Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.1.30.2 (endonuclease)
 18,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A 569-base pair fragment encompassing the upstream regulatory region, the RNA initiation sites, and the initial part of the coding region of the Saccharomyces cerevisiae alcohol dehydrogenase II gene has been analyzed for the presence of sites which undergo conformational modification under torsional stress. Fine mapping of P1 and S1 endonuclease-sensitive sites was obtained on single topoisomers produced by in vitro ligation. It was shown that the upstream activator sequence, the TATA sequence, a region directly upstream to the RNA initiation sites, and several positions in the first segment of the transcribed region change conformation as a function of the applied torsional stress in a precisely coordinate fashion. The superhelical density optima for this coordinate modifications have been determined. Analysis of the conformational changes of the promoter sequence in several naturally occurring (Young, E. T., Williamson, V. M., Taguchi, A., Smith, M., Sledziewski, L., Russel, D., Osterman, J., Denis, C., Cox, D., and Beier, D., (1982) in Genetic Engineering of Microorganisms for Chemicals (Hollander, A., De Moss, R. D., Kaplan, S., Konisky, J., Savage, D., and Wolle, R. S., eds) pp. 335-361, Plenum Publishing Corp., New York) up-promoter constitutive mutants was performed. This analysis has shown that the conformation of functionally relevant sites changes as a function of sequence mutations that have taken place elsewhere; this shows that the conformational behavior of the whole promoter region is linked and suggests transmission in cis of topological effects in RNA polymerase II promoters.
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PMID:The intrinsic topological information of the wild-type and of up-promoter mutations of the Saccharomyces cerevisiae alcohol dehydrogenase II regulatory region. 305 83

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

Ethanol-inducible cytochrome P4502E1 is the main pathway in the non-alcohol dehydrogenase oxidation of ethanol. Its coding gene, CYP2E1, is polymorphic at the Rsa I restriction site in the 5'-flanking region. The mutant genotype c2c2 has a higher transcriptional activity than the genotype c1c1 or c1c2. Heavy drinkers carrying the c2 allele might be at a higher risk of alcoholic cirrhosis since they might synthesize greater amounts of acetaldehyde, the compound believed responsible for hepatotoxicity of ethanol. With the aim of establishing if the c2 allele increases the risk of cirrhosis in heavy drinkers, we studied 58 (6 female) chronic heavy drinkers with liver cirrhosis and 137 healthy normal controls of the same ethnic (white Spaniards) origin. After extraction of DNA from white blood cells, alleles c1 and c2 of CYP2E1 were identified by restriction fragment length polymorphism (RFLP) with endonuclease Rsa I. Fifty-six patients and 130 controls were classified as homozygous c1c1 and two and seven, respectively, as heterozygous c1c2. No homozygous c2c2 were detected. The c2 allele frequencies were 0.017 in patients and 0.026 in controls (non-significant differences). We conclude that the Rsa I RFLP polymorphism is probably not related to the risk of cirrhosis in Spanish heavy drinkers.
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PMID:Rsa I polymorphism at the cytochrome P4502E1 locus is not related to the risk of alcohol-related severe liver disease. 902 17

Bursaphelenchus xylophilus isolate MPSy-1av was subcultured from pathotype MPSy-1. MPSy-1av is nonparasitic and does not establish in Pinus sylvestris, P. strobus, P. nigra, or P. taeda. This isolate produces ethanol as an end product of carbohydrate metabolism, whereas its parent pathotype, MPSy-1, does not. Alcohol dehydrogenase activity was easily detectable in homogenates of MPSy-1av but barely detectable in some homogenates of MPSy-1. Genomic differences were seen between MPSy-1 and M PSy-1av by restriction endonuclease analysis of total nematode DNA, and hybridization of DNA fragments to the alcohol dehydrogenase gene from Drosophila.
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PMID:Characterization of a Nonparasitic Isolate of Bursaphelenchus xylophilus. 1929 Jan 48

A weakness of using immobilized metal affinity chromatography (IMAC) to purify recombinant proteins expressed in Pichia pastoris is the co-purification of native proteins that exhibit high affinities for Ni-IMAC. We have determined the elution profiles of P. pastoris proteins and have examined the native proteins that co-purify when eluting with 100 mM imidazole. Four major contaminants were identified: mitochondrial alcohol dehydrogenase isozyme III (mADH), nucleotide excision repair endonuclease, and the hypothetical proteins TPHA_0L01390 and TDEL_0B02190 which are homologous proteins derived from Tetrapisispora phaffii and Torulaspora delbrueckii, respectively. A new P. pastoris expression strain was engineered that eliminated the predominant contaminant, mADH, by gene disruption. The total amount of protein contaminants was reduced by 55 % without effecting cell growth. The present study demonstrates the feasibility of using a proteomic approach to facilitate bioprocess optimization.
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PMID:Optimized expression in Pichia pastoris eliminates common protein contaminants from subsequent His-tag purification. 2432 66