EC:3.2.1.23 - FACTA Search

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Query: EC:3.2.1.23 (beta-galactosidase)
14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The coding repeat region of opa genes from Neisseria gonorrhoeae and Neisseria meningitidis determines the expression state of their respective genes through high-frequency addition of deletion of pentanucleotide coding repeat units (CRs; CTTCT). In vitro analyses of cloned opa gene CR regions using single-strand specific nucleases, oligonucleotide protection experiments, and modifications of non-B-DNA residues indicate that the regions form structures resembling H-DNA under acidic conditions in the presence of negative supercoiling. The purine/pyrimidine strand bias and H-palindromic nature of the repeat region are consistent with sequence requirements for H-DNA formation. Sequences flanking the repeat elements are required to form the H-DNA structure in vitro as judged by the pattern of exposed non-B-DNA residues in CR sequences synthesized as oligonucleotides to form beta-galactosidase::CR translational fusions. The fusions phase vary by addition and deletion of CR elements and the rate of phase variation increases upon induction of the fusion genes. The opa gene CR region is the first reported bacterial H-DNA structure and is unique in that it lies within the coding sequence for the gene.
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PMID:H-DNA formation by the coding repeat elements of neisserial opa genes. 179 51

The PHR1 gene of Saccharomyces cerevisiae encodes a photolyase which repairs specifically and exclusively pyrimidine dimers, the most frequent lesions induced in DNA by far-UV radiation. We have asked whether expression of PHR1 is modulated in response to UV-induced DNA damage and to DNA-damaging agents that induce lesions structurally dissimilar to pyrimidine dimers. Using a PHR1-lacZ fusion gene in which expression of beta-galactosidase is regulated by PHR1 5' regulatory elements, we found that exposure of cells to 254-nm light, 4-nitroquinoline-N-oxide, methyl methanesulfonate, and N-methyl-N'-nitro-N-nitrosoguanidine induced synthesis of increased amounts of fusion protein. In contrast to these DNA-damaging agents, neither heat shock nor exposure to photoreactivating light elicited a response. Induction by far-UV radiation was evident both when the fusion gene was carried on a multicopy plasmid and when it replaced the endogenous chromosomal copy of PHR1, and it was accompanied by an increase in the steady-state concentration of PHR1-lacZ mRNA. Northern (RNA) blot analysis of PHR1 mRNA encoded by the chromosomal locus was consistent with either enhanced transcription of PHR1 after DNA damage or stabilization of the transcripts. Neither the intact PHR1 or RAD2 gene was required for induction. Comparison of the region of PHR1 implicated in regulation of its expression with other damage-inducible genes from yeast cells revealed a common conserved sequence that is present in the PHR1, RAD2, and RNR2 genes and is required for damage inducibility of the latter two genes. These sequences may constitute elements of a damage-responsive regulon in S. cerevisiae.
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PMID:Expression of the yeast PHR1 gene is induced by DNA-damaging agents. 211

To facilitate the production of antibodies against endonuclease V, a pyrimidine dimer-specific DNA glycosylase produced in bacteriophage T4-infected Escherichia coli, we constructed plasmids containing protein-A-endonuclease V fusion genes under control of the E. coli tac promoter. Induction with isopropyl-beta-D-thiogalactopyranoside produced large amounts of fusion proteins, which could easily be purified on human IgG agarose columns. The affinity-purified fusion proteins were injected into rabbits and mice to produce polyclonal and monoclonal antibodies, and also used for the screening of the monoclonal antibodies. These antibodies recognized endonuclease V on immunoblots, and also inhibited the DNA-glycosylase activity in vitro. Epitope mapping of monoclonal antibodies showed that they all (6/6) recognized determinants in the C-half of endonuclease V. A convenient way to detect primary antibodies on nitrocellulose was also developed using a crude protein extract containing protein-A-beta-galactosidase fusion protein and subsequent detection with a mixture of dyes.
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PMID:Production and detection of coliphage T4 endonuclease V polyclonal and monoclonal antibodies using staphylococcal protein-A hybrid proteins. 244 55

