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Query: EC:4.1.99.3 (PRE)
 1,923 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Escherichia coli DNA photolyase is a flavoprotein that when purified is blue in color and contains a stable neutral radical FAD (E-FADH). In the presence of a suitable electron donor (i.e., thiols, tyrosine, or NADH) the radical FAD adsorbs visible light and undergoes photoreduction to the fully reduced FAD (E-FADH2). The in vitro quantum yield of dimer repair for E-FADH is 0.07 while that of E-FADH2 approaches the in vivo value of 1. Electron paramagnetic resonance studies on whole cells indicate that the in vivo form of photolyase is E-FADH2 with enzyme containing radical FAD generated predominantly during the ammonium sulfate precipitation step of the purification. Activity measurements of E-FADH using long-wavelength photoreactivating light indicate that enzyme containing FAD in the radical form is not active in dimer repair. Dimer repair observed with E-FADH at shorter wavelengths is probably photoreduction of E-FADH followed by dimer repair by E-FADH2.
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PMID:The active form of Escherichia coli DNA photolyase contains a fully reduced flavin and not a flavin radical, both in vivo and in vitro. 282 44

A 2 kb fragment was isolated from an Anacystis nidulans genomic DNA library by hybridization with synthetic oligonucleotide probes derived from the N-terminal amino acid sequence of Anacystis photolyase. This fragment contains a 1452 bp-long open reading frame encoding a polypeptide of 484 amino acids (Mr 54475). Antibodies raised against purified Anacystis photolyase reacted with extracts of cells harboring fused genes between lacZ of Escherichia coli and this gene. A 40.7% similarity was found between the deduced amino acid sequences of Anacystis and E. coli photolyases, notwithstanding the difference in chromophore structure.
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PMID:Cloning and characterization of a photolyase gene from the cyanobacterium Anacystis nidulans. 283 35

Photoreactivation repair (Phr) activities in cell extracts of 13 different yeast species were measured by the Haemophilus influenzae transformation assay. Five species including Schizosaccharomyces pombe showed no or low enzymatic activity. In contrast to the other species, chromosomal DNAs of these 5 species did not show detectable hybridization using a DNA fragment of the photolyase PHR1 gene of Saccharomyces cervisiae as a probe even at a low stringency condition. When the PHR1 gene was attached to the 5'-flanking sequence of the iso-1-cytochrome c (CYC-1) gene of S. cerevisiae and introduced into S. pombe cells, the transformants acquired a high Phr activity, indicating that the PHR1 gene alone can provide a Phr-negative species with this repair activity and the light-absorbing cofactor(s) must be present in S. pombe. Our results also demonstrated that the 5'-flanking sequence of the S. cerevisiae CYC-1 gene works in S. pombe as a regulatory element.
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PMID:Existence and expression of photoreactivation repair genes in various yeast species. 291 Dec 65

In this report we have cloned restriction fragments from the gal-att lambda region obtained from a purified preparation of lambda dgal transducing 'phage DNA, and demonstrate the appearance of a photoreactivable response in a photoreactivation-deficient phrA phrB strain. We also show that when this plasmid is transduced into a delta phrA strain there is an increase in the photoreactivable response after a single high intensity light flash and after continuous illumination. These data have been discussed in relation to the hypothesis of the presence of multiple photolyase molecules in Escherichia coli.
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PMID:Photoreactivation in phr mutants of Escherichia coli K-12: cloning from the gal-att lambda interval increases the photoreactivable response in phrA strains. 297 85

In this study, a novel approach to the analysis of DNA repair in Escherichia coli was employed which allowed the first direct determination of the mechanisms by which endogenous DNA repair enzymes encounter target sites in vivo. An in vivo plasmid DNA repair analysis was employed to discriminate between two possible mechanisms of target site location: a processive DNA scanning mechanism or a distributive random diffusion mechanism. The results demonstrate that photolyase acts by a distributive mechanism within E. coli. In contrast, UvrABC-initiated excision repair occurs by a limited processive DNA scanning mechanism. A majority of the dimer sites on a given plasmid molecule were repaired prior to the dissociation of the UvrABC complex. Furthermore, plasmid DNA repair catalyzed by the UvrABC complex occurs without a detectable accumulation of nicked plasmid intermediates despite the fact that the UvrABC complex generates dual incisions in the DNA at the site of a pyrimidine dimer. Therefore, the binding or assembly of the UvrABC complex on DNA at the site of a pyrimidine dimer represents the rate-limiting step in the overall process of UvrABC-initiated excision repair in vivo.
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PMID:Molecular analysis of plasmid DNA repair within ultraviolet-irradiated Escherichia coli. II. UvrABC-initiated excision repair and photolyase-catalyzed dimer monomerization. 304 28

UV mutation frequency responses for two types of Escherichia coli prototrophic mutant were measured. Only the response associated with a mutation targeted by a thymine-cytosine pyrimidine dimer was reduced in the dark in cells with amplified DNA photolyase. This specific reduction is attributed to the interruption of mutational DNA synthesis by a photolyase complex at the targeting dimer.
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PMID:An in vivo complex with DNA photolyase blocks UV mutagenesis targeted at a thymine-cytosine dimer in Escherichia coli. 305 61

