EC:3.1.30.2 - FACTA Search

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Query: EC:3.1.30.2 (endonuclease)
18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The soxR locus of Escherichia coli K12 mediates transcriptional activation of a complex oxidative stress regulon in response to superoxide-generating (redox-cycling) agents. We have cloned the soxR locus, which is positioned near the uvrA gene at 92.2 min on the genetic map, by monitoring complementation of a delta soxR mutation. Subclones from the soxR region in the delta soxR strain simultaneously restored cellular resistance to the redox-cycling agent phenazine methosulfate and inducibility of at least two of the regulon proteins, glucose-6-phosphate dehydrogenase and endonuclease IV, by paraquat, another redox-cycling agent. DNA sequence analysis revealed the presence of two genes involved in activating the soxR regulon. These genes, named soxR and soxS, are arranged divergently with their 5' ends separated by only 85 bp. The predicted 12.9-kDa SoxS protein is related to the AraC family of one-component gene regulators, but corresponds only to the putative DNA-binding regions of these proteins. The 17.1-kDa SoxR protein bears significant homology only to the MerR family of proteins including a predicted DNA-binding helix-turn-helix and a cluster of cysteine residues positioned similarly to those that regulate the activity of MerR in response to Hg2+. This suggests that SoxR could be a metal-binding gene regulator that acts as the intracellular sensor for superoxide. SoxS is evidently the proximal activator of the regulon genes: antibiotic resistance and high-level expression of at least three of the regulon proteins was effected in vivo by the individual expression of SoxS, but not of SoxR, whether or not the cells were exposed to paraquat. These data, together with the recently reported paraquat-inducibility of the soxS gene (Wu, I., and Weiss, B. (1990) J. Bacteriol. 173, 2864-2871), indicate that SoxR and SoxS may constitute a novel type of two-component regulatory system in which the two proteins act sequentially to activate transcription of the various regulon genes in response to superoxide stress.
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PMID:Molecular characterization of the soxRS genes of Escherichia coli: two genes control a superoxide stress regulon. 165 16

The nfo (endonuclease IV) gene of Escherichia coli is induced by superoxide generators such as paraquat (methyl viologen). An nfo'-lacZ operon fusion was used to isolate extragenic mutations affecting its expression. The mutations also affected the expression of glucose 6-phosphate dehydrogenase, Mn2(+)-superoxide dismutase (sodA), and three lacZ fusions to soi (superoxide-inducible) genes of unknown function. The mutations were located 2 kilobases clockwise of ssb at 92 min on the current linkage map. One set of mutations, in a new gene designated soxR, caused constitutive overexpression of nfo and the other genes. It included insertions or deletions affecting the carboxyl end of a 17-kilodalton polypeptide. In a soxR mutant, the expression of sodA, unlike that of nfo, was also regulated independently by oxygen tension. Two other mutants were isolated in which the target genes were noninducible; they had an increased sensitivity to killing by superoxide-generating compounds. One had a Tn10 insertion in or near soxR; the other had a multigene deletion encompassing soxR. Therefore, the region functions as a positive regulator because it encodes one or more products needed for the induction of nfo. Regulation is likely to be at the level of transcription because the mutations were able to affect the expression of an nfo'-lac operon fusion that contained the ribosome-binding site for lacZ. Some mutant plasmids that failed to suppress (or complement) constitutivity in trans had insertion mutations several hundred nucleotides upstream of soxR in the general region of a gene for a 13-kilodalton protein encoded by the opposite strand, raising the possibility of a second regulatory gene in this region. The result define a new regulon, controlled by soxR, mediating at least part of the global response to superoxide in E. coli.
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PMID:soxR, a locus governing a superoxide response regulon in Escherichia coli K-12. 169 93

