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)

A preparation of primary alkyl sulfatase was obtained from the culture of Pseudomonas species 2T/1. It can hydrolyze alkyl sulfates, which belong to anion surface-active compounds, to sulfate ion and fatty alcohol, and as a result the harmful for biosphere property of the surface activity is gone. pH and temperature of the incubation mixture, the presence of ions of some bivalent metals and components of synthetic detergents (SD), composition of the buffer mixture and substrate concentration affect the rate of sodium dodecylsulfate (SDS) hydrolysis. The alkyl sulfatase preparation is relatively stable. The maximum rate of SDS hydrolysis was found to be at 70 degrees C. The preparation catalyzes the hydrolysis of some alkyl sulfate homologues and industrial alkyl sulfates. The temperature optimum of the preparation is 40 degrees C, the pH-optimum is 8.0-9.0.
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PMID:[Properties of a bacterial enzyme preparation of alkylsulfatase]. 666 61

Bacteroides thetaiotaomicron, a gram-negative anaerobe found in human colons, could utilize chondroitin sulfate, a tissue mucopolysaccharide, as its sole source of carbohydrate. The enzymes responsible for the breakdown of chondroitin sulfate by B. thetaiotaomicron were similar to those produced by Proteus vulgaris and Flavobacterium heparinum and included a lyase (EC 4.2.2.4), which degraded chondroitin sulfate into sulfated disaccharides, sulfatases (EC 3.1.6.4), which removed the sulfate residues, and a glucuronidase, which broke the unsulfated disaccharides into monosaccharide components. Chondroitin sulfate lyase, the first enzyme in the breakdown sequence, was not extracellular. It appeared to be located in the periplasmic space since lyase activity was released by treatment with ethylenediaminetetraacetate and lysozyme. Moreover, sodium polyanethole sulfonate, a high-molecular-weight inhibitor of chondroitin lyase, did not inhibit breakdown of chondroitin sulfate by intact bacteria. The sulfatase and glucuronidase appeared to be intracellular. None of these enzymes was strongly bound to membranes, and none of the steps in the breakdown of chondroitin sulfate was sensitive to oxygen.
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PMID:Cellular location of enzymes involved in chondroitin sulfate breakdown by Bacteroides thetaiotaomicron. 678 76

Arylsulfatase B from human eosinophils was purified free of contaminating proteins by gel filtration and sequential affinity chromatography on Affi-Gel Blue and zinc chelate Sepharose. 50 micrograms of the purified enzyme presented as a single stained band on alkaline disc gel electrophoresis. In both goats and rabbits, the purified enzyme elicited monospecific antisera that yielded single precipitation arcs on Ouchterlony analysis with a human eosinophil extract and the purified enzyme; the immunoprecipitation lines fused in a pattern of identity, providing immunochemical evidence for the homogeneity of the purified enzyme. On sodium dodecyl sulfate (SDS)-polyacrylamide gel electrophoresis, a dominant lower molecular weight protein and three other bands with molecular weights approximately two, three, and four times that of the major protein band were resolved. The prominence of the less rapidly migrating protein bands increased relative to the major band if the enzyme was maintained under acidic conditions or was reacted with the cross-linking agent dimethyl suberimidate under alkaline conditions before SDS-polyacrylamide gel electrophoresis, supporting the conclusion that the enzyme consists of four subunits. Two stained bands were present on acid disc gel electrophoresis; they were composed of oligomeric forms of enzyme on analysis by SDS-polyacrylamide gel electrophoresis in a second dimension. A minimum molecular weight of 70,190 was determined from amino acid composition analysis for the tetrameric form of the enzyme. The specific functional activity of the purified arylsulfatase B was concentration and time dependent, compatible with its association or dissociation into subunit forms with differing specific activities. Factors that govern subunit interactions of arylsulfatase B, including local enzyme concentration and pH, provide mechanisms for regulating the enzymatic activity of this lysosomal hydrolase.
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PMID:Human eosinophil arylsulfatase B. Structure and activity of the purified tetrameric lysosomal hydrolase. 684 54

