EC:3.1.6.1 - FACTA Search

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Query: EC:3.1.6.1 (sulfatase)
3,205 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Two glycosulfatases [EC 3.1.6.3], I and II, were purified 31.3- and 33.9-fold respectively, from a crude extract of the liver of Charonia lampas. The purification was carried out by the following chromatographic procedures; phosphocellulose, Sephadex G-150, Concanavalin A-Sepharose and isoelectric focussing. The enzyme preparations obtained were practically free from arylsulfatase [EC 3.1.6.1] contamination. Both glycosulfatases are probably glycoproteins differing in their carbohydrate moieties. The molecular weights of glycosulfatase I and II were estimated to be about 112,000 and 79,000 respectively. They had the same optimum pH of 5.5, and the same Km value of 25.0 mM for glucose 6-sulfate.
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PMID:Two glycosulfatases from the liver of a marine gastropod, Charonia lampas. Partial purification and properties. 0 53

A sensitive and specific electron-capture gas--liquid chromatographic (GLC--ECD) assay was developed for the determination of 8-chloro-6-(2'-fluorophenyl)-1-methyl-4H-imidazo(1,5a)(1,4)benzodiazepine (I) or 8-chloro-1,4-dimethyl-6-(2'-fluorophenyl)-4H-imidazo (1,5a)(1,4)benzodiazepine (II) in blood. The assay for both compounds involves extraction into benzene--methylene chloride (9:1) from blood buffered to pH 12.6 The overall recovery of I and II from blood is 86% +- 5.0 (S.D.) and the sensitivity limit of detection is of the order of 2 to 3 ng of I or II per milliltre of blood. The major urinary metabolite of I is 8-chloro-6-(2'-fluorophenyl)-1-hydroxymethyl-4H-imidazo(1,5a)(1,4)benzodiazepine, (IA) present as a glucuronide conjugate while 8-chloro-6-(2'-fluorophenyl)-4-hydroxyl-1-methyl-4H-imidazo(1,5a)(1,4)benzodiazepine, (IB) and 8-chloro-6-(2'-fluorophenyl)-4-hydroxy-1-hydroxymethyl-4H-imidazo(1,5a)(1,4) benzodiazepine, (IC) are minor metabolites. The major metabolite IA is extracted into benzene--methylene chloride (9:1) from urine buffered to pH 11.0 (after incubation with glucuronidase--sulfatase as pH 5.0), and analyzed by differential pulse polarography (DPP) in 0.1 M phosphate buffer PH 3). The overall recovery of IA is 84 +- 3.0% (S.D.) with a sensitivity limit of 50 ng per millilitre of urine. The metabolites of compound II have not as yet been elucidated. The GLC--ECD and DPP assays were applied to the determination of blood levels and urinary excretion in dogs following single 10 mg/kg intravenous and oral doses of I and following single 6 mg/kg intravenous and 10 mg/kg oral doses of II. Blood levels of compound I were also evaluated in man following intravenous infusion of single 10 mg doses.
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PMID:Determination of water soluble imidazo-1,4-benzodiazepines in blood by electron- capture gas--liquid chromatography and in urine by differential pulse polaragraphy. 2 88

Human fetal tissues derived from prostaglandin-induced abortuses (9--18 wk fertilization age) have been utilized to evaluate sphingolipid composition and catabolism. Sphingolipid composition (lipid-hexose, sulfatide, and lipid-bound NANA) was assessed in fetal brain. Sphingolipid catabolism was evaluated in fetal lung and brain through the measurement of relevant acid hydrolases (arylsulfatase A, beta-galactosidase, and hexosaminidase). During the fetal period studied, the parameters of sphingolipid composition revealed variability but no consistent pattern of change. Each acid hydrolase was readily detected. Enzyme specific activities revealed no variation during the 9 fetal wk studied. Cellulose acetate electrophoresis yielded the anticipated isoenzyme patterns for each acid hydrolase with little variation during the period of study. The compositional values support current concepts of cerebral development during this period of fetal life. Together with the catabolic analyses, these studies provide normative data relative to the assessment of metabolic abnormalities during this period of fetal development.
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PMID:Sphingolipid composition and catabolism in human fetal tissues. 3 Dec 73

The effect of glutaraldehyde fixation on glucose 6-phosphatase activity in mouse liver was investigated. After transparenchymal perfusion with 2% glutaraldehyde for 1.5 minutes, the activity of the recovered enzyme was higher than those reported for acid phosphatase and aryl sulfatase activities after fixation under similar condition, and an abundant deposition of reaction product was observed in hepatocytes. Subsequent immersion in the same fixative solution for 30 minutes after 4 degrees C resulted in only a slight decrease in the activity. However, the activity was almost completely destroyed after 3 hours of immersion fixation at 4 degrees C following the perfusion. Therefore, the enzyme can be said to be aldehyde-sensitive when a long fixation time is used, but not aldehyde-sensitive during a short fixation time.
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PMID:Sensitivity of glucose 6-phosphatase activity to glutaraldehyde. 16 8

A GLC method is described for the quantitative analysis of conjugated estrogens. The procedure was used for the analysis of various estrogen mixtures obtained from formulations containing estrogen sodium sulfate salts. The method involves slurrying or dissolving a portion of the formulation pH 5.2 buffer, hydrolysis with sulfatase enzyme, extraction with ethylene dichloride, anf finally, GLC separation and quantitation of the corresponding trimethylsilyl ethers on a 2.5% diethylene glycol succinate column.
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PMID:Quantitative GLC determination of conjugated estrogens in raw materials and finished dosage forms. 16 56