Escherichia coli responds to superoxide-generating agents by inducing approximately 40 proteins. We have identified a genetic locus, soxR (superoxide response), that positively regulates 9 of these proteins during superoxide stress. Induction under soxR control is at the transcriptional level, as shown with lac fusions to five paraquat-inducible promoters. Members of the soxR regulon include at least three proteins with demonstrable antioxidant roles: Mn-containing superoxide dismutase (which destroys superoxide radicals), endonuclease IV (which repairs radical-induced damages in DNA), and glucose-6-phosphate dehydrogenase (which produces NADPH). Induction of the soxR regulon also leads to diminished levels of the major outer membrane protein OmpF and alteration of the small-subunit ribosomal protein S6. These latter changes confer resistance to a variety of antibiotics. The soxR regulon may thus operate as an inducible defense against xenobiotics in general.
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PMID:Positive control of a global antioxidant defense regulon activated by superoxide-generating agents in Escherichia coli. 169 18

soxR governs a superoxide response regulon that contains the genes for endonuclease IV, Mn2(+)-superoxide dismutase, and glucose 6-phosphate dehydrogenase. The soxR gene encodes a 17-kDa protein; some mutations of this gene cause constitutive overexpression of the regulon. Induction by paraquat (methyl viologen) requires both soxR and a new gene, soxS. soxS is adjacent to soxR, it encodes a 13-kDa protein, and it is required for paraquat resistance. These functions were revealed by studies in which the sequence of the 1.1-kb soxR-soxS region was determined, the 5' ends of the mRNAs were mapped, and complementation tests were performed with soxRS plasmids containing deletions of known sequence. The two genes are divergently transcribed, and the transcripts overlap. The soxS promoter is within the 85-nucleotide intergenic region, whereas the soxR promoter is within soxS. soxS mRNA increases after induction. Both protein products have possible DNA-binding (helix-turn-helix) domains. SoxR contains four cysteines (CX2CXCX5C) that might be part of a sensor region. SoxS shows 17 to 31% homology to the C-terminal portions of members of the AraC family of positive regulators.
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PMID:Two divergently transcribed genes, soxR and soxS, control a superoxide response regulon of Escherichia coli. 170 80

Escherichia coli treated with nontoxic levels of the superoxide-generating redox-cycling agents menadione and paraquat showed dramatic changes in protein composition as monitored by two-dimensional gel analysis. The distribution of proteins synthesized after treatment with these agents overlapped significantly with that seen after hydrogen peroxide treatment, and it included all the proteins in the oxyR regulon. The redox-cycling agents also elicited the synthesis of at least 33 other proteins that were not seen with hydrogen peroxide, including three heat shock proteins, the Mn-containing superoxide dismutase, the DNA repair protein endonuclease IV, and glucose-6-phosphate dehydrogenase. At least some of these redox-inducible proteins appear to be part of a specific response to intracellular superoxide. E. coli is thus equipped with a network of inducible responses against oxidative damage, controlled in multiple regulatory pathways.
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PMID:A global response induced in Escherichia coli by redox-cycling agents overlaps with that induced by peroxide stress. 247 81

DNA sequences of the X-chromosome-linked hypoxanthine phosphoribosyltransferase (HPRT) and glucose 6-phosphate dehydrogenase (G6PD) genes have revealed the presence of clusters of CpG dinucleotides, raising the possibility that such clusters are involved in the control of expression of these genes, which are expressed in all tissues. Although CpG clusters are not exclusive features of the X chromosome, the analysis of X-linked genes provides the means to determine whether CpG clusters are control elements; one of the two homologous X loci in female mammals is not expressed, so that active and inactive versions of the gene can be compared. In fact, it has been shown that these CpG clusters are undermethylated when the gene is active and extensively methylated when the gene is inactive. In addition to hypomethylation, chromatin hypersensitivity to endonuclease digestion is a known hallmark of regulatory sequences in eukaryotic genes. We report here that the CpG clusters of the active hprt and g6pd genes are not only undermethylated, but also hypersensitive to MspI, DNase I and S1 nuclease, further supporting the suggestion that they are involved in the control of expression of these genes.
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PMID:Clusters of CpG dinucleotides implicated by nuclease hypersensitivity as control elements of housekeeping genes. 298 78

Hybridization of DNA samples prepared from flow-sorted human chromosomes with a cDNA probe for the X-linked glucose-6-phosphate dehydrogenase (G6PD) suggested the existence of the G6PD-like locus on chromosome 17. Southern hybridization analysis of endonuclease-digested DNA samples from the human-mouse hybrid cell line with human chromosome 17, and from control human and mouse cells, proved that not only X chromosomes, but also chromosome 17, contain DNA sequences that are hybridizable with the G6PD cDNA probe. The G6PD-like locus on chromosome 17 could be a putative pseudogene or a functional gene for the fetal brain-specific G6PD isozyme or other protein.
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PMID:Existence of glucose-6-phosphate dehydrogenase-like locus on chromosome 17. 375 86

