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)

Dependence on the salt concentration of the activity of microsome-bound arylsulfatase C [EC 3.1.6.1] from rat liver was examined. The activity increased with increasing salt concentration in the reaction medium in the whole pH range tested. This effect can be explained by the dependence of the reaction rate on the surface pH and the surface concentration of the ionic substrate. The dependence on salt concentration of the activity of the microsome-bound arylsulfatase C and the pH-dependences of Vmax and Km of the enzyme were used for the estimation of pH at the microsomal surface. The two values of the surface pH (surface potential) and the salt concentration were applied to the Gouy-Chapman equation. The value of -0.39 +/- 0.08 X 10(-3) elementary charge/A2 was obtained as the surface charge density in the vicinity of the microsome-bound arylsulfatase C. This was smaller than the over-all value for microsomes (-1.08 +/- 0.04 X 10(-3) elementary charge/A2; Masamoto, K. (1982) J. Biochem. 92, 365-371). This suggests that the anion concentration in the vicinity of the enzyme on microsomes is lower than that in the bulk aqueous phase and is higher than the average value at the microsomal surface when the salt concentration is low.
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PMID:Dependence on surface pH and surface substrate concentration of activity of microsome-bound arylsulfatase C and the surface charge density in the vicinity of the enzyme. 658 19

In mammalian somatic cells, sex-chromosome dosage compensation is achieved by random inactivation of one of the two X chromosomes. The Xg blood group antigen (Xg) and steroid sulfatase (STS) loci on the distal end of the short arm of the X chromosome have been shown to escape this inactivation. However, it has been reported that on structurally abnormal inactive X chromosomes Xg and STS are inactivated. This discrepancy requires further consideration since whatever process accounts for the lack of inactivation of these loci on structurally normal, inactive X chromosomes might be anticipated to be operative on structurally abnormal, inactive X chromosomes. To investigate this issue, we examined the expression of STS activity in mouse-human somatic-cell hybrids retaining two different, deleted, inactive human X chromosomes. These studies provide evidence for lack of inactivation of STS on structurally abnormal, inactive X chromosomes.
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PMID:The steroid sulfatase locus on structurally abnormal inactive X chromosomes is expressed. 659 46

Although the deficiency of steroid sulfatase (STS) as well as aryl sulfatase C (ASC) activities in patients with X-linked recessive ichthyosis has been confirmed by several groups all over the world, the question whether STS = ASC is not yet completely answered. To obtain more information, Miranol H2M extracts from placental microsomes and cultured skin fibroblasts were subjected to gel permeation chromatography and polyacrylamide gel electrophoresis. STS (3H-dehydroepiandrosterone sulfate) and ASC (4-methylumbelliferone sulfate) activities were estimated in the eluted gel permeation chromatography fractions and within the same gel cylinders in half gel slices. None of these two methods allowed a separation of the two microsomal sulfatase activities. From these results and from different behavior of STS and ASC (not deficient in uncultured skin preparations of X-linked recessive ichthyosis, different kinetic properties between STS and ASC, etc.) we propose microsomal sulfatase activities to be assembled in an enzyme aggregate.
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PMID:Steroid sulfatase = aryl sulfatase C? Chromatographic and electrophoretic properties in extracts from placental microsomes and skin fibroblasts. 659 86

Multiple sulfatase deficiency (MSD) is an inherited disorder characterized by deficient activity of seven different sulfatases. Genetic complementation for steroid sulfatase (STS), arylsulfatase A, and N-acetylgalactosamine 6-SO4 sulfatase was demonstrated in somatic cell hybrids between MSD fibroblasts and mouse cells ( LA9 ) or Chinese hamster cells ( CHW ). In an electrophoretic system that separates human and rodent STS isozymes, enzyme from hybrids migrated as human enzyme. We concluded that the rodent cell complemented the MSD deficiency and allowed normal expression of the STS structural gene. Some MSD- LA9 hybrids showed significant levels of human arylsulfatase A activity, as shown by the immunoprecipitation of active enzyme by human-specific antiserum. Complementation was also suggested for N-acetylgalactosamine 6- sulfatate sulfatase (GalNAc-6S sulfatase) in several MSD- LA9 hybrids by the demonstration of a significant increase in activity (10-fold) over that of the GalNAc-6S sulfatase-deficient parental mouse and MSD cells. Thus, it was possible to demonstrate complementation for more than one sulfatase in a single MSD-rodent hybrid. Normal levels of sulfatase activity in hybrids indicate that the sulfatase structural genes are intact in MSD cells.
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PMID:Complementation of multiple sulfatase deficiency in somatic cell hybrids. 673 37

The combined occurrence of X-linked steroid sulfatase deficiency of the placenta and X-linked ichthyosis is reported in 6 unrelated boys. Placental steroid sulfatase deficiency was diagnosed on the basis of a very low total estrogen excretion (6 cases), verified prenatally by the dehydroepiandrosterone sulfate (DHEAS) loading test in 4 cases and postnatally by clinical investigations (6 cases) and by biochemical investigations (5 cases). In addition, microsomal arylsulfatase C (MAS) could not be detected in the placental homogenate of the five cases investigated. Lysosomal arylsulfatases were within the normal range. All boys developed well except for X-linked ichthyosis. In the 5 cases investigated the skin biopsy showed the same MAS deficiency histochemically in the granular layer of the epidermis as in the trophoblast cells. The same holds true for the skin of carriers. Steroid sulfatase activity of cultured skin fibroblasts from the boys was almost nil (3 cases). The histochemical technique offers a practical approach in the scientific investigation of keratotic conditions.
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PMID:X-linked ichthyosis and X-linked placental sulfatase deficiency: a disease entity. Histochemical observations. 692 54