Arylsulfatase synthesis was shown to occur in Salmonella typhimurium LT2. The enzyme had a molecular weight of approximately 50,000 and was separated into five forms by isoelectrofocusing. The optimal pH for substrate hydrolysis was pH 6.7, with Michaelis constants for nitrocatechol sulfate and nitrophenyl sulfate being 4.1 and 7.9 mM, respectively. Enzyme synthesis was strongly influenced by the presence of tyramine in the growth medium. The uptake of [14C]tyramine and arylsulfatase synthesis were initiated during the second phase of a diauxie growth response, when the organism was cultured with different carbon sources. Adenosine 3',5'-cyclic monophosphoric acid enhanced the uptake of tyramine and the levels of arylsulfatase synthesized. However, the addition of glucose and glycerol to organisms actively transporting tyramine and synthesizing enzyme caused a rapid inhibition of both of these processes. This inhibition was not reversed by adding adenosine 3',5'-cyclic monophosphoric acid. The results suggest that the effect of the carbon source on tyramine transport and arylsulfatase synthesis may be explained in terms of inducer exclusion.
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PMID:Arylsulfatase in Salmonella typhimurium: detection and influence of carbon source and tyramine on its synthesis. 22 33

A simple and rapid method for the purification of arylsulfatase A (EC 3.1.6.1) from sheep brain has been developed. This includes the concanavalin A-Sepharose affinity chromatography and the pH-dependent polymerization and depolymerization of the enzyme. By these methods a homogeneous enzyme was obtained and the enzyme was purified 7180-fold. Sheep brain arylsulfatase A has been shown to be a glycoprotein containing 25% neutral sugar and 0.5% sialic acid. The constituent neutral sugars were identified as glucose and mannose.
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PMID:Purification, properties and glycoprotein nature of arylsulfatase A from sheep brain. 24 Apr 23

N-Acetylglucosamine-6-sulfate sulfatase, which liberates sulfate from the N-acetylglucosamine 6-sulfate residue at the nonreducing terminus of a 3H-labeled trisaccharide prepared from heparan sulfate, was purified 136-fold from human urine. The final N-acetylglucosamine-6-sulfate sulfatase preparation was free of all lysosomal sulfatases known to act on sulfated polysaccharides and gave a single band in polyacrylamide gel electrophoresis. The enzyme appears to be a glycoprotein with a molecular weight of around 97,000 and displays considerable charge heterogeneity. Multiple forms with pI values between 5.4 and 8.3 with a maximum at pH 7.7 were detected. The enzyme acts on the 3H-trisaccharide with a pH optimum at 5.5 and is active towards the sulfated monosaccharides N-acetylglucosamine 6-sulfate and glucose 6-sulfate. Although predominantly in exosulfatase, the enzyme catalyzes hydrolysis of sulfate from internal N-acetylglucosamine 6-sulfate moieties at a low rate. The Km for the 3H-trisaccharide, N-acetylglucosamine 6-sulfate, and glucose 6-sulfate were 0.15, 1.5, and 7.7 mM, respectively. The enzyme is inhibited by albumin, Hg2+, PO43-, SO42-, and CN-. Enzyme activity was highest in kidney and cultured fibroblasts but could be demonstrated in all human tissues tested.
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PMID:N-Acetylglucosamine-6-sulfate sulfatase from human urine. 76 21

Serum enzymes have not proved useful in evaluation of patients with early colon cancer, but certain enzymes such as transpeptidase, phosphohexone isosomerase, or 5'-nucleotidase have been of assistance in following the course of the disease, particularly in patients with metastatic spread to the liver. Attempts have been made to improve the utility of enzyme analysis in colon cancer by examination of enzyme patterns in colon biopsy specimens, feces, and colon washings. These studies, which will be summarized, are of importance in the possible development of diagnostic tools and as probes in the understanding of the etiology of colon cancer. The technical problems in carrying out these assays in humans, as well as the significance of the activity of aryl sulfatase, beta-glucuronidase, beta-glucosidase, lactic dehydrogenase, glucose-6-p-osphate dehydrogenase, and other enzymes will be considered.
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PMID:Enzymes in colon cancer. General information. 76 57

The participation of tyramine oxidase in the regulation of arylsulfatase synthesis in Klebsiella aerogenes was studied. Arylsulfatase was synthesized when this organism was grown with methionine or taurine as the sulfur source (nonrepressing conditions) and was repressed by inorganic sulfate or cysteine; this repression was relieved by tyramine and related compounds (derepressing conditions). Under nonrepressing conditions, arylsulfatase synthesis was not regulated by tyramine oxidase synthesis. However, derepression of arylsulfatase and induction of tyramine oxidase synthesis by tyramine were both antagonized by glucose and other carbohydrate compounds. The derepressed synthesis of arylsulfatase, like that of tyramine oxidase, was released from catabolite repression by use of tyramine as the sole source of nitrogen. A mutant strain that exhibits constitutive synthesis of glutamine synthetase and high levels of histidase when grown in glucose-ammonium medium was subject to the catabolite repression of both tyramine oxidase and arylsulfatase syntheses. Mutants in which repression of arylsulfatase could not be relieved by tyramine could not utilize tyramine as the sole source of nitrogen and were defective in the gene for tyramine oxidase.
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PMID:Tyramine oxidase and regulation of arylsulfatase synthesis in Klebsiella aerogenes. 83 Jun 48

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