EC:4.1.99.3 - FACTA Search

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Query: EC:4.1.99.3 (PRE)
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The PHR1 gene of Saccharomyces cerevisiae encodes the DNA repair enzyme photolyase. Transcription of PHR1 increases in response to treatment of cells with 254-nm radiation and chemical agents that damage DNA. We report here the identification of a damage-responsive DNA binding protein, termed photolyase regulatory protein (PRP), and its cognate binding site, termed the PHR1 upstream repression sequence, that together regulate induction of PHR1 transcription after DNA damage. PRP activity, monitored by electrophoretic-mobility-shift assay, was detected in cells during normal growth but disappeared within 30 min after irradiation. Copper-phenanthroline footprinting of PRP-DNA complexes revealed that PRP protects a 39-base-pair region of PHR1 5' flanking sequence beginning 40 base pairs upstream from the coding sequence. A prominent feature of the foot-printed region is a 22-base-pair palindrome. Deletion of the PHR1 upstream repression sequence increased the basal level expression of PHR1 in vivo and decreased induction after exposure of cells to UV radiation or methyl methanesulfonate, whereas insertion of the PRP binding site between the CYC1 upstream activation sequence and "TATA" sequence reduced basal level expression and conferred damage responsiveness upon a reporter gene. Thus these observations establish that PRP is a damage-responsive repressor of PHR1 transcription.
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PMID:A damage-responsive DNA binding protein regulates transcription of the yeast DNA repair gene PHR1. 176 39

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

The PHR1 gene of Saccharomyces cerevisiae encodes a DNA photolyase that catalyzes the light-dependent repair of pyrimidine dimers. In the absence of photoreactivating light, this enzyme binds to pyrimidine dimers but is unable to repair them. We have assessed the effect of bound photolyase on the dark survival of yeast cells carrying mutations in genes that eliminate either nucleotide excision repair (RAD2) or mutagenic repair (RAD18). We found that a functional PHR1 gene enhanced dark survival in a rad18 background but failed to do so in a rad2 or rad2 rad18 background and therefore conclude that photolyase stimulates specifically nucleotide excision repair of dimers in S. cerevisiae. This effect is similar to the effect of Escherichia coli photolyase on excision repair in the bacterium. However, despite the functional and structural similarities between yeast photolyase and the E. coli enzyme and complementation of the photoreactivation deficiency of E. coli phr mutants by PHR1, yeast photolyase failed to enhance excision repair in the bacterium. Instead, Phr1 was found to be a potent inhibitor of dark repair in recA strains but had no effect in uvrA strains. The results of in vitro experiments indicate that inhibition of nucleotide excision repair results from competition between yeast photolyase and ABC excision nuclease for binding at pyrimidine dimers. In addition, the A and B subunits of the excision nuclease, when allowed to bind to dimers before photolyase, suppressed photoreactivation by Phr1. We propose that enhancement of nucleotide excision repair by photolyases is a general phenomenon and that photolyase should be considered an accessory protein in this pathway.
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PMID:Interactions between yeast photolyase and nucleotide excision repair proteins in Saccharomyces cerevisiae and Escherichia coli. 268 65

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

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

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

A 3.3-kilobase PvuII fragment carrying the PHR1 gene of Saccharomyces cerevisiae has been cloned into an Escherichia coli expression vector and introduced into E. coli strains deficient in DNA photolyase. Complementation of the E. coli phr-1 mutation was observed, strongly suggesting that the yeast PHR1 gene encodes a DNA photolyase.
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PMID:Expression of a Saccharomyces cerevisiae photolyase gene in Escherichia coli. 388 10

The nucleotide sequence of a 2301 base pair region of Saccharomyces cerevisiae DNA containing the PHR1 gene is reported. Within this region a single open reading frame of 1695 base pairs was found; using the insertional inactivation technique it was shown that part or all of this open reading frame specifies the PHR1-encoded photolyase. The amino acid sequence of the 565 amino acid long polypeptide predicted from the PHR1 nucleotide sequence was compared to the amino acid sequence of E. coli photolyase. Overall the sequence homology was 36.5%; however, two short regions near the amino terminus as well as the carboxy-terminal 150 amino acids display significantly greater sequence homology. The presence of these strongly conserved regions suggests that the yeast and E. coli photolyase possess common structural and functional domains involved in substrate and/or chromophore binding.
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PMID:Sequence of the Saccharomyces cerevisiae PHR1 gene and homology of the PHR1 photolyase to E. coli photolyase. 390 69

The yeast Saccharomyces cerevisiae, like most organisms, is able to directly repair pyrimidine dimers by using a photoreactivating enzyme and visible light. Cells carrying the phr1 mutation were shown previously to be unable to photoreactivate dimers, but neither the map position nor the primary gene product of the PHR1 gene has been determined. We have cloned this gene and determined its map position. A plasmid containing a 6.4-kilobase yeast DNA insert has been isolated and shown to restore photoreactivation in a phr1 strain. A 3.1-kilobase subclone has also been shown to complement phr1. The original plasmid was targeted to integrate into chromosomal DNA at a site homologous to the insert by cutting within the insert. Two of these integrants have been mapped on the right arm of chromosome XV; the integrants have been further mapped at ca. 13 centimorgans from prt1. It has also been independently determined that phr1 maps at this location. Thus, we have determined the map position of PHR1 and also have shown that the plasmid contains PHR1 rather than a suppressor of the phr1 mutation.
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PMID:Cloning and mapping of Saccharomyces cerevisiae photoreactivation gene PHR1. 609 43

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

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