Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.30.1 (S1 nuclease)
 3,660 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The antitumor compound cis-[Pt(NH3)2Cl2] (cisplatin), conserves two ammine ligands during the reaction with its cellular target DNA. Modifications of these non-leaving groups change the antineoplastic properties of this compound and its genotoxic effects. It is therefore of interest to determine the influence of non-leaving groups on the structure and stability of DNA in vitro. We have investigated platinum-DNA adducts formed by cis-[Pt(R-NH2)2(NO3)2] (where R-NH2 = NH3, methylamine, cyclobutylamine, cyclopentylamine and cyclohexylamine) as a function of DNA binding. All compounds quantitatively reacted with DNA in less than 1 h at 37 degrees C. They formed bifunctional adducts with adjacent nucleotides judging from the displacement of the intercalating molecule ethidium bromide, ultraviolet absorption spectroscopy and circular dichroism. Substitution of a H on the NH3 ligand by alkyl groups dramatically destabilized the platinum-DNA complex. Thermal stability decreased progressively with an increasing number of carbon atoms, delta tm = -4.4 degrees C for 3 cyclohexylamine-platinum-DNA adducts/1000 nucleotides, conditions where cisplatin had no effect. DNA adducts with cyclobutylamine and cyclohexylamine ligands inhibited the hydrolysis of platinum-DNA complexes by S1 nuclease. Km for the digestion of DNA containing these lesions was 2.3 times greater than for cisplatin, indicating steric inhibition of enzyme-substrate complex formation. These results show that the non-leaving groups of substituted cis-Pt(II) compounds may destabilize DNA and interfere with protein-DNA interactions. These perturbations may have consequences for the genotoxic and antitumor activities of platinum compounds.
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PMID:Effect of the amine non-leaving group on the structure and stability of DNA complexes with cis-[Pt(R-NH2)2(NO3)2]. 176 5

The carAB operon of Salmonella typhimurium encoding carbamoyl-phosphate synthetase (CPSase) has been cloned, and the nucleotide sequence of the first gene of the operon, carA, together with 760 base pairs of the 5'-flanking region was determined. The product of the carA gene is the small subunit of CPSase. It catalyzes the transfer of the amide group from glutamine to an NH3-site on the heavy subunit. Primer extension and S1 nuclease mapping of in vivo carAB transcripts revealed that transcription is similar to that of Escherichia coli [Piette, J. et al. (1984) Proc. Natl Acad. Sci. USA 81, 4134-4138] in its initiation at two promoters, P1 and P2, controlled by pyrimidines and arginine, respectively. The arginine control is mediated through binding to the arginine repressor (argR). The involvement of titratable regulatory elements is indicated by the escape from both arginine and pyrimidine control, when the operon is present in multicopies on a plasmid. Measurements of CPSase levels in mutants which allows independent manipulation of the intracellular uracil and cytosine nucleotide pools show, that both uracil and cytosine nucleotides are required for full repression and that limitation of either nucleotide results in derepression of CPSase synthesis. Deletion analyses indicate that regions upstream of the P1 promoter are required for normal expression from this promoter but not from P2.
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PMID:Nucleotide sequence of the carA gene and regulation of the carAB operon in Salmonella typhimurium. 284 75

Escherichia coli can overcome the toxicity of environmental cyanate by hydrolysis of cyanate to ammonia and bicarbonate. This reaction is catalyzed by the enzyme cyanase, encoded by the cynS gene. The nucleotide sequence of cynS has been reported (Sung, Y.-c., Anderson, P. M., and Fuchs, J. A. (1987) J. Bacteriol. 169, 5224-5230). The nucleotide sequence of the complete cyn operon has now been determined. The cyn operon is approximately 2600 base pairs and includes cynT, cynS, and cynX, which encode cyanate permease, cyanase, and a protein of unknown function, respectively. Two cyanate-inducible transcripts of 1500 and 2500 nucleotides, respectively, were detected by Northern blot analysis. S1 nuclease mapping experiments indicated that two different cyn mRNAs have a common 5'-end and two different 3'-ends. One 3'-end was located within the coding region of cynX, whereas the other 3'-end includes the entire DNA sequence of cynX. The longer transcript contained 98 nucleotides complementary to lac mRNA produced by the predominant lac transcription termination sequence. Termination vectors were used to show that both 3'-ends were generated by sequences that caused transcriptional termination in vivo. Expression vectors were used to demonstrate that a protein corresponding to the expected size was synthesized from the DNA fragment containing the open reading frame designated cynX. The predicted amino acid sequence of cynX indicates that it is a very hydrophobic protein. The level of cynX expression was significantly less than that of cynT or cynS expression.
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PMID:Characterization of the cyn operon in Escherichia coli K12. 304 88

