a unique set of relatively large chromatin domains are repaired in nondividing XP-C cells, even though most of the DNA remains unrepaired. The repaired domains may be those containing the active genes. This specific repair may account for the relatively high UV-resistance of the nondividing cells. In normal cells, a very rapid repair of a restriction fragment containing the beta-actin gene and slow repair of the 754-containing fragment was detected indicating that a similar domain-oriented repair process also exists in these cells. These results are consistent with the previously discovered rapid repair of active genes compared to bulk DNA. Separate damage-recognition systems may exist in human cells for chromatin domains that contain transcribed regions and those that contain no transcribed regions. The latter system may be deficient in XP-C.
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PMID:Selective repair of specific chromatin domains in UV-irradiated cells from xeroderma pigmentosum complementation group C. 234 4

We have developed a quantitative method for examining the removal of N-methylpurines from specific genes to investigate their possible differential repair throughout the genome. Chinese hamster ovary cells were exposed to dimethyl sulfate, and the isolated DNA was treated with an appropriate restriction endonuclease. The DNA was heated to convert remaining N-methylpurines to apurinic sites to render them alkaline-labile. Duplicate samples heated in the presence of methoxyamine to protect the apurinic sites from alkaline hydrolysis provided controls to assess total DNA. After alkaline hydrolysis, agarose gel electrophoresis, Southern transfer, and probing for the fragment of interest, the ratios of band intensities of the test DNA sample to its methoxyamine-treated control counterpart were calculated to yield the percentage of fragments containing no alkaline-labile sites. The frequency of N-methylpurines was measured at different times after dimethyl sulfate treatment to study repair. We found no differences between the rates of repair of N-methylpurines in the active dihydrofolate reductase gene and a nontranscribed region located downstream from it in treated cells. Also, similar rates of repair were observed in the transcribed and nontranscribed strands of the gene, in contrast to previous results for the removal of cyclobutane pyrimidine dimers. Thus, there does not appear to be a coupling of N-methylpurine repair to transcription in Chinese hamster ovary cells. However, the repair in the dihydrofolate reductase domain appears to be somewhat more efficient than that in the genome overall. Our method permits the quantifying at the defined gene level of abasic sites or of any DNA adduct that can be converted to them.
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PMID:Repair of N-methylpurines in specific DNA sequences in Chinese hamster ovary cells: absence of strand specificity in the dihydrofolate reductase gene. 278 88

FokI, a class-IIS restriction endonuclease, cleaves double-stranded DNA to produce a protruding 5' end consisting of four nucleotides, 10-13 residues 3' from the nonpalindromic recognition sequence, GGATG. Cassettes which utilize this separation of cleavage and recognition site have been constructed for the purpose of linker mutagenesis and DNA replacement experiments. The cassettes are flanked by FokI recognition sequences oriented such that the FokI cleavage sites are several nucleotides beyond the cassette/vector fusion sites. FokI excises the cassette and several base pairs of the neighboring vector sequence. The ends produced in the vector by FokI cleavage are generally noncomplementary and suitable for the insertion of a segment of synthesized double-stranded replacement DNA. A cassette which contains a tyrosine tRNA suppressor gene (supF) is selectable by the suppression of amber mutations in the recipient host. A vector containing a pBR322-derived origin of replication, the Escherichia coli xanthine-guanine phosphoribosyl transferase gene as a selectable marker, and no FokI sites has been constructed for use with the FokI cassettes. An experiment which utilized the FokI/supF cassette to modify the N-terminal coding region of the R388 dihydrofolate reductase gene is described.
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PMID:The use of a selectable FokI cassette in DNA replacement mutagenesis of the R388 dihydrofolate reductase gene. 282 Aug 44

The plasmid pAZ1, which determines trimethoprim and sulfonamide resistance, was characterized by restriction endonuclease mapping. The restriction map was identical to that of the incQ plasmid RSF1010 over a 5.1-kbp region. The type III dihydrofolate reductase gene was cloned, and the DNA sequence was determined. The predicted protein had 162 amino acid residues, and it was more closely related to the gram-negative bacterial chromosomal dihydrofolate reductases than to other plasmid or vertebrate dihydrofolate reductases. Sequence identity was 51% with the Escherichia coli enzyme and 44% with the Neisseria gonorrhoeae enzyme.
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PMID:Characterization of plasmid pAZ1 and the type III dihydrofolate reductase gene. 284 Jun 79

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