EC:3.1.6.1 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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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)

A technique utilizing Pregnant Mare's Serum Gonadotropin and Human Chorionic Gonadotropin treatment of hens (Gallus domesticus), followed by manual ovulation of the excised follicles, was developed to obtain a large number of mature ova. The intact ova were used to test whether acrosin, partially purified from the spermatozoa of the cock (Gallus domesticus), partially purified rabbit testicular acrosin and commercial preparations of several hydrolytic enzymes could dissolve the inner vitelline membrane. Enzymes were applied to pieces of filter paper placed on the ovum. Cock acrosin and endopeptidases such as trypsin, chymotrypsin, collagenase and elastase hydrolyzed the membrane whereas exopeptidases such as leucine aminopeptidase and carboxypeptidase A did not. Phospholipase A, sulfatase, hyaluronidase, beta-glucuronidase and rabbit testicular acrosin also failed to hydrolyze the membrane. Cock acrosin hydrolysis of the ovum surface was inhibited by soybean trypsin inhibitor. The surface of the ovum over the germinal disc region was hydrolyzed more quickly by cock acrosin than the surface over other regions of the ovum. Acrosin from cock sperm caused the release of trichloroacetic acid soluble material absorbing at 280 nm from sonicated preparations of inner vitelline membranes. Hydrolysis was greatest at pH 8.0 and was inhibited by soybean trypsin inhibitor.
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PMID:Hydrolysis of the hen egg vitelline membrane by cock sperm acrosin and other enzymes. 0 Apr 54

A specific and quantitative liquid-solid chromatographic method for the determination of 6-demethylgriseofulvin in human urine is reported. The method consists of extraction into an organic solvent, addition of internal standard, and analysis by liquid-solid chromatography using a UV detector. Griseofulvin, if present, can be determined simultaneously. The sensitivity of the method is 6 mug/ml of urine. Total 6-demethylgrisefulvin is determined after hydrolysis of the glucuronide conjugate with glucuronidase-sulfatase enzyme solution. The method is well suited for the analysis of a large number of samples.
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PMID:Liquid-solid chromatographic determination of 6-demethylgriseofulvin in urine. 0 3

The optimal reaction conditions and kinetic properties of eleven leukocyte acid hydrolases determined with the use of fluorigenic derivatives of 4-methyl-umbelliferone are described. The enzymes studied were acid phosphatase, aryl sulfatase, alpha- and beta-glucosidase, alpha- and beta-galactosidase, alpha-mannosidase, N-acetyl-beta-glucosaminidase, N-acetyl-beta-galactosaminidase, beta-glucuronidase and alpha-fucosidase. More than 90% of the activity of each enzyme was released into a 27,000 X g supernatant by a double sonication procedure employing 0.9% sodium chloride and 0.1% Triton X-100. The Km values obtained were similar to those previously reported for chromogenic subtrates. A single Km value could not be derived for beta-galactosidase because its double reciprocal plot was not linear. All enzymes could be measured with less than 10 mug of protein within 15 min. Activators and inhibitors studied included the chloride salts of Na+, K+, Zn2+, Ca2+, Mg2+, Hg2+, and Fe2+ as well as p-chloromercuriphenysulfonate, glutathione, BAL, EDTA, EGTA, Triton X-100 and sodium taurocholate. The reaction conditions described in this report can be used for the diagnosis of various lysosomal storage diseases and should facilitate the development of automated procedures for the analysis of these eleven enzyme activities with small quantities of blood.
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PMID:Human leukocyte acid hydrolases: characterization of eleven lysosomal enzymes and study of reaction conditions for their automated analysis. 0 26

The histrochemistry of the adrenal glands was studied in four adult male marmosets (two Callithrix jacchus and two Callithrix penicillata). It was impossible to demonstrate any reactivity to UDPG-GT, ADH, alanyl aminopeptidase, leucine aminopeptidase, xilitol (NAD-dependent) dehydrogenase, beta-glucuronidase and aryl-sulfatase in these glands. Total phosphorylase was found in scattered cells of the glomerulosa and adjacent outer fasciculata of one C. penicillata. The dehydrogenases (LDH, G-6-PDH,6-PGDH, NADPH2-TR,ICDH,SDH,NADH2-TR, alpha-GPDH, beta-OHBDH) as well as the hydrolases (except alkaline phosphatase, ATPase, and acetylcholinesterase) showed a stonger reactivity in the cortical part. Some hydrolases (naphthol acetate esterase, acid phosphatase) and cytochrome oxidase were less reactive in the zona glomerulosa, where the dehydrogenases were more abundant. The outer fasciculata and the reticularis also showed a strong dehydrogenase reactivity.
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PMID:Histochemical studies on the adrenal glands of the marmosets (Callithrix jacchus and Callithrix penicillata). 0 44

