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)

Gal4, a yeast protein, activates transcription of genes required for metabolism of galactose and melibiose. It binds as a dimer to a consensus palindromic 17-base pair DNA sequence. It is a member of the third family of proteins that contain zinc-mediated peptide loops that interact specifically with nucleic acids. Gal4 has a very distinctive zinc coordination profile and mode of DNA-binding. Here, we report the creation of a novel site-specific endonuclease by linking the N-terminal 147 amino acids of Gal4 to the cleavage domain of FokI endonuclease. The fusion protein is active and under optimal conditions, binds to a 17 bp consensus DNA site and cleaves near this site. As expected, the cleavage occurs on either side of the consensus binding site(s).
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PMID:Chimeric restriction enzyme: Gal4 fusion to FokI cleavage domain. 962 42

Repair of double-strand breaks (DSBs) in chromosomal DNA by nonhomologous end-joining (NHEJ) is not well characterized in the yeast Saccharomyces cerevisiae. Here we demonstrate that several genes associated with NHEJ perform essential functions in the repair of endonuclease-induced DSBs in vivo. Galactose-induced expression of EcoRI endonuclease in rad50, mre11, or xrs2 mutants, which are deficient in plasmid DSB end-joining and some forms of recombination, resulted in G2 arrest and rapid cell killing. Endonuclease synthesis also produced moderate cell killing in sir4 strains. In contrast, EcoRI caused prolonged cell-cycle arrest of recombination-defective rad51, rad52, rad54, rad55, and rad57 mutants, but cells remained viable. Cell-cycle progression was inhibited in excision repair-defective rad1 mutants, but not in rad2 cells, indicating a role for Rad1 processing of the DSB ends. Phenotypic responses of additional mutants, including exo1, srs2, rad5, and rdh54 strains, suggest roles in recombinational repair, but not in NHEJ. Interestingly, the rapid cell killing in haploid rad50 and mre11 strains was largely eliminated in diploids, suggesting that the cohesive-ended DSBs could be efficiently repaired by homologous recombination throughout the cell cycle in the diploid mutants. These results demonstrate essential but separable roles for NHEJ pathway genes in the repair of chromosomal DSBs that are structurally similar to those occurring during cellular development.
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PMID:Repair of endonuclease-induced double-strand breaks in Saccharomyces cerevisiae: essential role for genes associated with nonhomologous end-joining. 1043 May 80

It is well known that type II restriction enzyme activities and specificities can be modulated by altering solution conditions. The addition of co-solvents such as dimethyl sulfoxide (DMSO), alcohols and polyols can promote star activity, which is the cleavage of non-cognate sequences. While neutral detergents are often used to control protein aggregation, little is known about the effect of neutral detergents on restriction enzyme activities and specificities. We report here that BamHI, BglI, BglII, EcoRI, EcoRV, HindIII, MluI, PvuII, SalI and XhoI restriction endonucleases are remarkably tolerant of high concentrations of neutral detergents Triton X-100, CHAPS and octyl glucoside. In most cases, lambda DNA cleavage rates were comparable to those observed in the absence of detergent. Indeed, the specific activities of SalI and XhoI were appreciably increased in the presence of Triton X-100. For all enzymes active in the presence of detergents, sequence specificity toward lambda DNA was not compromised. Assays of star cleavage of pUC18 by EcoRI, PvuII and BamHI endonucleases in equimolar concentrations of Triton X-100 and sucrose revealed reduced star activity in the detergent relative to the sucrose co-solvent. Interestingly, under star activity-promoting conditions, PvuII endonuclease displayed greater fidelity in Triton X-100 than in conventional buffer. Taken altogether, these results suggest that in some cases, neutral detergents can be used to manipulate restriction endonuclease reaction rates and specificities.
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PMID:Modulating restriction endonuclease activities and specificities using neutral detergents. 1057 43

