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)

Pulse labeling followed by SDS-PAGE electrophoresis of immunoprecipitated [35S]methionine-labeled steroid sulfatase (STS) gave a single band of molecular weight 65,000 daltons. After a chase period of 18 hours the material appeared as molecular weight approximately 64,000. No labeled STS could be detected in fibroblasts from individuals with STS deficient X-linked ichthyosis. Pulse-chase labeling of normal and multiple sulfatase deficiency (MSD) fibroblasts showed a normal rate of synthesis of STS in MSD during a 3 hour pulse but during the chase the STS of MSD cells disappeared with a half-life of 4 to 6 hours until approximately 25% of the material remained after 24 hr. STS of normal cells had a half-life of 6 days. The material produced in MSD cells had the same molecular size as normal and had the same amount of endoglycosidase sensitive carbohydrate as normal. The defect in MSD thus seems to result in degradation after the addition of N-linked oligosaccharides.
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PMID:Rapid degradation of steroid sulfatase in multiple sulfatase deficiency. 308 10

Using gel, ion-exchange, and reverse-phase chromatography monitored by radioimmunoassays specific for five sequences of preprocholecystokinin (prepro-CCK), its processing products were measured in neutral and acid extracts of porcine cerebral cortex before and after incubation with trypsin, carboxypeptidase B, and arylsulfatase. Three categories of peptides were found: biologically active peptides, i.e. peptides with the alpha-amidated COOH terminus Trp-Met-Asp-Phe-NH2, comprising large CCKs, i.e. peptides larger than CCK-58 and peptides eluting like CCK-58, CCK-33, and CCK-22; CCK-octapeptides in sulfated and traces of nonsulfated forms; and small CCKs, i.e. traces of CCK-7, large amounts of CCK-5, and modest concentrations of CCK-4 (the structures of CCK-5 and -4 were confirmed by sequence analysis); four NH2-terminal fragments, of which the two predominant ones correspond to the desnonapeptide fragments of CCK-58 and CCK-33; and COOH-terminal extended peptides corresponding to glycine-extended CCK-58, CCK-33, and CCK-8 in small but significant amounts. Thus, in addition to CCK-8 the porcine cerebral cortex synthesizes larger and smaller active CCK peptides in quantities of an order similar to those of CCK-8. The occurrence of these together with the NH2-terminal fragments and glycine-extended peptides can be explained only by the existence of different processing pathways for preproCCK. Consequently, the results suggest that cerebral CCK neurons are heterogeneous and comprise at least three populations with different biosynthetic machineries.
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PMID:Characterization of preprocholecystokinin products in the porcine cerebral cortex. Evidence of different processing pathways. 370 Mar 74

We investigated the biochemical and growth properties of Schwann cells from the sciatic nerve of Trembler and unaffected mice in culture. Both Trembler and control cultures showed similar growth rates. The specific activity of 2',3'-cyclic nucleotide 3'-phosphodiesterase (CNP) and enzymes involved in lipid metabolism of cerebrosides and sulfatides were studied. UDP-galactose: ceramide galactosyltransferase was significantly decreased in Trembler cultures less than 21 days in vitro. No differences were found in the specific activities of cerebroside sulfotransferase, arylsulfatase A or CNP between Trembler and control cultures. Schwann cells from Trembler and control mice were labeled with [35S]methionine and the protein analyzed by two-dimensional gel electrophoresis. Our study revealed few but consistent differences in the protein pattern synthesized by the Trembler Schwann cells.
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PMID:Trembler mouse Schwann cells in culture: anomalies in the synthesis of lipids and proteins. 375 1

Sulfur regulation of heparinase synthesis and sulfatase synthesis was studied in Flavobacterium heparinum. Heparinase synthesis was strongly repressed by sulfate and L-cysteine, while the activity of this enzyme showed little or no inhibition by these compounds. Heparinase was synthesized in the absence of heparin when L-methionine was used as the sole sulfur source. The sulfatases produced by F. heparinum, which include the sulfatases involved in heparin catabolism, were also studied. At least some of the sulfatase activity was regulated by sulfur compounds in a manner similar to heparinase regulation. L-Cysteic acid and taurine were not suitable sulfur sources to support the growth of F. heparinum.
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PMID:Sulfur regulation of heparinase and sulfatases in Flavobacterium heparinum. 396 13

A group of enzymes of sulfur metabolism (arylsulfatase, cholinesulfatase, and a number of others) are normally repressed in Neurospora crassa by an abundant supply of a "favored" sulfur source such as methionine or inorganic sulfate. A mutant called scon(c) was isolated in which the formation of each of these enzymes is largely or completely nonrepressible. The structural genes for three of these enzymes have been mapped; scon(c) is not linked to any of them. It is also not linked to cys-3, another gene which is involved in control of the same group of enzymes. Two alleles of the structural gene for arylsulfatase [ars(+) and ars(UFC-220)] produce electrophoretically distinguishable forms of arylsulfatase. Heterokaryons with the constitution scon(c) ars(+) + scon(+)ars(UFC-220) were prepared. These heterokaryons produce both forms of arylsulfatase under conditions of sulfur limitation, but produce only the wild-type (ars(+)) form under conditions of sulfur abundance. When the alleles of ars and scon are in the opposite relationship, only the ars(UFC-220) form of arylsulfatase can be detected under conditions of sulfur abundance. Thus the effect of the scon(c) mutation seems to be limited to its own nucleus. The implications of these findings are discussed.
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PMID:Novel mutation causing derepression of several enzymes of sulfur metabolism in Neurospora crassa. 425 80