A simultaneous azo-coupling method for the histochemical localization of d-equilenin sulfatase is described. d-Equilenin is a natural estrogenic steroid hormone, and its sulfuric acid ester was synthesized. It was found that the d-equilenin liberated during hydrolysis of d-equilenin sulfate by tissue sulfatase could be coupled with a diazonium salt to produce a purple precipitate indicating enzyme activity. d-Equilenin sulfatase was found in human tissues, but not in tissues of the rat. The optimum substrate concentration was 0.8 mM, activity was demonstrable over the wide pH range 5.0-8.0. Enzyme activity localized diffusely in the cytoplasm in optimally fixed specimens. Enzyme activity was also fairly well demonstrable in unfixed cryostat sections. Enzyme activity was completely inhibited by 0.1 M phosphate, 1 mM sodium tetraborate, 1 mM p-nitrophenyl sulfate and by 2 mM p-nitrocatechol sulfate. Estrone sulfate at concentration 0.8 mM had no effect, but at 4 mM caused marked inhibition of the reaction. At the same concentrations dehydroepiandrosterone sulfate did not inhibit the reaction. The chemical properties and tissue localizations of d-equilenin sulfatase differed from the properties of arylsulfatases A, B and C and other steroid sulfatases reported previously in the literature.
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PMID:Simultaneous azo-coupling method for an estrogen sulfatase in human tissues. 687 24

An octasaccharide with high affinity for antithrombin was isolated after partial deaminative cleavage of heparin with nitrous acid. After conversion of the 2,5-anhydro-D-mannose end group to anhydro[1-3H]mannitol, labeled pentasaccharide was released from the octasaccharide by periodate-alkali treatment. Incubation of the pentasaccharide with a recently discovered 3,O-sulfatase from human urine resulted in desulfation, suggesting the occurrence of a 3-sulfate group on the terminal glucosamine residue. The same glucosamine residue was recovered as a 2,5-anhydro[1-3H]mannitol derivative by a procedure involving deamination of the octasaccharide with nitrous acid, reduction of the products with sodium boro[3H]hydride, isolation of 3H-labeled tetrasaccharide by gel chromatography, and release of the labeled end-group by periodate-alkali treatment. Paper electrophoresis indicated disulfated anhydro[3H]mannitol, presumably sulfated at C3 and C6, as a major component, along with smaller amounts of monosulfated (presumably 3-sulfated) anhydro[3H]mannitol. Similar treatment of an analogous tetrasaccharide derived from heparin with low affinity for antithrombin failed to produce any disulfated anhydromannitol. These results suggest that 3-sulfated glucosamine is a unique component of high-affinity heparin, located at a specific position in the antithrombin-binding sequence of the molecule.
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PMID:Evidence for a 3-O-sulfated D-glucosamine residue in the antithrombin-binding sequence of heparin. 693 68

Iduronate sulfatase of human placenta separates on DEAE Bio-Gel A chromatography into two components, a less acidic form A and a more acidic form B. The two forms have different mobilities on gel electrophoresis and different isoelectric points, pH 5.0 for form A and pH 4.5 for form B. They show the same pH optima in sodium acetate buffer and similar Km values for [3H]disulfated disaccharide substrate. Iduronate sulfatase A is more heat labile than iduronate sulfatase B. Different molecular weights were found by gel filtration while similar values were estimated by sucrose gradient centrifugation. Neuraminidase treatment of the two forms gives evidence that these enzymes contain sialic acid residues.
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PMID:Identification and partial characterization of two enzyme forms of iduronate sulfatase from human placenta. 694 76

A mycobacterial strain known as Mycobacterial strain W was analysed for its growth characteristics and biochemical traits. This strain was found to be a rapid grower, with luxurient growth on Lowenstein-Jensen medium, Dubos agar, Middlebrook's agar and Sauton's medium. Colonies were smooth, convex and nonpigmented. Some of the colonies which appeared rough were similar to smooth colonies at least in biochemical characteristics. This organism was tolerant to wide range of temperatures and to chemical substances like thiophene - carboxylic acid hydrazide, isoniazid, sodium chloride but not to bile salts. It was negative for niacin production, for various amidases, urease production, 3 day arylsulfatase test and also for Tween 80 hydrolysis. On the other hand this strain was found to be positive for semiquantitative catalase, heat resistant catalase, nitrate reduction, sodium salicylate degradation, tellurite reduction, 14 day arylsulfatase test and fermentation of fructose. This organism could utilize sodium nitrate and sodium nitrite as sources of nitrogen but didn't exhibit any utilization of fructose, arabinose as only sources of carbon. Significance of these findings is discussed.
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PMID:A report on the biochemical analysis of Mycobacterium W. 702 33