Two isolates of Candida glabrata from the same stool sample from a bone marrow transplant recipient treated with fluconazole, and designated 1084-L for large colonies on yeast extract-peptone-dextrose-agar and 1084-S for small colonies, were analysed. In-vitro susceptibility tests with a commercially available disk diffusion procedure showed that isolate 1084-L had a susceptibility pattern typical of wild-type strains of C. glabrata with sensitivity to polyenes and the presence of resistant colonies randomly distributed within the inhibition zones for all azole compounds except tioconazole. In contrast, isolate 1084-S, which was found by pulsed-field gel electrophoresis and random amplification of polymorphic DNA to be genetically closely related to isolate 1084-L, exhibited cross-resistance to the azole compounds except tioconazole. Determination of MICs by the E-test method confirmed these results, showing that isolate 1084-S had greater sensitivity to amphotericin B and complete resistance to ketoconazole and fluconazole. Growth on agar plates containing glucose or glycerol as the sole carbon source suggested that the resistant isolate had a respiratory deficiency, which was further demonstrated by flow cytometric analysis of the fluorescence of rhodamine 123-stained blastoconidia. Restriction endonuclease analysis of mitochondrial DNA (mtDNA) established the mitochondrial origin of the respiratory deficiency. However, PCR amplification of the mtDNA with primers ML1 and ML6, as well as transmission electron microscopy, suggested a partial deletion of the mtDNA analogous to that described for rho- petite mutants of Saccharomyces cerevisiae. Together, these results provided evidence that the selection of azole-resistant petite mutants of C. glabrata may occur in vivo after fluconazole administration, which might explain, therefore, clinical failure of antifungal therapy.
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PMID:In-vivo selection of an azole-resistant petite mutant of Candida glabrata. 1107 51

F 11782, or 2',3'-bis-pentafluorophenoxyacetyl-4',6'-ethylidene-beta-D-glucoside of 4'-phosphate-4'-dimethylepipodophyllotoxin 2-N-methyl glucamine salt, a novel dual catalytic inhibitor of topoisomerases I and II, was identified as a potent inhibitor of nucleotide excision repair (NER) by screening procedures using the in vitro 3D (DNA damage detection) assay. F 11782 was then shown predominantly to inhibit the incision rather than the repair synthesis step, using two new methodologies derived from this 3D assay, effectively ruling out any inhibition of polymerases delta/var epsilon. Moreover, data from two other in vitro assays showed an absence of any effect of F 11782 on: (i) the DNA damage binding of the XPA-RPA complex, and (ii) on SV40 large T-antigen helicase activity. Therefore, the inhibitory activity of F 11782 on NER may involve an inhibition of the ERCC1-XPF or XPG endonuclease activity. Moreover, inhibition of DNA repair by F 11782 was confirmed in human A549 cells by monitoring unscheduled DNA synthesis following mechlorethamine treatment. Such an inhibition provides an explanation for the highly synergistic cytotoxicity observed against cultured A549 lung tumour cells, when F 11782 was combined with cross-linking agents, such as cisplatin or mitomycin C. These results emphasise the unique mode of action of this novel molecule in inhibiting NER and provide a basis for its evaluation in clinical trials in combination with DNA cross-linking agents.
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PMID:Inhibition of nucleotide excision repair and sensitisation of cells to DNA cross-linking anticancer drugs by F 11782, a novel fluorinated epipodophylloid. 1184

Candida dubliniensis is an emerging pathogen capable of causing oropharyngeal, vaginal and bloodstream infections. Although C. dubliniensis is similar to Candida albicans in several phenotypic characteristics, it differs from it with respect to epidemiology, certain virulence factors and the ability to develop resistance to fluconazole rapidly. In this study, the first seven isolations of C. dubliniensis from Kuwait are described, all originating from non-human immunodeficiency virus (HIV)-infected patients. The isolates were initially identified by the Vitek 2 yeast identification system, positive germ tube test, production of rough colonies and chlamydospores on Staib agar and by their inability to assimilate xylose, trehalose or methyl alpha-D-glucoside. The species identity of the isolates was subsequently confirmed by specific amplification of rDNA targeting the internally transcribed spacer 2 (ITS2), restriction endonuclease digestion of the amplified DNA and direct DNA sequencing of the ITS2. Using the E-test method, the MICs of C. dubliniensis test isolates were in the range 0.125-0.75 microg ml(-1) for fluconazole, 0.002-0.75 microg ml(-1) for itraconazole, 0.006-0.125 microg ml(-1) for ketoconazole, 0.002-0.5 microg ml(-1) for amphotericin B and 0.002-0.016 microg ml(-1) for voriconazole. Two of the isolates were resistant to 5-flucytosine (>32 microg ml(-1)), but none against fluconazole. The study reinforces the current view that C. dubliniensis has a much wider geographical and epidemiological distribution.
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PMID:Isolation and molecular identification of Candida dubliniensis from non-human immunodeficiency virus-infected patients in Kuwait. 1518 34