A plasmid containing the entire Salmonella typhimurium his operon was constructed from plasmid pM89 and an EcoRI fragment of phi 80 his imm lambda DNA. The recombinant pST41 also includes the glucose 6-phosphate dehydrogenase (gnd) gene and has one EcoRI endonuclease cleavage site in the integrated fragment. This plasmid served as a source for the construction of two additional plasmids, one carrying the OGDC-region of the his operon and the other a CBHAFIE segment of the his gene along with the gnd gene. The presence of the his operon in the constructed plasmids was confirmed by hybridization to S. typhimurium his RNA. The location of the gnd gene in the CBHAFIE fragment of the his gene was confirmed genetically: after transfection with the plasmid bearing the gnd gene, a gnd recipient gained the capacity to utilize gluconate as a sole carbon source. The DNAs of the three hybrid plasmids were analyzed by gel electrophoresis. By comparing the EcoRI endonuclease cleavage pattern of these three hybrid plasmids with the DNA cleavage pattern of phi 80 his imm lambda, phi 80 imm lambda and lambda phages, the EcoRI cleavage map of phi 80 his imm lambda was obtained.
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PMID:pMB9 plasmids bearing the Salmonella typhimurium his operon and gnd gene. 624 14

In this study, we carried out restriction endonuclease mapping in order to characterize the alpha-globin genotype of 10 Sardinian beta 0-thalassemia heterozygotes, all of whom presented with normal red blood cell indices and increased HbA2 levels. In 8 of these subjects, we found the deletion of two alpha-globin genes (-alpha/-alpha), and in the remaining two the deletion of a single alpha-globin gene (-alpha/alpha alpha). In three of these carriers with the (-alpha/-alpha) alpha-globin genotype and in one with the (-alpha/alpha alpha) genotype, we also found the glucose-6-phosphate dehydrogenase (G6PD) defect of the Mediterranean type. On the basis of these findings, we may conclude that the interaction of heterozygous beta 0-thalassemia with alpha-thalassemia, due to the deletion of either one or two alpha-globin genes, may lead to the production of red blood cells with normal indices. The association of the G6PD defect with this thalassemia gene complex may eventually contribute to this effect. We suggest, therefore, that screening programs for heterozygous beta-thalassemia in populations where alpha-thalassemia is also prevalent, should incorporate the determination of HbA2 in the first set of tests.
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PMID:Phenotypic effect of heterozygous alpha and beta 0-thalassemia interaction. 630 42

Aurintricarboxylic acid (ATA), an inhibitor of Ca(2+)-dependent endonuclease activity, is often used to implicate a role for increased intracellular calcium in mechanistic toxicology studies. We report here on the ability of ATA to inhibit the activity of several NAD(H)/NADP(H)-requiring enzymes (purified or cellular homogenates), including lactic dehydrogenase, alcohol dehydrogenase, cytochrome c reductase, ethoxycoumarin o-dealkylase, isocitric dehydrogenase, glutathione reductase and glucose-6-phosphate dehydrogenase. These results were compared with the ability of ATA to inhibit micrococcal nuclease and rat liver Ca(2+)-dependent endonuclease activity in similar incubations. With the exception of alcohol dehydrogenase, ATA was a potent inhibitor of each of the purified enzymes, with IC50s ranging from 0.5 to 82 microM. In cell homogenates, however, ATA was from 10 to 100-fold less potent at inhibiting these enzymes. When exogenous protein was added to purified enzyme incubations, the effect of ATA was similarly diminished. Our results demonstrate that ATA inhibits a wide range of NAD(H)/NADP(H)-requiring enzymes in in vitro incubations using purified enzymes, but that the inhibitory effects are markedly reduced in incubations which more closely resemble a cellular milieu.
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PMID:Inhibition of NAD(H)/NADP(H)--requiring enzymes by aurintricarboxylic acid. 855 68

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