EC:4.1.99.3 - FACTA Search

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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 photolyase is a DNA repair enzyme which monomerizes pyrimidine dimers, the major UV photoproducts in DNA, to pyrimidines in a light-dependent reaction. We recently described the construction of a tac-phr plasmid that greatly overproduces the enzyme (Sancar, G. B., Smith, F. W., and Sancar, A. (1983) Nucleic Acids Res. 11, 6667-6678). Using a strain carrying the overproducing plasmid as the starting material, we have developed a purification procedure that yields several milligrams of apparently homogeneous enzyme. The purified protein is a single polypeptide that has an apparent Mr of 49,000 under both denaturing and nondenaturing conditions. The enzyme has no requirement for divalent cations and it restores the biological activity of irradiated DNA only in the presence of photoreactivating light. The purified photolyase has a turnover number of 2.4 dimers/molecule/min; this value agrees well with the in vivo rate of photoreactivation in E. coli.
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PMID:Purification of Escherichia coli DNA photolyase. 632 59

We have determined the nucleotide sequence of a 2039-base pair segment of Escherichia coli chromosomal DNA containing the phr gene, which encodes deoxyribopyrimidine photolyase. The coding region of phr is 1416 base pairs and is preceded by regions homologous to consensus sequences for E. coli promoters and ribosome binding sites. The phr gene is preceeded by an open reading frame of 169 codons (orf169) which is transcribed in the same direction. The proximity of orf169 to phr suggests that both are members of a single operon containing one or more internal promoters allowing differential expression of phr. An unusually large number of rare or infrequently used codons are utilized in phr, which may contribute to the low copy number of photolyase. The sequence at the NH2 and COOH termini and the overall amino acid composition of mature photolyase, determined using purified protein, agrees with predictions based upon the nucleotide sequence. Photolyase consists of 471 amino acids and has a calculated molecular weight of 53,994.
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PMID:Sequences of the Escherichia coli photolyase gene and protein. 632 60

Pyrimidine dimers are the major photoproducts produced in cellular DNA upon UV irradiation. In Escherichia coli there are dark and photorepair mechanisms that eliminate the dimers from DNA and prevent their lethal and mutagenic effects. To determine whether these repair mechanisms act cooperatively or competitively in repairing DNA, we investigated the effects upon one another of DNA photolyase, which mediates photorepair, and uvrABC excision nuclease, an enzyme complex of the uvrABC gene products, which catalyzes nucleotide excision repair. We found that photolyase stimulates the removal of pyrimidine dimers but not other DNA adducts by uvrABC excision nuclease. The two subunits of uvrABC excision nuclease, the uvrA and uvrB proteins which together bind to the dimer region of DNA, had no effect on the activity of photolyase. T4 endonuclease V, which like photolyase is specific for pyrimidine dimers, was inhibited by photolyase, suggesting that these two proteins recognize the same or similar chemical structures in UV-irradiated DNA that are different from those recognized by uvrABC excision nuclease.
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PMID:Escherichia coli DNA photolyase stimulates uvrABC excision nuclease in vitro. 639 Apr 36

DNA photolyase purified from baker's yeast by affinity chromatography on UV-irradiated DNA noncovalently bound to cellulose and by chromatography on activated thiol-Sepharose 4B yields a single protein band having a molecular weight of 51 000 when analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis. The molecular weight, 53 000, determined by gel filtration was in good agreement. Upon denaturation of photolyase by heat or 8 M urea, flavin adenine dinucleotide (oxidized) was isolated from the mixture and identified by thin-layer chromatography and spectral analysis. In contrast to flavoproteins to which flavin adenine dinucleotide (oxidized) is bound which generally exhibit two absorbance maxima between 300 and 500 nm, photolyase has only one at 380 nm. These findings and the similar characteristics of the absorbance and emission spectra of native photolyase with those of flavoproteins in which the chromophore is considered to be the 4a,5-reduced flavin have led us to propose this configuration for the photolyase chromophore. The difference in properties of yeast photolyase compared to the one reported previously supports the idea that there are two photolyases in baker's yeast.
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PMID:Evidence that deoxyribonucleic acid photolyase from baker's yeast is a flavoprotein. 698 94

The PHR1 gene of Saccharomyces cerevisiae encodes the apoenzyme for the DNA repair enzyme photolyase. PHR1 transcription is induced in response to 254 nm radiation and a variety of chemical damaging agents. We report here the identification of promoter elements required for PHR1 expression. Transcription is regulated primarily through three sequence elements clustered within a 120 bp region immediately upstream of the translational start site. A 20 bp interrupted palindrome comprises UASPHR1 and is responsible for 80-90% of basal and induced expression. UASPHR1 alone can activate transcription of a CYC1 minimal promoter but does not confer damage responsiveness. In the intact PHR1 promoter UAS function is dependent upon an upstream essential sequence (UES). URSPHR1 contains a binding site for the damage-responsive repressor Prp; consistent with this role, deletion or specific mutations of the URS increase basal level expression and decrease the induction ratio. Deletion of URSPHR1 also eliminates the requirement for UESPHR1 for promoter activation, indicating that the UES attenuates Prp-mediated repression. Sequences within UASPHR1 are similar to regulatory sequences found upstream of both damage responsive and nonresponsive genes involved in DNA repair and metabolism.
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PMID:Promoter elements of the PHR1 gene of Saccharomyces cerevisiae and their roles in the response to DNA damage. 750 52

