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 percentage of clinical isolates of several species of Enterobacteriaceae, particularly Escherichia coli and Klebsiella pneumoniae, resistant to trimethoprim (TMPR) has increased gradually at the Brigham and Women's Hospital (Boston) in recent years. Thirty-seven of 42 TMPR isolates from six species of gram-negative bacilli conjugally transferred TMP resistance to K12 E. coli. beta-Lactam resistance cotransferred from 21 of the 37 donors, and sulfamethoxazole (SMZ) resistance cotransferred from five of the 37 donors. Plasmids that encoded TMP resistance either alone or with SMZ resistance had a molecular size of approximately 52.5 kilobases, with identical restriction endonuclease-generated "fingerprints." Plasmids encoding beta-lactam-mediated resistance (beta R) were approximately four kilobases larger and had fragment patterns that were identical for all of the TMPR/beta R plasmids tested and had many restriction endonuclease-generated bands in common with TMPR plasmids. Radiolabeled dihydrofolate reductase (DHFR) probes identified the type II DHFR as the determinant of TMP resistance. In contrast with reports from Europe, TMP resistance in multiple species of Enterobacteriaceae was found to be spread in one hospital by a single, stable conjugative plasmid that has a wide host range and encodes the type II DHFR gene.
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PMID:Trimethoprim resistance in multiple genera of Enterobacteriaceae at a U.S. hospital: spread of the type II dihydrofolate reductase gene by a single plasmid. 298 9

1-beta-D-Arabinofuranosylcytosine (ara-C) inhibits nuclear DNA replication in Chinese hamster ovary cells by an efficient chain termination mechanism without affecting the rate at which cells traverse G1 and enter S [Heintz, N. H., & Hamlin, J. L. (1983) Biochemistry 22, 3557-3562]. Here we have employed ara-C to enrich for replication intermediates formed during initiation of DNA synthesis in synchronized CHOC 400 cells, a methotrexate-resistant derivative of Chinese hamster ovary cells that contains approximately 1000 copies of an early replicating 150-kb chromosomal domain. This highly amplified domain includes the gene for dihydrofolate reductase (DHFR). CHOC 400 cells were collected at the G1/S boundary of the cell cycle with aphidicolin prior to release into S in the presence of both [methyl-3H] thymidine and various concentrations of ara-C. Chromatographic fractionation of restriction endonuclease digests over benzoylated naphthoylated DEAE-cellulose (BND-cellulose) showed that high concentrations of ara-C inhibited the maturation of chromosomal replication intermediates containing ssDNA (replication forks) into dsDNA for up to 60 min. The effect of ara-C on the sequence complexity of replication intermediates formed during early S phase was determined by hybridizing purified intermediates labeled with 32P in vitro to Southern blots of genomic DNA derived from both methotrexate-sensitive and methotrexate-resistant Chinese hamster ovary cells. In the absence of ara-C, 32P-labeled ssDNA BND-cellulose fractions from cultures released into S for 30-60 min hybridized to a spectrum of restriction fragments encompassing 40-50 kb of the amplified DHFR domain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Replication intermediates formed during initiation of DNA synthesis in methotrexate-resistant CHOC 400 cells are enriched for sequences derived from a specific, amplified restriction fragment. 300 61

To investigate the influence of function or activity of a DNA sequence on its repair, we have studied excision repair of a number of adducts in the non-transcribed, heterochromatic alpha DNA of monkey cells (by physically isolating the DNA) and also the removal of pyrimidine dimers in a number of genes in rodent and human cells (by an indirect assay using a dimer-specific endonuclease). In confluent cells, psoralen and aflatoxin B1 (AFB1) adducts are produced in similar frequencies in alpha and in the rest of the DNA, but removal from alpha is severely deficient. Adducts of N-acetoxyacetylaminofluorene (NA-AAF) are formed in slightly higher frequencies in alpha, and removal is slightly deficient. The removal of thymine glycols from alpha DNA in gamma-irradiated cells is proficient, as is repair synthesis elicited by exposure to methyl methane sulphonate, dimethyl sulphate, or 254 nm ultraviolet light (u.v.). Removal of AFB1 and NA-AAF adducts from alpha is enhanced by small doses of u.v. but not by X-rays or DMS. The quantum efficiency of conversion of psoralen monoadducts to crosslinks is much lower in alpha DNA. Taken together, these results suggest that the highly condensed chromatin structure of alpha hinders access of the repair system that acts on bulky adducts but not of systems for repair of specific base damage, u.v. damage may alter this chromatin structure directly or facilitate the action of some system that changes accessibility of chromatin to repair. The repair deficiencies are not observed in actively growing cells, in which chromatin structure may be less condensed due to DNA replication. We have also demonstrated preferential excision repair of pyrimidine dimers in active genes. Dimers are efficiently removed from the essential dihydrofolate reductase (DHFR) and hydroxymethylglutaryl CoA reductase genes in Chinese hamster ovary (CHO) cells and from the transcribed c-ab1 proto-oncogene in the mouse cells. Both cell types remove few dimers from their overall genomes or from sequences distal to the DHFR gene; dimers are also removed poorly from the non-transcribed mouse c-mos gene. In human cells, dimers are removed more rapidly from the DHFR gene than from the genome as a whole. However, repair is as deficient in this gene in XP-C cells as it is in the entire genome. These results suggest that resistance to DNA damage correlates better with repair of vital or active sequences than with overall repair levels and that mutagenic efficiency may vary according to the activity of the gene under study.
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PMID:DNA repair in specific sequences in mammalian cells. 311 98