We characterized the Rhodobacter capsulatus nifHDK promoter by nucleotide sequencing and nuclease S1 analysis of mRNA-protected DNA probes. Comparison of this promoter to nifP and ntrP promoters from other species reveals extensive homology to the canonical nifP consensus sequence. Using lac fusions we have demonstrated that transcription of the nifHDK operon is totally repressed when the growth medium is supplemented with ammonia, becomes fully derepressed in ammonia-free medium, and proceeds at intermediate levels when other nitrogen sources are used. Based on this information, we constructed plasmid expression vectors in which the rates of transcription from cloned DNA fragments are determined by the nitrogen source used in the growth medium.
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PMID:Transcription of the Rhodobacter capsulatus nifHDK operon is modulated by the nitrogen source. Construction of plasmid expression vectors based on the nifHDK promoter. 341 Mar 21

The PUT1 gene was isolated by functional complementation of a put1 (proline oxidase-deficient) mutation in Saccharomyces cerevisiae. Three independent clones with overlapping inserts of 6.8, 10.5, and 11 kilobases (kb) were isolated from S. cerevisiae genomic libraries in YEp24 (2 micron) and YCp50 (CEN) plasmids. The identity of the PUT1 gene was determined by a gene disruption technique, and Southern hybridization and genetic analyses confirmed that the bona fide gene had been cloned. Plasmids containing the PUT1 gene restored regulated levels of proline oxidase activity to put1 recipient strains. The PUT1 DNA was present in a single copy in the yeast genome and encoded a transcript of ca. 1.5 kb. S1 nuclease protection experiments were used to determine the direction of transcription of the PUT1 message and to localize its 5' and 3' termini within a subcloned 3-kb DNA fragment. Approximately 50-fold more PUT1-specific mRNA was detected in induced (proline-grown) cells than in uninduced (ammonia-grown) cells. A yeast strain carrying the previously identified put3 regulatory mutation that caused constitutive levels of proline oxidase activity was found to have sevenfold elevated PUT1 mRNA levels under noninducing conditions. The absence of a functional electron transport system in vegetative petite (rho-) strains interfered with their ability to use proline as a nitrogen source. Although these strains were Put- and made no detectable proline oxidase activity, PUT1 message was detected under inducing conditions. The PUT1 gene was mapped distal to the GAL2 gene on chromosome XII by tetrad analysis.
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PMID:Proline utilization in Saccharomyces cerevisiae: analysis of the cloned PUT1 gene. 353 23

The sensitivity of S1 nuclease to cis- and trans-(NH3)2PtCl2 modified DNAs is examined as a function of the level of cis- and trans-(NH3)2PtCl2 bound, the % (G+C) content in DNA from different sources and the sequence dependence in poly(dG).poly(dC) and poly(dG-dC).poly(dG-dC). The extent of DNA digested increases with increasing levels of either isomer and is inversely influenced by the % (G+C) content of the DNA. However, the difference in the extent of digestion between the cis-and trans-(NH3)2PtCl2 modified DNAs at equivalent levels of bound isomer follows the order, calf-thymus greater than M. lysodeikticus greater than poly(dG-dC).poly(dG-dC). While there is virtually no difference in the digestion profiles for poly(dG-dC).poly(dG-dC) modified with the two isomers, there is a striking difference in the extent of digestion between cis- and trans-(NH3)2PtCl2 modified poly(dG).poly(dC). These results are discussed in light of the possible modes of binding for cis-(NH3)2PtCl2, previously reported findings on modified DNA and possible implications for modifications in cellular chromatin.
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PMID:S1 nuclease sensitivity to cis- and trans-diamminedichloroplatinum(II) modified DNAS: influence of (G+C) content and nucleotide sequence. 609 96

Protein HU was purified from the cyanobacterium Anabaena 7120. Its complete amino acid sequence was determined by automated Edman degradation of the whole protein and of CNBr and chymotryptic peptides. The active DNA-binding protein is a homodimer of 94-amino acid subunits. Approximately half of the residues are identical to those of the two subunits of HU protein from E. coli. The protein binds to both supercoiled and relaxed double-stranded DNA, cooperatively. The contour lengths of circular DNAs were reduced up to six-fold by HU binding at low ratios of HU to DNA. At higher ratios, highly condensed aggregates were observed. Heterocysts are cells specialized for nitrogen fixation that differentiate at regular intervals along the filaments of Anabaena when they are transferred to a medium lacking combined nitrogen. Protein HU, labeled with 35S in cells growing on ammonia, disappears from developing heterocysts, although it is stably maintained in the intervening strings of vegetative cells. Following establishment of the heterocyst pattern, in which the differentiated cells are spaced about ten cells apart, HU is synthesized in the vegetative cells but not in the heterocysts. Several other vegetative cell DNA-binding proteins are also degraded during the differentiation. The major DNA-binding protein in heterocysts is a new one of subunit molecular mass around 12,000, whose relationship to other DNA-binding proteins is unknown. The gene encoding protein HU was cloned from Anabaena DNA and sequenced. The gene sequence is consistent with the amino acid sequence determined previously. Low stringency hybridization to Anabaena DNA digests suggest that there is a single gene for HU, consistent also with the unique amino acid sequence. S1 nuclease protection experiments suggest that the HU gene promoter differs from those of other Anabaena genes determined to date.
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PMID:Protein HU from the cyanobacterium Anabaena. 774 31