Several biochemical test systems were studied for their potential usefulness for the examination of strains of Campylobacter species. Most (81%) of the C. jejuni strains hydrolyzed sodium hippurate, but strains of C. fetus, C. sputorum, and C. fecalis did not. Some (46%) of the C. jejuni strains and all of the C. sputorum subsp. sputorum, C. sputorum subsp. bubulus, and C. fecalis strains hydrolyzed DNA, but the C. fetus and C. sputorum subsp. mucosalis strains did not. Strains of all species of Campylobacter grew on charcoal-yeast extract agar, but 47% of the C. jejuni strains did not. Alkaline phosphatase activity was recorded for some strains of C. jejuni, but all other species were negative for this activity. Aryl sulfatase activity was detected in 7% of the C. jejuni, 15% of the C. fetus subsp. fetus, and all of the C. sputorum subsp. sputorum, C. sputorum subsp. bubulus, and C. fecalis strains, but it was not detected in the C. fetus subsp. venerealis and C. sputorum subsp. mucosalis strains. Most (93%) of the C. jejuni but none of the other Campylobacter strains contained lactobacillic acid when examined for cellular fatty acids. On the basis of results from three of these tests (hippurate hydrolysis, DNA hydrolysis, and growth on charcoal-yeast extract agar), clinical strains of C. jejuni were placed in eight biotypes.
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PMID:30 years of campylobacters: biochemical characteristics and a biotyping proposal for Campylobacter jejuni. 710 40

A new method has been developed for measuring the total covalent binding of metabolically activated compounds to cellular macromolecules. This method employs equilibrium dialysis, in the presence of the detergent sodium dodecyl sulfate (SDS), to remove unbound radiolabeled compound and its metabolites from cellular macromolecules. [14C] Bromobenzene (80 microM), [14C]aflatoxin B1 (5 microM) or 3-[14C]methylcholanthrene (100 microM) was incubated (37 degrees C) with primary hepatocytes or liver microsomes isolated from Fischer-344 rats. The covalent binding of 14C-radiolabel to hepatic or microsomal macromolecules was measured by SDS-equilibrium dialysis and compared with that measured by exhaustive extraction. After 1 h of incubation with hepatocytes or microsomes, 2--7 times more covalent binding was detected by SDS-equilibrium dialysis, than by exhaustive extraction. The radioactivity associated with these hepatic or microsomal macromolecules migrated to discrete positions on SDS-polyacrylamide disc gels. The non-dialysable radioactivity from incubations with [14C] bromobenzene could not be extracted with diethyl ether even after treatment of the dialysin with beta-glucuronidase-sulfatase or dilute acid. This was taken to indicate that the radioactivity in the dialysin did not include free bromobenzene or its metabolites, a conclusion supported by thin-layer chromatography analysis of the dialysin. The lower amount of covalent binding detected by exhaustive extraction may be related to the inability of trichloroacetic acid to quantitatively precipitate small molecular weight macromolecules. SDS-equilibrium dialysis is an easy, rapid and non-destructive technique for measuring covalent binding. The macromolecular integrity of the sample is maintained and allows further studies concerning the specificity of the covalent interactions.
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PMID:A new method for measuring covalent binding of chemicals to cellular macromolecules. 742 16

To elucidate the chemical structure of slow-reacting substance of anaphylaxis from rat (SRS-A rat), SRS-A rat were purified by the method of Orange with modification using DEAE-Sephadex A-25 chromatography. Ultraviolet absorption spectrum of purified SRS-A rat indicated the presence of conjugated triene. Arylsulfatase B degradation products and HCl degradation products were subjected to analysis by a gas chromatography and mass spectrometry and a thin layer chromatography. Products obtained by arylsulfatase b catalysis contained 5,6-dihydroxy-7,9,11,14-eicosatetraenoic acid. HCl degradation products showed the presence of glycine, glutamic acid and cysteic acid. Furthermore, the analysis of anhydrous hydrazine degradation products of SRS-A rat and of HCl hydrolyzed products of dinitrophenylated SRS-A rat revealed the presence of glycine at C-terminal and glutamine acid at N-terminal. The study of the substrate specificity of arylsulfatase B against various materials including SRS-A rat suggested the presence of sulfone in SRS-A rat. The molecular ion peak of SRS-A rat sodium salt was observed at m/e 680 in field desorption mass spectrum of SRS-A rat. On the basis of these data, we identified the structure of SRS-A rat as [gamma]glutamyl-4(5-hydroxy-7,9,11,14-eicosatetraenoic acid-6-yl)-4,4-dioxyocysteinyl] glycine.
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PMID:Structure of slow-reacting substance of anaphylaxis (SRS-A). 746 61

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