Human arylsulfatase A (cerebroside-3-sulfate 3-sulfohydrolase, EC 3.1.6.8) exhibited microheterogeneity on isoelectric focusing in polyacrylamide gels. Pure urinary enzyme gave 3 bands of activity with pI values of 4.7, 4.8 and 4.9, whereas purified liver enzyme yielded six equally spaced bands from pI 4.4 to 4.9. Detection of enzyme in the gel was made by either methylumbelliferyl sulfate or nitrocatechol sulfate. Crude enzyme preparations from human liver, kindey, placenta, brain and testis showed the six-banded pattern with varying amounts of activity in the different bands. The banding pattern of cultured human fibroblast extracts was distinctive: in addition to activity in the area of Bands 1-6 a sharp band at pI 5.1 was observed with both enzyme stains. This latter band was also present in metachromatic leukodystrophy fibroblast extracts. However, in this case the band did not appear when the specific aryl-sulfatase A stain was used. Enzyme Bands 1, 2 and 3 from urine were isolated by extraction of the gel. The three bands refocused in their initial positions; showed nearly identical enzymatic activities toward methylumbelliferyl sulfate, mitrocatechol sulfate, cerebroside sulfate and ascorbic acid 2-sulfate; and demonstrated equivalent immunological competence by antibody titration. The banding pattern of urinary arylsulfatase A was unchanged with neuraminidase treatment, whereas Bands 4-6 of the liver enzyme were converted to Bands 1-3 by this treatment. It appears that Bands 4-6 are due to sialylation of aryl-sulfatase A but that Bands 1-3 are probably due to some other type of post-ribosomal protein modification.
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PMID:Microheterogeneity of arylsulfatase A from human tissues. 0 92

This study describes the isolation of arylsulfatases A and B (arylsulfate sulfohydrolase EC 3.1.6.1) from human articular cartilage. These enzymes were extracted from collagenase digests of tissue homogenates. After fractionation with ammonium sulfate the enzymes were separated from each other by DEAE-cellulose chromatography and further purified by gel filtration on Sephadex G-200. Sulfatase B, subsequently chromatographed on CM-cellulose was apparently homogenous as judged by polyacrylamide gel electrophoresis in the presence and absence of sodium dodecyl sulfate. The enzyme has a pH optimum of 5.6, a molecular weight of 51,000 and Km of 2.6 mM for 4-nitrocatechol sulfate. Sulfatase A was found to be a glycoprotein with a pH optimum of 4.8, a molecular weight of 105,000 and a Km of 0.16 mM for 4-nitrocatechol sulfate. The competitive inhibition of both enzymes by inorganic sulfate, sulfite and phosphate support the likelihood of a common reaction mechanism. In contrast to sulfatase B which showed minimal inhibition, sulfatase A was totally inhibited by 5 mM N-ethylmaleimide.
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PMID:Enzymes from human articular cartilage: isolation of arylsulfatase B and its comparison with arylsulfatase A. 1 Oct 79

3-O-Methyl-alpha-methyldopamine has been separated by gas-liquid chromatography (GC) as a metabolite of MDA in the urine of dog and monkey. The metabolite was identified as its mono- and di-trifluoroacetyl derivatives by comparison of their GC and GC-mass spectral properties with those of synthetic compounds. The amount of metabolite increased on hydrolyzing the urine from dosed dogs and monkeys with a preparation containing beta-glucuronidase and sulfatase.
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PMID:Identification of 3-O-methyl-alpha-methyldopamine as a urinary metabolite of 3,4-methylenedioxyamphetamine in dog and monkey. 1 6

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

Two unrelated families with metachromatic leukodystrophy have been examined for the leukocyte enzyme arylsufatase A. The enzyme activities clearly reflect an autosomal recessive mode of inherence. All four parents showed heterozygote enzyme levels 40-60 percent of the control range while the two affected children had less than 20 percent normal activity. The two sibs of one affected child were shown to be heterozygote carriers. A simple screening method for sulfatase activity in tears has been developed which distinguished between metachromatic leukodystrophy patients and a control population which included other neurological disorders. Enzyme screening on tears may also be used to detect other lysosomal storage diseases including Tay-Sachs and Fabry disease.
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PMID:Enzymic detection of metachromatic leukodystrophy patients and heterozygotes. 2 8

Metachromatic leucodystrophies (MLD) comprise a small group of heredodegenerative disorders of the nervous system. Deficiency of sulfatide-sulfatase or arylsulfatase A is the common defect in all forms of MLD leading to lysosomal sulfatide storage in the nervous tissue and in the kidney. On the basis of animal experiments, experiments with cultured fibroblasts of the patients as well as ultrastructural studies in a case of prenatal MLD, the following pathomechanism is proposed: 1. Lysosomal degradation of a large portion newly synthetised sulfatide normally regulating the net synthesis and incorporation of sulfatide into myelin, causes early accumulation of sulfatide in lysosomes of myelinating cells and in neurons in the genetic deficiency of arylsulfatase A. 2. Early accumulation of sulfatide does not lead to disturbance in myelination. Demyelination occurs possibly by storage of a cytotoxic compound, psychosin sulfate, also a substrate for the missing enzyme. Prevention of MLD is possible by prenatal diagnosis of arylsulfatase A deficiency in cultured amniotic cells. Enzyme substitution of the missing arylsulfatase A is possible by exogenous uptake of the enzyme in cultured fibroblasts. Thereby the defect of sulfatide degradation can be corrected. Although principles of enzyme substitution have been demonstrated, the problems of treating patients with MLD with arylsulfatase A infusions have yet to be overcome.
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PMID:[Pathophysiology of sulfatide metabolism in metachromatic leukodystrophy]. 2 69

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