The secondary and tertiary structure of T4 bacteriophage dihydrofolate reductase is investigated by vacuum ultraviolet circular dichroism (CD) spectroscopy and probability analysis of the primary amino acid sequence. The far ultraviolet CD spectrum of the enzyme in the range of 260-178 nm is analyzed by the generalized inverse and variable selection methods developed by our laboratory. Variable selection yields an average content of 26% alpha-helix, 21% antiparallel beta-sheet, 10% parallel beta-sheet, 20% beta-turns, and 32% "other" structures within the T4 protein. The characteristic peaks of the CD spectrum indicate that the enzyme has a lot of antiparallel beta-sheet, which is typical of the alpha + beta tertiary class of globular proteins. The secondary structure of the protein is also analyzed by using four statistical methods on the amino acid sequence. Although the secondary structures predicted by each individual statistical method vary to a considerable extent, the fractions of each structure jointly predicted by a majority of the methods are in excellent agreement with our CD analysis. The alternating arrangement for some segments of alpha-helix and beta-sheet predicted from primary structure to be within the enzyme is characteristic of proteins containing parallel beta-sheet. This supports our conclusion that the protein contains both parallel and antiparallel beta-sheet structures, but finding both types of beta-sheet also means that the protein may have the variation on alpha/beta tertiary structure recently found in EcoRI endonuclease and thymidylate synthase. These observations, in conjunction with other physical properties of the T4 reductase, suggest that the enzyme perhaps shares an evolution in common with the dihydrofolate reductases derived from type I R-plasmids rather than with the host-cell protein.
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PMID:The conformation of T4 bacteriophage dihydrofolate reductase from circular dichroism. 330 67

DNA repair was measured in the dihydrofolate reductase gene in Chinese hamster ovary cells, amplified for the gene, by quantitating pyrimidine dimers with a specific UV-endonuclease. More than two thirds of the dimers had been removed from a 14.1 kb restriction fragment of the gene by 26 hr after irradiation (20 J/m2), while little removal was detected in fragments upstream of the gene and only 15% were removed from the genome overall. This suggests that damage processing can vary according to function or activity of affected sequences, which has general implications for correlations of DNA repair with survival and mutagenesis. Perhaps preferential repair of vital sequences facilitates UV-resistance of these cells despite low overall repair levels.
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PMID:DNA repair in an active gene: removal of pyrimidine dimers from the DHFR gene of CHO cells is much more efficient than in the genome overall. 383 50

Plasmid pLC1437a contains DNA from Escherichia coli K12 including fol, the structural gene for dihydrofolate reductase. The fol gene was mapped on this plasmid relative to several restriction endonuclease cleavage sites. fol was also cloned from strain RSO and the nucleotide sequence for the entire fol gene and its flanking regions from this strain was determined. The amino acid sequence predicted from the nucleotide sequence differs in only a few respects from the reported amino acid sequence of dihydrofolate reductase from E. coli B. The major RNA transcripts initiated at the fol promotor in vivo are approximately 550 and 590 nucleotides long. In addition to these, several longer transcripts (up to 1400 nucleotides) are present in lesser amounts. A new procedure is described for 3' end labeling of DNA fragments having blunt ends using E. coli exonuclease III and avian myeloblastoma virus reverse transcriptase.
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PMID:Nucleotide sequence of the E coli gene coding for dihydrofolate reductase. 615 75