Mutants resistant to selenomethionine were isolated, and their properties studied. Mapping studies indicate that the mutation sites are located near the eth-1(r) locus in linkage group I, about ten map units away from the mating type locus. The sites of new mutation are either allelic to or very close to eth-1(r). They are resistant not only to selenomethionine but also to ethionine, while the ethionine-resistant mutant, eth-1(r), is sensitive to selenomethionine. The selenomethionine-resistant mutants are also temperature-sensitive mutants. However, they can grow at higher temperatures in medium containing 1 M glycerol.-It is very unlikely that the resistance is due to a change in the permeability of the membrane. Aryl sulfatase of se-met(r) mutants is not repressed by a high concentration of methionine (5 mM), although inorganic sulfate (2 mM) still can cause total repression. The gamma-cystathionase levels of the mutants are normal, but the S-adenosylmethionine synthetase levels are only one-tenth of that observed in the wild-type strain. The heat-stability of this enzyme in the mutant is also different from that of the wild-type enzyme suggesting that the mutation might affect the structural gene of S-adenosylmethionine synthetase.
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PMID:Isolation and properties of selenomethionine-resistant mutants of Neurospora crassa. 427 70

When a mutant (Mao(-)) of Klebsiella aerogenes lacking an enzyme for tyramine degradation (monoamine oxidase) was grown with d-xylose as a carbon source, arylsulfatase was repressed by inorganic sulfate and repression was relieved by tyramine. When the cells were grown on glucose, tyramine failed to derepress the arylsulfatase synthesis. When grown with methionine as the sole sulfur source, the enzyme was synthesized irrespective of the carbon source used. Addition of cyclic adenosine monophosphate overcame the catabolite repression of synthesis of the derepressed enzyme caused by tyramine. Uptake of tyramine was not affected by the carbon source. We isolated a mutant strain in which derepression of arylsulfatase synthesis by tyramine occurred even in the presence of glucose and inorganic sulfate. This strain also produced beta-galactosidase in the presence of an inducer and glucose. These results, and those on other mutant strains in which tyramine cannot derepress enzyme synthesis, strongly suggest that a protein factor regulated by catabolite repression is involved in the derepression of arylsulfatase synthesis by tyramine.
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PMID:Catabolite repression and derepression of arylsulfatase synthesis in Klebsiella aerogenes. 437 43

Studies were made on the effect of tyramine on arylsulfatase synthesis in mutants of Aerobacter aerogenes ATCC 9621 deficient in enzymes involved in tyramine degradation. As shown previously, some sulfur compounds, such as inorganic sulfate, repressed enzyme synthesis while others, such as methionine, did not. Tyramine caused derepression of enzyme synthesis, which is repressed by inorganic sulfate. The present work showed that, although tyramine readily derepressed arylsulfatase synthesis, metabolites of tyramine in either the wild-type or mutant strains did not, so that the derepression is due to the particular structure of tyramine. Kinetic studies on the cells indicated that incorporation of sulfur into protein and enzyme synthesis occurred on supply of either a sulfur compound, which did not cause repression, or of tyramine, which caused derepression, irrespective of the type of sulfur compound added, if any.
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PMID:Derepression of arylsulfatase synthesis in Aerobacter aerogenes by tyramine. 474 14

The innate ability of Cephalosporium acremonium to use methionine preferentially over sulfate for synthesis of cephalosporin C can be influenced through mutation. Mutants of C. acremonium with altered capacity to utilize sulfate for synthesis of antibiotic were isolated and partially characterized with respect to the uptake of sulfate and the regulation of arylsulfatase.
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PMID:Synthesis of cephalosporin C from sulfate by mutants of Cephalosporium acremonium. 479 69

The enzyme activities of four strains of Legionella pneumophilia were investigated by using the API ZYM system (API System S.A., F-38390 Montalieu Vercieu, France) and synthetic substrates. Aminopeptidases were detected specifically against L-alanine, L-arginine, L-aspartic acid, L-cystine, L-glutaminic acid, glycine, L-histidine, L-isoleucine, L-leucine, L-lysine, L-methionine, L-phenylalanine, L-tryptophan, L-tyrosine, and L-valine. Furthermore, the bacteria possesses esterase activity splitting propionate, butyrate, caproate, caprylate, and caprate, but not laurate, myristate, palmitate, and stearate, esters. The enzymes studies were inhibited partially by aprotinin. No inhibition of phosphatase (pH range, 5.4 to 8.5) or of phosphoamidase was observed. Activities of arylsulfatase, chymotrypsin, trypsin, and glycosidases could not be detected.
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PMID:Enzymatic profile of Legionella pneumophilia. 616 35

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