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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)
Endo-beta-galactosidase was purified 4400-fold from a culture filtrate of Escherichia freundii with 45% recovery. The enzyme preparation was practically free of exoglycosidases,
sulfatase
, and proteases. This enzyme hydrolyzed several keratan sulfates, endoglycosidically releasing oligosaccharides of various molecular sizes. Among the digestion products of the corneal keratan sulfate, the structure of a disaccharride and a tetrasaccharride were shown to be 2-acetamido-2-deoxy-6-O-sulfo-beta-D-glucosyl-(1 leads to 3)-D-galactose and 2-acetamido-2-deoxy-6-O-sulfo-beta-D-glucosyl-(1 leads to 3)-6-O-sulfo-beta-D-galactosyl-(1 leads to 4)-2-acetamido-2-deoxy-6-O-sulfo-beta-D-glucosyl-(1 leads to 3)-D-galactose, respectively. These oligosaccharide structures indicate that this enzyme specifically hydrolyzes the galactosidic bonds in which nonsulfated galactose residues participate. The enzyme could also hydrolyze a small oligosaccharide such as lacto-N-neotetraitol as follows:
Gal
(beta 1 leads to 4)GlcNAc(beta 1 leads to 3)
Gal
(beta 1 leads to 4) sorbitol leads to
Gal
(beta 1 leads to 4)GlcNAc(beta 1 leads to 3)
Gal
+ sorbitol AB active blood group substance could be hydrolyzed by this enzyme only after Smith degradation. After enzymatic digestion small oligosaccharides and resistant macromolecules were produced. These findings indicate that the enzyme should be useful in studying the precise structures of keratan sulfates, related glycoproteins, and oligosaccharides.
...
PMID:Endo-beta-galactosidase of Escherichia freundii. Purification and endoglycosidic action on keratan sulfates, oligosaccharides, and blood group active glycoprotein. 13 62
We report a method for the isolation of enriched fractions of intact Golgi apparatus from neurons of 10- to 12-day-old rat brains. Neurons were prepared according to a modified method of Farooq and Norton [J. Neurochem. 31, 887-894 (1978)]. Golgi-enriched fractions were obtained after centrifugation of postmitochondrial supernatants in a discontinuous sucrose gradient. Golgi fractions 1 and 2, recovered at the interfaces of 28-34% and 34-36% sucrose densities, respectively, were examined with morphometric and enzymatic methods. Morphometric analyses showed that 21-34% of fraction 1 and 11-29% of fraction 2 consisted of intact Golgi apparatus. Lysosomes, mitochondria, ribosomes, and rough endoplasmic reticulum contaminated fraction 1 (6-10%) and fraction 2 (14-26%). Golgi fraction 1 showed a 25- to 65-fold enrichment over neurons of UDP
Gal
:GlcNAc galactosyltransferase, CMP-sialic acid:lactosylceramide sialyltransferase, and PAPS:cerebroside sulfotransferase activities. Golgi fraction 2 showed a 8- to 23-fold enrichment over neurons of the activities of the above glycolipid- and glycoprotein-synthesizing enzymes. The activities of the possible marker enzymes rotenone-insensitive NADH-cytochrome c reductase, succinate-cytochrome c reductase, and
arylsulfatase
were low or minimally elevated in the Golgi fractions. A sevenfold enrichment of Na+, K+-ATPase activities was found in the Golgi fractions. This is consistent either with significant plasma membrane contamination or with the presence of this enzyme in the neuronal Golgi apparatus.
...
PMID:Isolation and characterization of an enriched Golgi fraction from neurons of developing rat brains. 400 71
N-Acetylglucosamine-6-sulfate
sulfatase
(NG6SS) is an enzyme that catalyzes the hydrolysis of sulfate esters from the C-6 hydroxyl of N-acetylglucosamine. We report our purification and characterization of the enzyme and the discovery that it can remove sulfate from internally sulfated GlcNAc on glycopeptides and glycoproteins. The enzyme was purified from bovine kidney over 200,000-fold using a combination of ion-exchange and size-exclusion chromatography. NG6SS is soluble and occurs as a single subunit with apparent solution molecular weight of 60.2 kDa on gel filtration chromatography and approximately 52.5 and 57.8 kDa on reducing and nonreducing SDS/PAGE, respectively. The enzyme is highly basic and exhibits a broad pH range with an optimum at pH 6.5 and a temperature optimum of 37 degrees C. Among the mono- and disaccharide sulfates tested, only GlcNAc-6-SO4 is an effective substrate with a Km of 4.7 mM, and either free sulfate or phosphate inhibits the activity. Unexpectedly, we found that the enzyme displays endosulfatase activity and quantitatively releases 35SO4 from 35SO4-labeled glycopeptides and intact glycoproteins isolated from human Molt-3 cells, which we have previously shown to synthesize glycoproteins containing GlcNAc-6-SO4 residues within the sequence
Gal
beta 1-4[SO-3-6]-GlcNAc beta 1-R of complex-type N-linked oligosaccharides. The N-terminal sequence of the bovine NG6SS was homologous to a human-liver-derived N-acetylglucosamine-6-sulfatase. The endosulfatase activity of bovine kidney NG6SS may be important in its potential role in the degradation of sulfated glycans and may make this enzyme a valuable reagent to study the biological functions of sulfated glycoproteins.