Zymosan particle-stimulated beta-galactosidase secretion by mouse peritoneal macrophages was found to be inhibited by micromolar concentrations of adenosine, AMP, ADP, and ATP. Inhibition by all four agents was increased to approximately 80% by adding erythro-9-(2-hydroxy-3-nonyl) adenine (EHNA; 10 microM) an adenosine deaminase inhibitor, to the incubation medium. The inhibition of lysosomal enzyme secretion by ATP, ADP, and AMP was reversed by adding alpha, beta -methylene ADP (100 microM), a 5'-nucleotidase inhibitor, to the incubation medium. Inhibition by adenosine, however, was unaffected by alpha, beta -methylene ADP indicating that the inhibition by AMP, ADP, and ATP only occurred after they had been converted to adenosine by cell surface phosphohydrolases, including 5'-nucleotidase. Theophylline, a competitive antagonist of the binding of adenosine to plasma membrane adenosine receptors, failed to reverse the inhibitory effect of adenosine indicating the probable site of adenosine action to be intracellular. Other purine nucleosides, e.g., guanosine, and several purine and ribosemodified structural analogues of adenosine also inhibited zymosan-stimulated beta-galactosidase secretion, while xanthosine and certain pyrimidine nucleosides, e.g., thymidine, were inactive in this respect.
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PMID:Regulation of macrophage lysosomal secretion by adenosine, adenosine phosphate esters, and related structural analogues of adenosine. 298 3

Polyclonal antibodies have been raised against endonuclease V from the bacteriophage T4. This rabbit serum, from which endemic E. coli antibodies have been removed, reacts with a single protein from T4-infected E. coli with a molecular weight of 16078 dalton. It was confirmed that these antibodies were directed against endonuclease V through the inhibition of the pyrimidine dimer specific nicking activity of endonuclease V in an in vitro nicking assay. A phage lambda gt11 T4 dC DNA library was screened for phage which produced a beta-galactosidase-endonuclease V fusion protein. Immunopositive clones were detected at a frequency of 0.25% of the plaques in the library. Restriction enzyme analyses of the DNA from 45 of these phage showed that all contained a 1.8 kb T4 EcoRI fragment which had been inserted within lambda gt11 in a single orientation. Western analysis of proteins which were produced from an induction of lysogens made from these phage reveals a single fusion protein band with a molecular weight slightly larger than native beta-galactosidase.
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PMID:Cloning and expression of the 3' portion of the T4 denV gene as a lacZ fusion gene. 308 97

Yeast ENO1 promoter was prepared by a chemical synthetic method. Two variant promoters containing a pyrimidine-rich region (CT block), located between the TATA box and the transcription start site, either 32 or 34 base pairs (bp) longer than the native ENO1 promoter were isolated during the chemical synthesis. Gene expression of variant promoters was compared with that of the native promoter by measuring the amount of mRNA and the activity of beta-galactosidase by constructing ENO1-lacZ gene fusions. No significant differences were observed between the native and variant promoters in transcription levels. The start site of transcription was mapped on CAAG, a consensus sequence of transcription start site of yeast glycolytic genes. The results suggest a longer CT block in ENO1 promoter may not affect the expression of the yeast ENO1 gene. In addition, the level of ENO1 gene expression was found to be higher in stationary phase cells than in log phase cells.
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PMID:Analysis of expression of yeast enolase 1 gene containing a longer pyrimidine-rich region located between the TATA box and transcription start site. 308 3

We used a simian virus 40-based shuttle vector plasmid, pZ189, to determine the role of pyrimidine cyclobutane dimers in UV light-induced mutagenesis in monkey cells. The vector DNA was UV irradiated and then introduced into monkey cells by transfection. After replication, vector DNA was recovered from the cells and tested for mutations in its supF suppressor tRNA marker gene by transformation of Escherichia coli carrying a nonsense mutation in the beta-galactosidase gene. When the irradiated vector was treated with E. coli photolyase prior to transfection, pyrimidine cyclobutane dimers were removed selectively. Removal of approximately 90% of the pyrimidine cyclobutane dimers increased the biological activity of the vector by 75% and reduced its mutation frequency by 80%. Sequence analysis of 72 mutants recovered indicated that there were significantly fewer tandem double-base changes and G X C----A X T transitions (particularly at CC sites) after photoreactivation of the DNA. UV-induced photoproducts remained (although at greatly reduced levels) at all pyr-pyr sites after photoreactivation, but there was a relative increase in photoproducts at CC and TC sites and a relative decrease at TT and CT sites, presumably due to a persistence of (6-4) photoproducts at some CC and TC sites. These observations are consistent with the fact that mutations were found after photoreactivation at many sites at which only cyclobutane dimers would be expected to occur. From these results we conclude that UV-induced pyrimidine cyclobutane dimers are mutagenic in DNA replicated in monkey cells.
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PMID:UV light-induced cyclobutane pyrimidine dimers are mutagenic in mammalian cells. 354 May 89

