Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:4.1.99.3 (PRE)
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The combined action of 8-methoxypsoralen (8-MOP) and light with lambda greater than 310 nm on bacteriophages and bacteria results in the formation of the following two types of photo-products in the DNA: monoadducts, in which 8-MOP is covalently bound to a pyrimidine base, and diadducts or cross links, in which the 8-MOP is covalently bound to two pyrimidines from complementary strands. The method of repeated irradiation has been proposed for analyzing the degree of lethality of the photoproducts in DNA. According to this method, the preparation is freed of free 8-MOP molecules after the first irradiation and then irradiated for a second time. In this case the monoadducts are converted into cross linkages between the strands. Approximately 3-10(-9) cross links/Dalton-min form in Escherichia coli DNA during the first irradiation. The rate of the formation of cross links drops by a factor of about 2 during the repeated irradiation. It has been shown that the 8-MOP monoadducts are repaired by the uvr system just as efficiently as are lethal photoproducts of the cyclobutane pyrimidine dimer type. Lethal cross linkages in bacteria and phages are repaired by the joint action of the uvr, recA, and lex systems. A scheme has been proposed for the repair of cross linkages in one genome by these systems. The photoreactivating enzyme is inactive on DNA subjected to the combined action of 8-MOP and light. The kinetics of the repair of monadducts in bacteria and phages with various defects in the repair systems have been studied. It has been shown that the products of genes recA and lex take part in the repair process according to an excision-resynthesis method. The use of the method of repeated irradiation with 8-MOP as an express method for detecting repair systems of the uvr type in cells has been proposed.
Mol Biol (Mosk)
PMID:Repair of 8-methoxypsoralen monoadducts and diadducts in bacteriophages and bacteria. 79 58

Genetic recombination induced by structural damage in DNA molecules was investigated in E. coli K12 (lambda) lysogens infected with genetically marked phage lambda. Photoproducts were induced in the phage DNA before infection by exposing them either to 313 nm light in the presence of acetophenone or to 254 nm light. To test the role of the replication of the damaged phage DNA on the frequency of the induced recombination, both heteroimmune and homimmune crosses were performed. First, samples of a heteroimmune phage lambda imm434 P80 exposed to these treatments were allowed to infect cells lysogenic for prophage lambda cI857 P3. Phage DNA replication and maturation took place, and the resulting progeny phages were assayed for the frequency of P+ recombinants. Recombination was less frequent in infected cells exposed to visible light and in wild type cells able to perform excision repair than in excision-defective lysogens. Therefore, much of the induced recombination can be attributed to the pyrimidine dimers in the phage DNA, the only photoproducts known to be dissociated by photoreactivating enzyme. Second, in homoimmune crosses, samples of similarly treated homoimmune lambda P3 phages were allowed to infect lysogens carrying lambda cI857 P80. Replication of the phage DNA containing ultraviolet photoproducts was repressed by lambda immunity, and was further blocked by the lack of the P gene product needed for replication. The lysogens were purified and scored for both colony forming ability and for P+ recombinant prophages. The 254 nm photoproducts increased the frequency of recombination in these homimmune crosses, even though phage DNA replication was blocked. Irradiation with 313 nm light and acetophenone M, which produces dimers and unknown photoproducts, was not as effective per dimer as the 254 nm light. It is concluded from these results that certain unidentified 254 nm photoproducts can cause recombination even in the absence of DNA replication. They are not pyrimidine dimers, as they are not susceptible to excision repair or photoreactivation. In contrast, pyrimidine dimers appear to cause recombination only when the DNA containing them undergoes replication.
Mol Gen Genet 1976 Jul 23
PMID:Genetic exchanges caused by ultraviolet photoproducts in phage lambda DNA molecules: the role of DNA replication. 95

Expression of the lacZ gene in Escherichia coli is inactivated by exposure to ultraviolet light (UV). Inactivation is exceptionally effective when cells contain amplified levels of DNA photolyase (which forms complexes with pyrimidine dimers in the absence of light for actual photoreversal) and a lambda prophage. Without amplified photolyase, the lambda prophage or both, inactivation rates are similar and much lower. UV-inactivation of lacZ gene expression in the presence of both amplified photolyase and lambda is even more effective if lambda cI857 is used in place of the wildtype prophage but is wholly unexceptional if the prophage carries defects in the lambda genes rexA or rexB. When Rex AB proteins are provided by expression from a plasmid and the cell also contains amplified photolyase, exceptional inactivation rates again obtain; in fact inactivation is most effective under these conditions. The data are considered to reveal a role for Rex AB proteins, which mediate superinfection exclusion, in the exceptional inactivation of gene expression by photolyase bound to pyrimidine dimers in DNA. Photolyase-dimer complexes may mimic the structure of certain complexes that arise during phage development and thus influence Rex A and/or B proteins, thereby shutting down cell metabolism.
Mol Gen Genet 1992 Feb
PMID:RexAB proteins of bacteriophage lambda enhance the effect of photolyase-dimer complexes on lacZ gene expression in Escherichia coli. 153 92