...
PMID:Purification and characterization of N-acetylglucosamine-6-sulfate sulfatase from bovine kidney: evidence for the presence of a novel endosulfatase activity. 815 45
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.
...
PMID:Variations in the chondroitin sulfate-protein linkage region of aggrecans from bovine nasal and human articular cartilages. 891 Apr 87
Using a quantitative dot blot overlay assay of polyvinylidene difluoride membranes, we investigated the ability of Escherichia coli heat-stable enterotoxin b (STb) to bind to various glycolipids of defined structure. STb bound strongly to acidic glycosphingolipids, including sulfatide (or 3'-sulfogalactosylceramide) and several gangliosides, but not significantly to their derivatives, galactosylceramide and asialogangliosides, respectively. STb exhibited the highest binding affinity for sulfatide. STb bound to pure sulfatide in a dose-dependent and saturable manner, with a detection level of a few nanograms. The binding was not inhibited by tetramethylurea, which is a strong disrupter of hydrophobic interactions, or by the anionic sulfated polymer of glucose, dextran sulfate, indicating that the binding is not due solely to either hydrophobic or ionic interactions via the sulfate group of the sulfatide. The specificity of the binding was confirmed by the finding that a 500-fold molar excess of sulfatide inhibited STb binding by approximately 45%, whereas no competition was obtained with galactosylceramide under the same conditions. Taken together, our data indicated that a galactose residue linked to a sulfate group is required for the binding specificity of STb. Then, total lipids extracted either from the mucous layer or from the epithelial cells of the pig jejunum brush border, the natural target of STb, were analyzed by thin-layer chromatography (TLC). Both extracts contained a lipidic molecule with a relative mobility on a TLC plate similar to that of the sulfatide standard. The migrated lipid extracted directly from a preparative TLC plate was confirmed to be sulfatide, as it was recognized by laminin, a sulfated glycolipid binding protein, and by a monoclonal antibody directed against sulfatide. In an overlay assay on PVDF membranes, STb bound to the sulfatide prepared from porcine jejunum as well as to the sulfatide standard. Thus, these findings suggest that the terminal oligosaccharide sequence
Gal
(3SO4)beta1- on sulfatide could mediate binding of STb to its target cells and, in support of a recent report (E. Rousset, J. Harel, and J. D. Dubreuil, Microb. Pathog. 24:277-288, 1998), probably terminal sialic acid residue on another glycosphingolipid. Moreover, pretreatment in the ligated intestinal loop assay with laminin or
sulfatase
altered the biological activity of STb. In summary, we present data indicating that sulfatide represents a functional receptor for the STb toxin.
...
PMID:Sulfatide from the pig jejunum brush border epithelial cell surface is involved in binding of Escherichia coli enterotoxin b. 982 38
The substrate specificities of three molluscan sulfatases (E.C. 3.1.6.1; snail, abalone, and limpet origins) were investigated with assorted p-nitrophenyl (pNP) di-O-sulfonated beta-D-galactopyranosides and beta-lactosides [3,6-SO(3)
Gal
(1), 3',6'-SO(3) Lac (2), 4, 6SO(3)
Gal
(3), 2,6-SO(3)
Gal
(4), 3,4-SO(3)
Gal
(5), and 3,6-SO(3) GalNAc (6); Ac, acetyl;
Gal
, galactose; Lac, lactose] together with mono-O-sulfonated beta-D-galactopyranoside [pNP 3SO(3)-
Gal
(7)] and tri-O-sulfonated alpha-D-galactopyranoside [2,3,6-SO(3)-alpha-
Gal
(11)]. Some notable differences between the substrate specificity of the three sulfatases were disclosed; snail
sulfatase
hydrolyzed the 3O- and 2O-sulfo groups of 1 and 4, respectively, to afford 6SO(3)
Gal
(9) in high yields, while the abalone enzyme did not act on 4. Only the limpet enzyme could cleave the 3O-sulfo groups of 7 to give pNP beta-galactoside. In contrast, every enzyme could utilize 11 as a good substrate to afford a mixture of 6SO(3)-alpha-
Gal
(13) and 2,6-SO(3) alpha-
Gal
(12). None of the enzymes could cleave the O-sulfo groups of 5 and 6, which indicates that a primary 6O-sulfo group tends to promote the enzymatic hydrolysis of O-sulfo groups at the secondary positions.
...
PMID:Synthetic potential of molluscan sulfatases for the library synthesis of regioselectively O-sulfonated D-galacto-sugars. 1285 34
