Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Pivot Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Target Concepts:
Gene/Protein
Disease
Symptom
Drug
Enzyme
Compound
Query: EC:1.6.99.3 (
diaphorase
)
5,903
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Pituitary-determined hormones regulate the expression of hepatic cytochromes P-450 through processes involving both negative and positive controls. Accordingly, protein levels of several P-450 forms are elevated in rat liver following hypophysectomy [P-450 forms designated 2a (gene IIIA2), RLM2 (gene IIA2), and PB-4 (gene
IIB1
)], whereas protein levels of others are suppressed [e.g., P-450 2c (gene IIC11)]. In the present study, microsomal steroid hydroxylase activities associated with these same P-450 forms were found to be decreased by hypophysectomy, despite elevations in protein levels for several of them. Studies were, therefore, undertaken to determine the biochemical basis for this decrease in microsomal P-450 enzyme specific activity. In vivo treatment of hypophysectomized rats with gonadotropin, under conditions that restore heme to testis P-450, and heme reconstitution experiments carried out with liver homogenates indicated that a deficiency in P-450-associated heme is unlikely to account for the observed decreases in liver P-450 enzyme specific activity. Analysis of the flavoprotein P-450 reductase, however, revealed that the reductase protein and its associated
cytochrome c reductase
activity are decreased by 50 to 75% in liver microsomes isolated from hypophysectomized rats. Moreover, supplementation of isolated liver microsomes with exogenous purified P-450 reductase stimulated microsomal steroid hydroxylase activity preferentially in the hypophysectomized rats, to levels consistent with the observed changes in P-450 protein levels. Thus, a deficiency in P-450 reductase, which is a rate-limiting component for many P-450-dependent hydroxylation reactions, appears to be responsible for the decrease in steroid hydroxylase specific activity in the hypophysectomized rats. Although growth hormone, adrenocorticotropic hormone, and chorionic gonadotropin were each ineffective at restoring hepatic P-450 reductase when administered to hypophysectomized rats, substantial restoration of P-450 reductase levels could be achieved by treatment of the hypophysectomized rats with thyroxine. Thyroxine treatment of these rats also elevated the microsomal steroid hydroxylase activities associated with the individual hepatic P-450 forms to levels commensurate with their respective P-450 protein levels. These results establish that hepatic P-450 reductase is subject to hormonal controls that are distinct from those governing cytochrome P-450 expression and further demonstrate the complexity of endocrine control of hepatic steroid hormone metabolism.
...
PMID:Hypophysectomy differentially alters P-450 protein levels and enzyme activities in rat liver: pituitary control of hepatic NADPH cytochrome P-450 reductase. 249 35
The ecotoxicological effects of mining effluents is coming under much greater scrutiny. It appears necessary to explore possible health effects in association with iron ore mining effluents. The present results clearly demonstrate that iron-ore leachate is not an inert media but has the potential to induce lipid peroxidation. Peroxidation was assessed by measuring oxygen consumption in the presence of a reducing agent such as ascorbate or NADPH and a chelator such as EDTA. Labrador iron ore is an insoluble complex crystalline material containing a mixture of metals (Fe, Al, Ti, Mn, Mg,ellipsis, ) in contrast to the iron sources used for normal lipid peroxidation studies. The metal of highest percentage is iron (59. 58%), a metal known to induce oxyradical production. Iron ore powder initiated ascorbic acid-dependent lipid peroxidation (nonenzymatic) in liposomes, lipids extracted from rat and salmon liver microsomes, and intact salmon liver microsomes. It also revealed an inhibitory effect of NADPH-dependent microsomes lipid peroxidation as well as on NADPH
cytochrome c reductase
activity. However, nonenzymatic peroxidation in rat liver microsomes was not significantly inhibited. Cytochrome P450 IA1- and
IIB1
-dependent enzymatic activities as well as P450 levels were not affected. The inhibition could be due to one of the other components of iron ore leachate (Mn, Al,ellipsis, ). These effects of iron-ore leachate indicate that a potential toxicity could be associated with its release into lakes. Further studies are necessary to explore in vivo effects on aquatic animals.
...
PMID:Iron ore mines leachate potential for oxyradical production. 1083 36
The mtDNA of the ascomycetous wine yeast Candida zemplinina is a circularly mapping genome of 23,114 bp. It contains 35 genes coding for the seven basic subunits of oxidative phosporylation found in yeasts (the genes encoding for
NADH oxidoreductase
subunits are absent), the ribosomal protein Var1, two rRNAs and 25 tRNA genes. Although protein phylogenetic analysis showed a divergent mitochondrial genome, several traits appeared preserved. The conserved gene blocks between the mtDNAs of C. zemplinina and Candida glabrata were maintained and changes in gene order and putative promoters were due to restricted genome reshuffling. New heterogeneous hairpin elements were identified scattered throughout cox1 introns. The large subunit rRNA gene harboured the first group-
IIB1
intron containing a putative active reverse transcriptase (RT) in mitochondrial genomes of fungi. Phylogenetic analysis of the RT protein confirmed its closer relationship to eubacterial intronic RTs, while being only distantly related to all other fungal mitochondrial group-II introns and RTs. The findings point towards an early migration event of a eubacterial group-II intron to the mitochondrial genome of C. zemplinina.
...
PMID:Complete mitochondrial genome sequence of the wine yeast Candida zemplinina: intraspecies distribution of a novel group-IIB1 intron with eubacterial affiliations. 1808 38