The phr gene, which encodes protein of 472 amino acid residues, is required for light-dependent photoreactivation and enhances light-independent excision repair of ultraviolet light (UV)-induced DNA damage. In this study, dodecamer HindIII linker insertions were introduced into the cloned phr gene and the functional effects of the resulting mutations on photoreactivation and light-independent dark repair in vivo were studied. Among 22 mutants obtained, 7 showed no photoreactivation as well as no enhancement of light-independent repair. Four of these were located in amino acid residues between Gln333 and Leu371 near the 3' end of the gene, two were located in a small region at Glu275 to Glu280 near the middle of the gene and the remaining one was between Pro49 and Arg50. Three mutants that had insertions located in the 42 bp segment from 399 to 441 bp of the phr coding sequence (corresponding to amino acid residues Ile134 to Lys149) lost the light-independent repair effect but retained photoreactivation. These results suggest that (i) Escherichia coli DNA photolyase contains several critical sites that are distributed over much of the enzyme molecule, and (ii) a functional domain required for the effect on light-independent repair is at least in part distinct from that necessary for light-dependent photoreactivation.
Mol Gen Genet 1992 Mar
PMID:Dissection of functional domains in Escherichia coli DNA photolyase by linker-insertion mutagenesis. 155 97

In Escherichia coli strains WU and CS101, UV inactivation of lacZ gene expression is more effective when the cells contain amplified DNA photolyase, and flash photoreactivation (fPR) after 15 min of metabolism does not reverse inactivation by the photolyase-dimer complexes. In other strains, also studied with or without amplified DNA photolyase, there is no differential UV inactivation and fPR reverses inactivation by the complexes regardless of continued metabolism. The irreparable condition in strain WU is not due to dysfunction of photolyase: during post-UV metabolism, fPR still restores viability and dimers are removed from the region of the lac operon. When the wild-type lac promoter is replaced by the UV5 promoter, making expression insensitive to relaxed supercoiling and catabolite repression, inactivation by dimers alone becomes more resistant, i.e. requires higher fluences, but inactivation in WU and CS101 is still exceptionally sensitive to photolyase-dimer complexes. This indicates that dimers external to the wild-type lac operon may inhibit expression by altering supercoiling but that complexes must involve some other mechanism for their special effect in WU and CS101. The exceptionally efficient inactivation and irreparable condition are consistent with the idea that, in two specific laboratory strains, photolyase bound to dimers at a considerable distance from the lac operon may initiate an aggregation of DNA with other cellular molecules that extends to, and inactivates expression from, the operon.
Mol Gen Genet 1991 Aug
PMID:Inactivation of lacZ gene expression by UV light and bound DNA photolyase implies formation of extended complexes in the genomes of specific Escherichia coli strains. 190 22

The mammalian ribosomal RNA gene promoters exhibit a conserved sequence between positions +1 and +16 that shows a high degree of homology to the response element for glucocorticoids and progestins (GRE/PRE). These sequences bind specifically the glucocorticoid receptor and the progesterone receptor (PR) albeit with lower affinity than a canonical GRE/PRE. Because steroid hormones are known to affect expression of the ribosomal genes, we tested the influence of hormone receptors on the activity of the ribosomal RNA gene promoter in a cell-free transcription assay. Preparations of PR that induce transcription from the mouse mammary tumour virus (MMTV) promoter do not stimulate but slightly inhibit transcription from the ribosomal RNA gene promoter. This weak negative effect is not mediated through binding to the hypothetical GRE/PRE as a mutant promoter that does not bind receptor is equally repressed. Introduction of the functional MMTV GRE/PRE upstream of the basal ribosomal RNA gene promoter does not enhance its transcription in the presence of an active PR. Thus, RNA polymerase I transcription cannot be stimulated in vitro by cis elements and regulatory proteins that are active in RNA polymerase II transcription.
J Steroid Biochem Mol Biol 1991 Oct
PMID:Neither the endogenous nor a functional steroid hormone receptor binding site transactivate the ribosomal RNA gene promoter in vitro. 191 32