Monilinia laxa is a pathogen of brown rot of stone fruit and almond in California, causing blossom blights and fruit rots. In this study, low-level resistance to the benzimidazole fungicides benomyl and thiophanate-methyl was detected in field isolates of M laxa collected from stone fruits and almonds in California. Low-resistant (LR) isolates grew in potato dextrose agar (PDA) plates amended with benomyl and thiophanate-methyl at 1 and 5 microg ml(-1), respectively, but not in plates amended with benomyl at 5 microg ml(-1) or thiophanate-methyl at 50 microg ml(-1). The benzimidazole LR isolates were characterized by temperature sensitivity and the DNA sequence of the beta-tubulin gene. The LR isolates showed high-temperature sensitivity, being sensitive to 1 microg ml(-1) of benomyl at 28 degrees C but resistant at 8-24 degrees C. Analysis of the DNA sequence of the beta-tubulin gene showed that the LR isolates had a point mutation at the amino-acid position 240, causing substitution of leucine by phenylalanine. Based on the point mutation, a pair of allele-specific PCR primers was developed for rapid detection of LR isolates of M laxa. In addition, a pair of PCR primers specific to M laxa was developed on the basis of the differences in the DNA sequence of the intron 6 of beta-tubulin gene from M laxa, M fructicola and other fungal species. The primer pair amplified the expected 376-bp DNA fragment from all M laxa isolates tested, but not from 14 other fungal species isolated from stone fruit and almond crops. The restriction endonuclease BsmA I recognized the sequence GTCTCC in the PCR products from sensitive (S) isolates only, but not the GTTTCC sequence in the PCR products from LR isolates. The endonuclease digested the 376-bp PCR products from S isolates to produce two bands (111 and 265 bp) on agarose gels. Thus, both allele-specific PCR and the PCR-restriction fragment length polymorphism (PCR-RFLP) methods could be useful for rapidly detecting benzimidazole-resistant isolates of M laxa from stone fruit and almond crops in California.
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PMID:Characterization and PCR-based detection of benzimidazole-resistant isolates of Monilinia laxa in California. 1581 17

In haploid homothallic budding yeast, cell division gives rise to a mother cell which proceeds to switch its mating type and a daughter cell (the bud) which does not. Switching is initiated by a specific double strand cleavage of mating type DNA by an endonuclease encoded by the HO gene. Previous data suggest that the pattern of HO transcription is responsible for the mother cell specificity of switching. HO is transcribed transiently, at START, during the cell cycle of mother cells but not at all during the cell cycle of daughter cells. The HO promoter is complex. Sequences between -1000 and -1400 (called URS1) are essential for transcription, whereas sequences between -150 and -900 (called URS2) are necessary for cell cycle control. Moreover, 10 trans-acting gene products called SWI1-10 are necessary for maximum expression. In an attempt to identify the cis-acting DNA sequences which are responsible for mother cell specificity and to identify which SW1 genes are involved, a hybrid GAL/HO promoter was constructed in which the upstream activation region putatively involved in mother cell-specific activation (URS1) is replaced by the upstream activation region of the GAL1-10 promoter. The properties of this hybrid promoter show, for the first time, that: (i) the HO promoter is modular since mother cell specificity can be replaced by galactose dependence without compromising cell cycle control or a/alpha repression; (ii) transcription of HO is indeed the major rate-limiting event for switching which is absent in daughter cells; (iii) SWI1,2,3, 4,6,7,8.9 and 10 are unlikely to be involved in mother cell specificity but SW15 probably is.
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PMID:The determination of mother cell-specific mating type switching in yeast by a specific regulator of HO transcription. 1598 33