In cultured fibroblasts of patients with numerical and structural X chromosome aberrations the activity of steroid sulfatase (STS) is correlated with the number of functional STS gene copies. While normally, this X-linked gene is not inactivated, our data suggest that it may be subject to inactivation when carried on a structurally altered X-chromosome. Similar inactivation patterns have been reported earlier for the Xg locus which, like STS, is located on the distal portion of Xp.
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PMID:Activity of steroid sulfatase in fibroblasts with numerical and structural X chromosome aberrations. 694 85

The microsomal sulfatases are known to be deficient in the X-linked recessive inherited type of ichthyosis (XLI), which is closely related to the placental steroid-sulfatase deficiency. Our group demonstrated biochemically the deficiency of steroid-sulfatase activity as well as arylsulfatase C activity in cultured skin fibroblasts and leukocytes of patients with XLI, whereas all cases of ADI investigated hitherto expressed high activities of microsomal sulfatase. On the other hand, the analysis of microsomal sulfatase in membranous preparations of uncultivated skin and hair follicles failed to distinguish between XLI, ADI, and controls. Possible relations between this enzyme defect and the hyperkeratotic condition of XLI are discussed.
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PMID:[Microsomal sulfatase deficiency in X chromosome-linked ichthyosis]. 695 21

Arylsulfatase C [EC 3.1.6.1] was solubilized from rat liver microsomes with Triton X-100 and purified about 2,000-fold with an overall yield of 30-40%. The purification procedure included ion-exchange chromatography, hydrophobic affinity chromatography, and gel filtration. The purified enzyme was homogeneous as judged by polyacrylamide gel electrophoresis in the presence of SDS, and its monomeric molecular weight was estimated to be about 72,000 daltons. The molecular weight of the native enzyme was about 280,000 daltons as determined by gel filtration in the presence of Triton X-100, suggesting a tetrameric structure for the enzyme molecule. The enzyme showed an isoelectric point of pH 8.1. From its strong affinity toward concanavalin A-Sepharose and colorimetric determination of neutral sugars by the phenol-sulfuric acid method, arylsulfatase C was identified as a glycoprotein. Analysis of the carbohydrates by gas-liquid chromatography demonstrated that the carbohydrate chains of arylsulfatase C were rich in mannose and N-acetyl-glucosamine, suggesting that they are the high mannose-type. This conclusion was supported by the results of digestion of the enzyme with endoglycosidase H.
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PMID:Purification and properties of arylsulfatase C from rat liver microsomes. 695 91

The intramembranous disposition of arylsulfatase C [EC 3.1.6.1] was studied. The lack of stimulation by Triton X-100 of microsomal arylsulfatase C activity indicated the outside location of the active site of the enzyme in microsomal vesicles. The exposure of arylsulfatase C on the surface of microsomal vesicles was also suggested by the binding of antibodies against the purified enzyme to intact microsomes. However, larger amounts of the antibodies were bound to microsomes in the presence of a low concentration of Triton X-100, suggesting the presence of other antigenic sites of the enzyme not available to the antibodies in intact microsomes. The treatment of solubilized and microsome-bound arylsulfatase C with transglutaminase indicated two susceptible glutamine residues per subunit of the enzyme molecule. One of the glutamine residues was labeled with transglutaminase in intact microsomes, whereas the other one became available to transglutaminase only after the addition of Triton X-100 to microsomes. These observations suggested that endoglycosidase H-sensitive carbohydrate chains of arylsulfatase C are located in the lumen of microsomal vesicles. We conclude that microsomal arylsulfatase C is a transmembranous protein and exposed on both outer and inner surfaces of the membrane.
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PMID:Transmembranous disposition of arylsulfatase C in microsomal membranes of rat liver. 695 92

Estrone sulfatase activity is widespread in guinea pig tissues. Whole homogenates of adult testis, uterus, lung, adrenal, amnion, ovary, chorion, small intestine, placenta, spleen, kidney and liver exhibit approximately descending order of specific activity. Certain properties, including pH requirement, lack of inhibition by inorganic sulfate and magnitude of estimated Km values, are similar to that for arylsulfatase C of rat liver. Of the subcellular fractions prepared from guinea pig tissues, microsomes exhibit the highest specific activity although considerable enzyme activity remains associated with large cellular fragments sedimenting at 750 g. The sulfatase activity is readily inhibited by inorganic phosphate even when substrate concentration satisfied zero order kinetics. Rat liver arylsulfatase C is not inhibited under these conditions. Sensitivity of the guinea pig enzyme activity to inhibition by a variety of steroids and related compounds, is markedly less than for rat liver. Diethylstilbestrol(DES) strongly inhibits the rat liver enzyme but has little effect on the guinea pig liver system. Guinea pig testicular activity is suppressed to a degree intermediate between these extremes by increasing DES concentration. In guinea pig lung, kidney, and possibly liver, elevated fetal enzyme activities decrease from neonatal to adult life. Testicular activity appears to follow the opposite trend. Uterine enzyme activity is not markedly affected by pregnancy.
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PMID:Estrone sulfatase activity in guinea pig tissues. 710 95

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