The PHR1 gene of Saccharomyces cerevisiae encodes a DNA photolyase which is normally present in fewer than 300 copies per cell. We have constructed plasmids in which PHR1 expression in yeast and Escherichia coli is under the control of strong, inducible promoters thereby leading to the regulated overproduction of biologically active photolyase. Under inducing conditions, E. coli cells carrying the tac-PHR1 plasmid pCB1241 accumulate up to 8% of total cellular protein as yeast photolyase; similarly, the GAL10-PHR1 fusion plasmid pGBS107 directs the synthesis of at least 1800-2400 molecules of photolyase per log-phase yeast cell. In both plasmids translation begins at the first ATG in the PHR1 open reading frame (ORF). Constructs in which translation initiates at the second or third ATG fail to complement yeast and E. coli phr1 mutations, indicating that the first ATG in the PHR1 ORF is the translational start site in vivo and that all or part of the N-terminal 78 amino acids are required for activity.
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PMID:Construction of plasmids which lead to overproduction of yeast PHR1 photolyase in Saccharomyces cerevisiae and Escherichia coli. 329 9

Escherichia coli DNA photolyase binds to DNA containing pyrimidine dimers with high affinity and then breaks the cyclobutane ring joining the two pyrimidines of the dimer in a light- (300-500 nm) dependent reaction. In order to determine the structural features important for this level of specificity, we have constructed a 43 base pair (bp) long DNA substrate that contains a thymine dimer at a unique location and studied its interaction with photolyase. We find that the enzyme protects a 12-16-bp region around the dimer from DNase I digestion and only a 6-bp region from methidium propyl-EDTA-Fe (II) digestion. Chemical footprinting experiments reveal that photolyase contacts the phosphodiester bond immediately 5' and the 3 phosphodiester bonds immediately 3' to the dimer but not the phosphodiester bond between the two thymines that make up the dimer. Methylation protection and interference experiments indicate that the enzyme makes major groove contacts with the first base 5' and the second base 3' to the dimer. These data are consistent with photolyase binding in the major groove over a 4-6-bp region. However, major groove contacts cannot be of major significance in substrate recognition as the enzyme binds equally well to a thymine dimer in a 44-base long single strand DNA and protects a 10-nucleotide long region around the dimer from DNase I digestion. It is therefore concluded that the unique configuration of the phosphodiester backbone in the strand containing the pyrimidine dimer, as well as the cyclobutane ring of the dimer itself are the important structural determinants of the substrate for recognition by photolyase.
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PMID:Mechanism of damage recognition by Escherichia coli DNA photolyase. 330 72

We have placed the PHR1 gene of Saccharomyces cerevisiae under the transcriptional and translational control of the tac expression cartridge. Under inducing conditions Escherichia coli cells harboring plasmids carrying this construct accumulate approximately 8% of total cellular protein as the Phr1 photolyase. Using a strain devoid of E. coli photolyase activity, we have obtained milligram quantities of the yeast enzyme at greater than 95% purity and have characterized the enzyme. Phr1 photolyase is a monomer in solution with an Mr of 60,000, has a turnover number of 0.7 dimers min-1 molecule-1 in vitro, exhibits absorbance maxima at lambda = 277 and 377 nm, and has a fluorescence excitation maximum at 390 nm and an emission maximum at 475 nm. The near UV absorbance peak is shown to reflect the contributions of two intrinsic chromophores which are noncovalently bound to the enzyme. Spectroscopic, fluorescence, and thin layer chromatographic studies indicate that one of these chromophores is 1,5-reduced FAD rather than 4a,5-reduced FAD as previously proposed (Iwatsuki, N., Joe, C. O., and Werbin, H. (1980) Biochemistry 19, 1172-1176), while the other chromophore has properties similar to the second chromophore of E. coli photolyase. The fact that yeast and E. coli photolyases are similar both with respect to amino acid sequence and chromophore composition provides strong evidence that the enzymes share a common action mechanism which may also be utilized by photolyases from other organisms throughout the phylogenetic tree.
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PMID:Purification of the yeast PHR1 photolyase from an Escherichia coli overproducing strain and characterization of the intrinsic chromophores of the enzyme. 331 99

Induction of photolyase activity was studied in cultured frog cells using clonogenic assays. Exposure of arrested cells to a pre-irradiation (90% survival) of 254 nm ultraviolet light resulted in a transient enhancement of photolyase activity. Cells expressed a decreased level of photolyase activity in response to an equitoxic fluence of simulated "sunlight" wavelengths 280-310 nm. However, no significant increase of enzyme activity was detected in cells following treatment with "sunlight" wavelengths 310-330 nm. In addition, this process depends on newly biosynthesized protein(s).
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PMID:Transient induction of photolyase activity in arrested frog cells in response to a short-wave ultraviolet segment of simulated "sunlight". 349 92


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