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)

An enzyme which catalyzes the transfer of sulfate from 3'-phosphoadenosine 5'-phosphosulfate (PAPS) to gastrin (G17) was identified in rat gastric mucosal cells. The enzyme activity was detected in the 105,000xg supernatant fraction. Formation of gastrin sulfate was shown by using 125I-gastrin and non-radioactive PAPS. The product was sensitive to acid hydrolysis, arylsulfatase treatment and removed by gastrin antibody, but not changed by treatments with chondro-4-sulfatase and chondro-6-sulfatase. The product had a molecular weight of 2050 daltons, close to the molecular weight of G17 sulfate, and, therefore, indicating the sulfated product is not APS derived from the degradation of PAPS. The enzyme activity showed a Km value of 5 microM for PAPS and a pH optimum of 6.0. The activity was not detected in the liver preparation.
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PMID:Enzymatic sulfation of gastrin in rat gastric mucosa. 239 84

Capillary electrophoresis was used to assay sulfoesterase activity on sulfated disaccharides derived from chondroitin sulfate, dermatan sulfate and heparin. The three sulfoesterases studied were chondro-4-O-sulfatase (EC 3.1.6.9) and chondro-6-O-sulfatase (EC 3.1.6.10) from Proteus vulgaris and heparo-2-O-sulfatase from Flavobacterium heparinum. Capillary electrophoresis was used to analyse sulfated disaccharide before and after sulfoesterase treatment and a change in migration time was indicative of the presence of sulfoesterase activity. This assay was used both on purified sulfoesterases and on minor sulfoesterase contaminants present in other enzyme preparations. The high sensitivity of capillary electrophoresis permits the elimination of 35S-radiolabeled substrates normally required to assay sulfoesterases. The high resolution of capillary electrophoresis allows the use of this assay on impure enzyme preparations containing high protein concentrations.
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PMID:Capillary electrophoresis to measure sulfoesterase activity on chondroitin sulfate and heparin derived disaccharides. 819 22

Aggrecan-derived chondroitin sulfate (CS) chains, released by beta-elimination, were derivatized with p-aminobenzoic acid or p-aminophenol; radioiodinated; and subjected to graded or complete degradations by chondroitin ABC lyase to generate linkage region fragments of the basic structure DeltaGlyUA-GalNAc-GlcUA-Gal-Gal-Xyl-R (where DeltaGlyUA represents 4, 5-unsaturated glycuronic acid, and R is the adduct), by chondroitin AC lyase to generate the shorter fragment DeltaGlyUA-Gal-Gal-Xyl-R, or by chondroitin C lyase to generate the same fragment when it was linked to a 6-O-sulfated or unsulfated GalNAc at the nonreducing end. Fragments were separated by size using gel chromatography, by charge using ion-exchange chromatography, and by size/charge using electrophoresis and then characterized by stepwise degradations from the nonreducing end by using mercuric acetate to remove all terminal DeltaGlyUA, by bacterial glycuronidase to remove the same residue when linked to unsulfated or 6-O-sulfated GalNAc/Gal, by mammalian 4-sulfatase to remove sulfate from terminal GalNAc 4-O-sulfate, by chondro-4-sulfatase to remove 4-O-sulfate from other GalNAc/Gal residues, and by beta-galactosidase to remove terminal Gal. Results with CS from bovine nasal cartilage aggrecan show that, in nearly all chains, Xyl and probably also the first Gal are unsubstituted, whereas the second Gal is 4-O-sulfated in one CS chain out of five. The first disaccharide repeat is sulfated at C-4 of GalNAc in one chain out of three and unsulfated in the other two. A sulfated first disaccharide is always joined to an unsulfated GlcUA-Gal-Gal sequence. In contrast, CS from human articular cartilage usually has a sulfated first disaccharide repeat. In CS from young human cartilage, sulfate groups are mostly at C-4 of GalNAc in the major part of the chain, but at C-6 in the nonreducing distal portion. In CS from old cartilage, sulfation at C-6 of GalNAc is a major feature from the nonreducing end down to approximately positions 4 and 5 from the linkage region, where GalNAc 4-O-sulfate is common.
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PMID:Variations in the chondroitin sulfate-protein linkage region of aggrecans from bovine nasal and human articular cartilages. 891 Apr 87

A novel analytical method for determination of total amount of chondroitin sulfate (CS) based on its conversion to desulfated chondro-disaccharide via an enzyme-catalyzed reaction, was developed. Using the in-capillary enzyme reaction, the method was also applied to the successful construction of an on-line analytical system. Within this system, electrophoretic migration was used to mix zones containing the enzyme mixture (chondroitinase ABC, chondro-4-sulfatase, chondro-6-sulfatase and 2-o-sulfatase) and the substrate (CS). The reaction was then allowed to proceed in the presence of a weak electric field and, finally, the product (desulfated chondro-disaccharide) of enzyme reaction migrated to the detector under the influence of an applied electric field. A polyvinyl alcohol-coated capillary was used to reduce protein adsorption. Desulfated chondro-disaccharide was successfully migrated toward the anode in 10 mM Tris-acetate buffer (pH 7.0) under reversed polarity and detected at 232 nm. The established method was validated and demonstrated to be applicable in the determination of total amount of CS in a commercial ophthalmic solution. No interference from the formulation excipients was observed. Good linearity was obtained, with correlation coefficients above 0.999. Recoveries and precisions ranged from 100.0 to 100.5%, and from 0.2 to 0.6% of the relative standard deviation, respectively. Good agreement was obtained between the established method and traditional photometric method based on carbazole reaction. In this study, application of the method to disaccharide compositional analysis was also performed.
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PMID:Development of a novel analytical method for determination of chondroitin sulfate using an in-capillary enzyme reaction. 1511 83