Phenotypic and genetic markers of Shiga toxin-producing Escherichia coli (STEC) O26 from North America were used to develop serotype-specific protocols for detection of this pathogen. Carbohydrate fermentation profiles and prevalence of gene sequences associated with STEC O26 (n = 20) were examined. Non-STEC O26 (n = 17), E. coli O157 (n = 20), E. coli O111 (n = 22), and generic E. coli (n = 21) were used as comparison strains. Effects of supplements: cefixime-tellurite, 4-methylumbelliferyl-beta-D-glucuronide (MUG) and chromogenic additives (5-bromo4-chloro-3-indolyl-beta-D-galactopyranoside (X-Gal), 5-bromo-4-chloro-3-indolyl-beta-D-glucuronide (X-GlcA) and o-nitrophenyl-beta-D-galactopyranoside (ONPG), added to isolation agar media were examined. Tests for presence of gene sequences encoding beta intimin (eae beta), Shiga toxin 1 and 2 (stx1 and stx2), H7 flagella (flicCh7), enterohemolysin (ehlyA), O26 somatic antigen (wzx), and high pathogenicity island genes (irp2 and fyuA) were conducted using multiplex polymerase chain reaction. Pulsed-field gel electrophoresis (PFGE) of XbaI restriction endonuclease genomic DNA digests was used to establish clonality among E. coli O26 strains. Of the 26 carbohydrates tested, only rhamnose had diagnostic value. Rhamnose non-fermenters included STEC O26 (100%), non-STEC O26 (40%), generic E. coli (29%), E. coli O111 (23%), and E. coli O157 (0%). Rhamnose non-fermenting colonies growing on Rhamnose-McConkey agar supplemented with X-GlcA, X-Gal, or ONPG, respectively, were blue, white, or faint yellow, whereas rhamnose-fermenters were red. Blue colonies from X-GlcA-containing media were the most well-defined and easiest to pick for further tests. All STEC O26 were MUG-fluorescent, while STEC O157 (n = 18) were non-fluorescent. E. coli O111 and generic E. coli strains were either MUG-positive or-negative. Serotype-specific detection of STEC O26 was achieved by selecting cefixime-tellurite-resistant, MUG-fluorescent, rhamnose-nonfermenting colonies, which carried stx1, eae beta, irp2, and wzx gene sequences. STEC O26 prevalence in dairy farm environmental samples determined using the developed isolation and genetic detection protocols was 4%. PFGE indicated the presence of one major cluster of E. coli O26 with 72-100% DNA fragment-length digest similarity among test strains. The serotype-specific detection methods described herein have potential for routine application in STEC O26 diagnosis.
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PMID:Phenotypic and genetic markers for serotype-specific detection of Shiga toxin-producing Escherichia coli O26 strains from North America. 1599 72

Inducible promoter fusions are commonly employed to study the biological functions of genes as well as to investigate mechanisms of transcription regulation. A concern for many studies of heterologous gene expression is that steady state transcription may be too high under non-inducing conditions, producing undesired phenotypes prior to induction. Fusions containing the galactose-inducible GAL1 promoter joined to PvuII, a bacterial DNA endonuclease gene, are toxic to yeast cells even under non-inducing conditions, i.e., in glucose media. This toxicity was utilized in conjunction with PCR-based mutagenesis of the GAL1 regulatory region to isolate mutant promoters that retained high inducibility but exhibited reduced basal level expression. The Mig1 repressor binding and putative TATA box regions were unchanged among four mutant promoters examined in detail. However, each promoter contained one or more mutations within previously identified binding sites for the Gal4 activator protein. Genetic assays developed to monitor GAL1p::I-SceI endonuclease-induced recombination demonstrated that basal expression from two of the new promoters (designated GAL1-V4 and GAL1-V10) was strongly reduced. These experiments and additional quantitative luciferase reporter gene assays demonstrate the utility of the approach for identifying promoters that permit more tightly controlled gene expression.
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PMID:Use of a restriction endonuclease cytotoxicity assay to identify inducible GAL1 promoter variants with reduced basal activity. 1628 30


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