A shuttle vector, pCRR1, has been constructed for the detection of spontaneous and radiation-induced mutations in the fission yeast Schizosaccharomyces pombe. This vector contains an Escherichia coli supF suppressor tRNA gene as the target for mutagenesis and bacterial pMB1 and yeast ars1 replication origins, which can be used to propagate the plasmid in bacterial and fission yeast cells, respectively. supF mutations can be detected after plasmid transformation into S. pombe and recovery in a bacterial indicator system, KS40/pKY241, by selecting for nalidixic acid resistance and/or by screening for lacZ- cells. We found that UV light or gamma-rays induced mutations in a dose-dependent manner in this system. Treatment of ultraviolet light (UV)-irradiated DNA with E. coli photolyase, which monomerizes cyclobutane pyrimidine dimers, before introduction into S. pombe reduced mutation frequencies to nearly background levels, indicating that this type of lesion is the major source of mutations. Comparison of spontaneous and UV-induced mutation frequencies in rad+, rad8-190 and rad13-A cells revealed no significant difference in background levels or induced levels after exposure to 100 J/m2 of UV. However, when plasmid DNA was UV-irradiated with 500 J/m2, the rad8-190 cells generated only 38% as many induced supF mutations as the rad+ strain, whereas the rad13-A cells produced more than a 6-fold increase in mutability relative to the level observed for the wild-type strain. These mutability patterns are consistent with previous studies that characterized rad8-190 cells as hypomutable and rad13-A cells as hypermutable by UV light at chromosomal loci. Thus, this shuttle vector system provides a useful and sensitive tool to assess mutability in S. pombe.
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PMID:A new shuttle vector system for the identification of spontaneous and radiation-induced mutations in the fission yeast Schizosaccharomyces pombe. 752 64

DNA photolyase catalyzes light-dependent repair of cis, syn-cyclobutane dipyrimidines (pyrimidine dimers); its apoenzyme is encoded by the photorepair (phr) gene. The phr cDNA was cloned from D. melanogaster; it has an open reading frame to encode a 61,483-Da protein. The phr cDNA hybridized to band 44C-D of Drosophila polytene chromosome, equivalent to the locus of the phr- gene. Drosophila photolyase is made of an apoenzyme with a molecular weight of 62 kDa. Drosophila photolyase is extraordinarily abundant in the embryo and adult ovary, whereas mRNA of the phr gene is abundant only in the ovary. The action spectrum of Drosophila photolyase for photoreactivation has a maximum at 440 nm. The phr gene of Drosophila has about 60% identical amino acid sites with that of goldfish but only 13-18% with those of microorganisms. Implications of the unique characteristics of the Drosophila phr gene are discussed overviewing the diversified characteristics of phr genes in various organisms that have presumably evolved from a common ancestral gene.
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PMID:High-level expression of the photorepair gene in Drosophila ovary and its evolutionary implications. 752 99

Although enzymatic photoreactivation of cyclobutyl pyrimidine dimers in DNA is present in almost all organisms, its presence in placental mammals is controversial. We tested human white blood cells for photolyase by using three defined DNAs (supercoiled pET-2, nonsupercoiled bacteriophage lambda, and a defined-sequence 287-bp oligonucleotide), two dimer-specific endonucleases (T4 endonuclease V and UV endonuclease from Micrococcus luteus), and three assay methods. We show that human white blood cells contain photolyase that can photorepair pyrimidine dimers in defined supercoiled and linear DNAs and in a 287-bp oligonucleotide and that human photolyase is active on genomic DNA in intact human cells.
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PMID:Human white blood cells contain cyclobutyl pyrimidine dimer photolyase. 756 7

The organization and nucleotide sequence of a gene from Chlamydomonas reinhardtii encoding a member of the DNA photolyase/blue light photoreceptor protein family is reported. A region of over 7 kb encompassing the gene was sequenced. Northern analysis detected a single 4.2 kb mRNA. The gene consists of eight exons and seven introns, and encodes a predicted protein of 867 amino acids. The first 500 amino acids exhibit significant homology with previously sequenced DNA photolyases, showing the closest relationship to mustard (Sinapis alba) photolyase (43% identity). An even higher identity, 49%, is obtained when the Chlamydomonas gene product is compared to the putative blue-light photoreceptor (HY4) from Arabidopsis thaliana. Both the Chlamydomonas and the Arabidopsis proteins differ from the well characterized DNA photolyases in that they contain a carboxyl terminal extension of 367 and 181 amino acids, respectively. However, there is very little homology between the carboxyl terminal domains of the two proteins. A previously isolated Chlamydomonas mutant, phr1, which is deficient in DNA photolyase activity, especially in the nucleus, was shown by RFLP analysis not to be linked to the gene we have isolated. We propose this gene encodes a candidate Chlamydomonas blue light photoreceptor.
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PMID:Characterization of a Chlamydomonas reinhardtii gene encoding a protein of the DNA photolyase/blue light photoreceptor family. 763 15

The arabidopsis thaliana HY4 gene encodes CRY1, a 75-kilodalton flavoprotein mediating blue light-dependent regulation of seedling development. CRY1 is demonstrated here to noncovalently bind stoichiometric amounts of flavin adenine dinucleotide (FAD). The redox properties of FAD bound by CRY1 include an unexpected stability of the neutral radical flavosemiquinone (FADH.). The absorption properties of this flavosemiquinone provide a likely explanation for the additional sensitivity exhibited by CRY1-mediated responses in the green region of the visible spectrum. Despite the sequence homology to microbial DNA photolyases, CRY1 was found to have no detectable photolyase activity.
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PMID:Association of flavin adenine dinucleotide with the Arabidopsis blue light receptor CRY1. 763 20

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