Expression of the pyrBI operon of Escherichia coli K-12, which encodes the subunits of the pyrimidine biosynthetic enzyme aspartate transcarbamylase, is negatively regulated by the intracellular levels of UTP. Previous experiments suggested a unique model for regulation of operon expression in which low UTP levels cause close coupling of transcription and translation of the pyrBI leader region. This close coupling suppresses transcriptional termination at an attenuator preceding the structural genes. In this study, we examined the regulatory role of translation and attenuation in operon expression. To determine whether the leader region is translated, we constructed a plasmid, designated pBHM17, in which the pyrBI promoter(s) and the first 11 codons for a putative 44-amino acid leader polypeptide are fused to codon 9 of lacZ. A transformant carrying this plasmid synthesized a beta-galactosidase fusion protein with the amino-terminal sequence of the leader polypeptide, demonstrating that the signals required for leader polypeptide synthesis function in vivo. Synthesis of the fusion protein was nearly insensitive to pyrimidine availability. In uracil-grown cells, the level of fusion protein synthesis encoded by plasmid pBHM17 was much greater than that encoded by a similar plasmid containing a pyrB::lacZ gene fusion, in which the pyrBI promoter-regulatory region is intact. These results indicate that the downstream leader sequence which includes the attenuator is required for regulation and functions as a transcriptional barrier. Oligonucleotide-directed mutagenesis was used to change the ATG leader polypeptide initiation codon of the intact pyrBI operon to ACG, which was shown to strongly inhibit translational initiation. This mutation greatly reduced operon expression and regulation as predicted by the attenuation control model.
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PMID:Role of translation and attenuation in the control of pyrBI operon expression in Escherichia coli K-12. 392 2

The effects of the following pyrimidine nucleoside 5'-triphosphates: f5 UTP, br5 UTP, rTTP, s2 UTP, s4 UTP and s2 CTP on cell-free expression of the beta-galactosidase gene in lambda h80dlac DNA as well as the galactokinase gene in plasmid 01-14 were investigated. Only rTTP could substitute UTP in cell-free gene expression without restriction. Combinations of the other analogs with their respective natural congeners led to inhibition of gene expression. All analogs were found to inhibit transcription. Whereas br5 UTP and s4 UTP did not affect translation, mRNA containing s2 UMP or s2 CMP residues respectively was found to function poorly in translation. Only in the case of f5 UTP could ambiguitive behaviour be demonstrated. Whether mispairing of f5 UMP residues, responsible for this ambiguity takes place in transcription or in translation, could not be decided.
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PMID:The effect of nucleotide analogs on cell-free gene expression. 642 97

UvrA+-dependent excision repair is one of the most important systems in Escherichia coli for repairing UV-induced pyrimidine dimers and a variety of other forms of DNA damage. The uvrA protein acts in conjunction with the uvrB and uvrC gene products to introduce a nick at the of a DNA lesion and thus initiate the repair process. We have recently used the Mud(Ap, lac) operon fusion vector to identify a set of genes whose expression is induced by DNA damage. One Mud(Ap, lac) insertion mapped at the uvrA locus and made the cells sensitive to UV light. In this fusion strain, beta-galactosidase expression was induced by DNA-damaging agents in a recA+lexA+-dependent fashion. We were surprised by this result because uvrA+-dependent excision repair is observed both in cells in which protein synthesis has been inhibited and in recA- and lexA- cells, findings which have led to the conclusion that the uvrA gene product is constitutively expressed and not under the control of the complex recA+lexA+ regulatory circuitry (see below). We have investigated this possibility further and describe here the generation and characterization of a set of fusions of the lac genes to the promoter of the uvrA gene. We confirm that the uvrA gene product is induced by DNA damage in a recA+lexA+-dependent fashion.
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PMID:Expression of the E. coli uvrA gene is inducible. 678 Sep 17

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