The glucocorticoid receptor (GR) and the progestin receptor (PR) bind specifically to a variety of DNA sequences, glucocorticoid/progestin response elements (GRE/PRE), located in the proximity of responsive gene promoters. Using the isolated recombinant GR DNA-binding domain (DBD), it has recently been shown that GR interacts with the GRE/PRE, a 15-basepair partially palindromic consensus sequence, as a dimer. In this study an investigation into the GR-GRE/PRE and PR-GRE/PRE interaction has been performed using missing base contact analysis with the tyrosine aminotransferase GREII (TATII) and recombinant GR DBD as well as a fusion protein consisting of the PR DBD fused to Staph. aureus protein-A. GR and PR had identical base contact points, localized within two consecutive major grooves, binding to the same face of the DNA. Ethylation interference was also performed on the GR DBD-TATII interaction. The contact points with the backbone phosphate groups flank the contacts within the major groove for each of the two half-sites. Knowledge of the contact points within the DNA sequence together with the three-dimensional structure of the protein enables modelling of the protein-DNA interaction.
Mol Endocrinol 1991 Apr
PMID:Identification of protein contact sites within the glucocorticoid/progestin response element. 192 92

The antirheumatic gold salt aurothiomalate (AuTM) has cellular actions that are consistent with modulation of gene expression. We have tested the hypothesis that an important mode of action of AuTM is inhibition of binding of certain transcription factors to regulatory elements in DNA. The chemistry of transcription factors containing the zinc finger motif makes them candidates for such an interaction with AuTM. In this regard, the interaction of a steroid hormone receptor, the progesterone receptor (PR), with its DNA response element (PRE) was chosen as a suitable model. Nuclear extracts of T-47D human breast cancer cells rich in PR were incubated with radiolabeled PRE, and binding was determined by gel retardation assay. Preincubation of nuclear extract with AuTM caused a concentration-dependent inhibition of binding of PR to PRE (IC50, approximately 3 microM). Other metal ions inhibited binding at higher concentrations, in a rank order correlating with their binding affinity for thiols. Thiomalic acid had no effect in the absence of gold in this system. To test the effect of AuTM on PR-mediated transcription, we transfected the progestin-inducible expression vector pMSG-CAT into T-47D cells. Transfected cells were incubated in the absence or presence of AuTM and treated with the synthetic progestin ORG2058, to induce chloramphenicol acetyl transferase (CAT) activity. With 10 and 100 microM AuTM, there was inhibition to 67 +/- 3% (p = 0.012) and 42 +/- 8% (p = 0.008) of CAT specific activity, respectively, compared with controls. These results demonstrate that AuTM can regulate gene expression and that inhibition of binding of a transcription factor to its response element is a likely mechanism. This provides a molecular model for further study of the antirheumatic action of gold salts.
Mol Pharmacol 1991 Nov
PMID:Inhibition of DNA binding and transcriptional activity of a nuclear receptor transcription factor by aurothiomalate and other metal ions. 194 34

Steroid hormone receptors can be divided into two subfamilies according to the structure of their DNA binding domains and the nucleotide sequences which they recognize. The glucocorticoid receptor and the progesterone receptor (PR) recognize an imperfect palindrome (glucocorticoid responsive element/progesterone responsive element [GRE/PRE]) with the conserved half-sequence TGTYCY, whereas the estrogen receptor (ER) recognizes a palindrome (estrogen responsive element) with the half-sequence TGACC. A series of symmetric and asymmetric variants of these hormone responsive elements (HREs) have been tested for receptor binding and for the ability to mediate induction in vivo. High-resolution analysis demonstrates that the overall number and distribution of contacts with the N-7 position of guanines and with the phosphate backbone of various HREs are quite similar for PR and ER. However, PR and glucocorticoid receptor, but not ER, are able to contact the 5'-methyl group of thymines found in position 3 of HREs, as shown by potassium permanganate interference. The ER mutant HE84, which contains a single amino acid exchange, Glu-203 to Gly, in the knuckle of ER, creates a promiscuous ER that is able to bind to GRE/PREs by contacting this thymine. Elements with the sequence GGTCAcagTGTYCT that represent hybrids between an estrogen response element and a GRE/PRE respond to estrogens, glucocorticoids, and progestins in vivo and bind all three wild-type receptors in vitro. These hybrid HREs could serve to confer promiscuous gene regulation.
Mol Cell Biol 1991 Jun
PMID:Functional interaction of hybrid response elements with wild-type and mutant steroid hormone receptors. 203 29

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.
Mol Cell Biol 1990 Sep
PMID:Expression of the yeast PHR1 gene is induced by DNA-damaging agents. 211


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