DNA damage induced by carboplatin [cis-diammine-(1, 1-cyclobutanedicarboxylato)platinum(II)] was studied in vitro in comparison with cisplatin [cis-diammine-dichloroplatinum(II)]. The drug-induced DNA damage monitored by conformational change of pUC18 plasmid DNA showed that carboplatin required 10 times higher drug concentration and 7.5 times longer incubation time than those of cisplatin to induce the same degree of conformational change on plasmid DNA. The carboplatin-induced DNA damage was promoted by the increase of pH of the reaction mixture for platinum-DNA adduct formation. Sequence gel analysis of carboplatin-damaged DNA indicated that carboplatin attacked preferentially the sequence of GG >> AG > GA > GNG in the order, similarly to the case of cisplatin. DNA adducts formed by carboplatin were analyzed by HPLC after a sequential digestion of carboplatin-treated DNA with deoxyribonuclease I and S1 nuclease. A single peak having the same retention time as that of bifunctional adduct of (dGMP)2Pt(NH3)2 appeared by treating DNA with carboplatin. The adduct was assigned to be d(pGpG) > Pt(NH3)2. These results suggested that carboplatin induces the same platinum-DNA adducts as those induced by cisplatin, and that the difference in efficiency or kinetics of DNA damage between carboplatin and cisplatin is due to difference of aquation rate between them.
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PMID:A comparison of in vitro platinum-DNA adduct formation between carboplatin and cisplatin. 808 11

In plants, glutamine synthetase (GS) is the enzyme primarily responsible for the assimilation of ammonia into organic nitrogen. In Phaseolus vulgaris a number of isoenzymic forms of GS are found, each of which consists of eight subunits of mol. wt 41 000-45 000. The GS subunits of P. vulgaris have previously been shown to be encoded by a small multigene family and a partial cDNA clone for a nodule-specific GS subunit has been obtained. We report here the isolation and nucleotide sequencing of two essentially full-length GS cDNA clones (pR-1 and pR-2) from a root cDNA library and the deduced amino acid sequences of the corresponding GS subunits (355 amino acid residues each). The coding sequences of pR-1 and pR-2 are closely related (80% nucleotide homology, 88% amino acid homology), but their 5'- and 3'-untranslated regions have diverged almost completely. Both pR-1 and pR-2 are related to, but distinct from, the nodule GS clone, pcPvNGS-01 (or pN-1). Hybridization to genomic Southern blots showed that the three GS mRNAs are encoded by three seperate genes and indicated the existence of a fourth class of GS gene. An S1 nuclease protection assay demonstrated the presence of R-1 and R-2 mRNA in both roots and leaves and confirmed that expression of the N-1 gene is nodule-specific. Expression of the R-1 and R-2 genes in the roots did not change significantly during nodulation. However, only the R-1 gene is expressed in the nodules themselves, indicating that the R-2 gene is specifically repressed during nodule development.
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PMID:Primary structure and differential expression of glutamine synthetase genes in nodules, roots and leaves of Phaseolus vulgaris. 1645 87

The chemolithotrophic ammonia-oxidizing bacterium Nitrosomonas europaea is known to be highly resistant to starvation conditions. The transcriptional response of N. europaea to ammonia addition following short- and long-term starvation was examined by primer extension and S1 nuclease protection analyses of genes encoding enzymes for ammonia oxidation (amoCAB operons) and CO(2) fixation (cbbLS), a third, lone copy of amoC (amoC(3)), and two representative housekeeping genes (glyA and rpsJ). Primer extension analysis of RNA isolated from growing, starved, and recovering cells revealed two differentially regulated promoters upstream of the two amoCAB operons. The distal sigma(70) type amoCAB promoter was constitutively active in the presence of ammonia, but the proximal promoter was only active when cells were recovering from ammonia starvation. The lone, divergent copy of amoC (amoC(3)) was expressed only during recovery. Both the proximal amoC(1,2) promoter and the amoC(3) promoter are similar to gram-negative sigma(E) promoters, thus implicating sigma(E) in the regulation of the recovery response. Although modeling of subunit interactions suggested that a nonconservative proline substitution in AmoC(3) may modify the activity of the holoenzyme, characterization of a DeltaamoC(3) strain showed no significant difference in starvation recovery under conditions evaluated. In contrast to the amo transcripts, a delayed appearance of transcripts for a gene required for CO(2) fixation (cbbL) suggested that its transcription is retarded until sufficient energy is available. Overall, these data revealed a programmed exit from starvation likely involving regulation by sigma(E) and the coordinated regulation of catabolic and anabolic genes.
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PMID:Transcription of all amoC copies is associated with recovery of Nitrosomonas europaea from ammonia starvation. 1738 96


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