A series of antifolate-resistant Chinese hamster lung sublines that overproduce either a Mr 20,000 or a Mr 21,000 class of dihydrofolate reductase (DHFR; tetrahydrofolate dehydrogenase; 5,6,7,8-tetrahydrofolate:NADP+ oxidoreductase, EC 1.5.1.3), known to contain amplified DHFR genes, has been analyzed by DNA and RNA transfer techniques. The results suggest that the Mr 20,000 and Mr 21,000 DHFRs are encoded by at least two polymorphic DHFR genes, both of which are expressed in drug-sensitive parental cells. In drug-resistant sublines only one of the two DHFR gene types is amplified, thus accounting for the overproduction of one or the other molecular weight class of DHFR. In addition to the known differences between the DHFRs whose overproduction they direct, these allelic genes differ in restriction endonuclease profiles and in the relative abundances of their multiple mRNA transcripts.
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PMID:Selective amplification of polymorphic dihydrofolate reductase gene loci in Chinese hamster lung cells. 618 19

The genomic organization of the mouse dihydrofolate reductase gene has been determined by hybridization of specific cDNA sequences to restriction endonuclease-generated fragments of DNA from methotrexate-resistant S-180 cells. The dihydrofolate reductase gene contains a minimum of five intervening sequences (one in the 5' untranslated region and four in the protein-coding region) and spans a minimum of 42 kilobase pairs on the genome. Genomic sequences at the junction of the intervening sequence and mRNA-coding sequence and at the polyadenylation site have been determined. A similar organization is found in independently isolated methotrexate-resistant cell lines, in the parental sensitive cell line and in several inbred mouse strains, indicating that this organization represents that of the natural gene.
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PMID:Structure and genomic organization of the mouse dihydrofolate reductase gene. 624 5

The occurrence of trimethoprim (Tp) resistance in salmonellas isolated from humans and water samples in Sicily between 1985 and 1988 has been investigated and the Tp resistance mechanisms have been further characterized on the basis of hybridization with probes for the dihydrofolate reductase (DHFR) genes types I, II, IV and V. Of 765 strains examined, high level (> 1000 mg/l) resistance to Tp was identified in 23 strains (3%). In 22 of these strains, such resistance was associated with resistance to sulphonamides. Six serovars with Tp-resistant strains were identified, Salmonella typhimurium (14 strains), S. enteridis (2), S. agona (2), S. mbandaka (2), S. virchow (2), S. indiana (1). In all strains with high level Tp resistance, resistance to this antimicrobial was plasmid-encoded, in most strains by plasmids with MWs ranging from 70-100 MDa. On the basis of restriction endonuclease analysis, four different categories of Tp resistance plasmids were identified in Tp-resistant strains of S. typhimurium. Hybridization with the DHFR I probe was observed in three strains of Tp-resistant S. typhimurium and two strains of Tp-resistant S. enteritidis; in contrast, in none of the strains tested was there any detectable hybridization with the probes for DHFR types II, IV and V. It is concluded that the DHFR type I resistance mechanism, common in Tp-resistant enterobacteria in many European countries, is relatively uncommon in Tp-resistant salmonellas isolated in Sicily. Furthermore, the DHFR V resistance mechanism, previously identified in strains of Shigella sonnei isolated in Sicily and associated with travellers from Sri Lanka, has not yet appeared in salmonellas in Sicily.
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PMID:Molecular characterization of trimethoprim resistance in salmonellas isolated in Sicily, 1985-1988. 748 71

Transposon Tn4132, encoding the type Ib trimethoprim-resistant, dihydrofolate reductase, was transposed from the clinical plasmid pUK163 to a small recombinant plasmid pZMR12. Restriction endonuclease and partial sequence analysis of Tn4132 revealed a close relationship to Tn7. The nucleotide sequence of the dhfrIb trimethoprim-resistance gene was determined and the gene and its product were found to share significant homology with the dhfrIa, V, VI and VII plasmid-encoded dihydrofolate reductases. Extensive sequence homology (88%) was observed with the type V dihydrofolate reductase at both the nucleotide and amino acid level. Oligonucleotide probes, distinguishing between the dhfrIb and dhfrV genes, were designed. The discriminatory capabilities of these probes in future epidemiological studies will permit a more accurate determination of the dissemination of these two closely related trimethoprim-resistance genes than has previously been possible.
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PMID:Nucleotide sequence and genetic analysis of the type Ib trimethoprim-resistant, Tn4132-encoded dihydrofolate reductase. 770 67

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