Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0338671 (Steroids)
 9,479 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Nuclear extracts from the uteri of estradiol-implanted rats contain a tyrosinase-like enzyme that has three activities: monophenolase or cresolase, diphenolase or catecholase, and estrogen binding. When [3H]estradiol was used as a substrate, 3H2O was released from the A ring in the presence of copper and ascorbic acid. The optimal concentrations of these cofactors for the cresolase activity were established. The cresolase activity was lost on attempts at further purification. Estradiol binding was observed in conjunction with the enzymatic activity and was dependent on the presence of ascorbic acid and copper. The most potent inhibitors of 3H2O release from [3H]estradiol were those with a dihydroxyphenol moiety. The reaction was also sensitive to sulfhydryl reagents. These features of the enzyme are distinctive from other oxidases capable of attacking the aromatic ring of estrogens.
Steroids 1992 May
PMID:Tyrosinase-like activity and estradiol binding in rat uterine nuclear extracts. 148 87

Nuclear and cytosolic fractions of rat uteri and tissues from the central nervous system contain proteins that are recognized by a polyclonal tyrosinase antibody. This antibody eliminates the cresolase activity of uterine nuclear extract when estradiol is used as substrate. Thus, it appears that tyrosinase-like proteins might be present in tissues not generally considered to chain such an enzyme.
Steroids 1992 Apr
PMID:Tyrosinase-like polypeptides in the uterus and in the central nervous system of rats. 151 62

Nuclear extracts from estradiol-treated rat uteri which contain type II estrogen binding sites have recently been found to also contain a tyrosinase-like estradiol metabolizing activity. A recent study suggested that both the binding and enzymatic activities are significantly increased in the presence of micromolar concentrations of copper and ascorbate, display a number of common biochemical sensitivities, and share similar ligand/substrate binding affinities. Levels of both activities are significantly increased in uterus in response to hormone (estrogen) stimulation. These and other similarities indicate a possible relationship between the enzymatic and binding activities. A detailed chromatographic examination of these two activities in the present study revealed that while the type II sites and estradiol metabolizing activity exhibited virtually identical chromatographic properties on DEAE-high-performance liquid chromatography they are readily resolved on other chromatographic matrices, including phosphocellulose, DNA-cellulose, and S-Sepharose. These results demonstrate that type II binding sites are distinct from the tyrosinase-like enzyme activity previously described in rat uterine nuclear extracts.
Steroids 1994 Apr
PMID:Chromatographic resolution of the type II estrogen binding site and a tyrosinase-like enzymatic activity from rat uterine nuclei. 807 83