Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.1.6.4 (chondroitinase)
2,039 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Heparan sulfates were isolated from the urine of normal individuals and patients with genetic mucopolysaccharidoses after exhaustive digestion with chondroitinase ABC. Electrophoresis of these preparations on cellulose acetate membrane revealed one spot corresponding in mobility to reference heparan sulphate in barium acetate buffer, while electrophoresis in 0.1 M HCl resulted in two distinct spots for each case; one corresponded in migration rate to reference heparan sulfate, and the other was faster in mobility than reference heparan sulfate but slightly retarded when compared with reference heparin. On thin-layer gel filtration on Sephadex G-200 (superfine) heparan sulfate from normal urine was polydispersed in character and its molecular size was larger than those of other preparations. Heparan sulfates from Hunter's and Sanfilippo's urine were monodispersed and small in molecular size. The molecular size of heparan sulfate from Sanfilippo's urine was the smallest of all. Heparin sulfate from Hurler's urine appeared to be composed of two populations; one corresponded in molecular size to heparan sulfate from normal urine, and the other corresponded to that of Hunter's urine.
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PMID:Molecular size difference of urinary heparan sulfates from normal individuals and genetic mucopolysaccharidoses. 12 36

The acidic glycosaminoglycans (AGAG) in normal human kidneys were fractionated on Dowex 1-X2 columns and analysed by electrophoretic separation in three buffers on cellulose acetate membranes and gel filtration on Sephadex G-100 columns, before and after digestion with chondroitinases and streptomyces hyaluronidase. Thin-layer chromatography was also performed to separate glucosamine from galactosamine moieties. Enzymatic digestion combined with electrophoretic characterization indicated that heparan sulfates exist as the main AGAG which accounted for two-fifths of the total AGAG. Hyaluronic acid and dermatan sulfates accounted for one-fourth and one-sixth of the total kidney AGAG, respectively. Chondroitin sulfate isomers (4-sulfate and 6-sulfate) consisted of the residual one-sixth of the total AGAG. An oversulfated chondroitin sulfate was detected in a small amount by demonstration of the unsaturated disulfated disaccharide after digestion with chondroitinase-ABC but not with chondroitinase-AC.
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PMID:Acidic glycosaminoglycans in human kidney tissue. 12 23

Chondroitin sulfate fractions were isolated from different animal cartilages, including whale, cattle, sheep, ray and shark, by Dowex 1 chromatography followed by ethanol fractionation. Although each preparation showed a single spot when electrophoresed on cellulose acetate, both 4- and 6-sulfated disaccharides were present in chondroitinase digests of each. In particular, the main fraction of bovine tracheal chondroitin sulfate (SO4/Ga1N = 1) gave both the disaccharides in nearly equal amounts, and its IR spectrum showed absorption bands at 820 and 850 cm-1. This fraction yielded three types of tetrasaccharides after digestion with testicular hyaluronidase. Structural studies on these tetrasaccharides, using P. vulgaris chondro-4-sulfatase followed by chondroitinase, showed that one of them is a hybrid consisting of the 4- and 6-sulfated residues. In the light of these facts, a nomenclature for chondroitin sulfates is discussed.
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PMID:Microheterogeneity of chondroitin sulfates from various cartilages. 12 31

Uterine slices obtained from the estrogen-treated rabbits were digested with pronase. Glycosaminoglycans and acidic glycopeptides were then isolated by Dowex 1 column chromatography and preparative electrophoresis on cellulose acetate membrane (Separax), in succession. Each subfraction thus obtained was identified by the mobility on Separax electrophoresis and the digestibility with mucopolysaccharidases (Streptomyces hyaluronidase, testicular hyaluronidase, chondroitinase AC, chondroitinase ABC and heparinase). The resulting data showed that each complex saccharide (hyaluronic acid, heparan sulfate, chondroitin sulfate A, chondroitin sulfate C, dermatan sulfate, sulfated glycopeptide and sialoglycopeptide) was separated into 2-5 fractions, indicating charge and/or molecular heterogeneity of each complex saccharide.
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PMID:Glycosaminoglycans and acidic glycoproteins in rabbit uterus under estrogenic conditions. 12

7 clinically uninvolved as well as 8 involved (6 moderately, 2 markedly) back or forearm skin specimens from 12 patients with systemic scleroderma were subjected to quantitative evaluation and to qualitative analysis of glycosaminoglycans (GAG) by one-dimensional and two-dimensional cellulose acetate electrophoresis. Skin specimens from the back, clinically uninvolved but histologically demonstrating the initial change, revealed increased amounts of hyaluronidase, chondroitinase-resistant GAG of varying electrophoretic mobilities, and one of them was chemically confirmed to be heparan sulfate variant, whereas involved skin specimens showed hardly this increase.
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PMID:Initial change of glycosaminoglycans in systemic scleroderma. 12 27

Incorporation of sulfate into alcian blue-precipitable glycosaminoglycan of 12-day-old chick embryo sterna is stimulated by addition, separately or together, of normal human serum and physiological concentrations of thyroid hormones (Audhya, T.K., and Gibson, K.D. (1975) Proc. Natl. Acad, Sci. U. S. A. 72, 604--608). We present evidence that this stimulation is due to increased synthesis of at least one proteoglycan, with minor alterations in the size and chemical composition of the glycosaminoglycans. Pulse-chase experiments showed no detectable loss of label during the chase, in control sterna or sterna incubated with serum and L-3,5,3'-triiodothyronine; thus, all incorporation was the result of synthesis of glycosaminoglycans. In double-label experiments, with 35SO4(2-) and [3H]acetate, the molar ratio of 3H and 35S incorporated into glycosaminoglycans was changed little, if at all, by addition of serum or triiodothyronine or both, at concentrations which increased incorporation up to 2-fold. Glycosaminoglycans isolated from these and other incubations gave similar elution patterns from agarose columns, and identical electrophoretic patterns on cellulose acetate. Digestion with chondroitinase ABC (chondroitin ABC lyase; EC 4.2.2.4.) showed that incorporation was into chondroitin sulfate and possibly hyaluronic acid, and that the proportions of non-sulfated, 4-sulfated, and 6-sulfated disaccharide units differed little between stimulated and unstimulated sterna. Incorporation of [3H]serine into glycosaminoglycans from papain digest of sterna paralleled incorporation of 35SO4(2-), and indicated a number average molecular weight between 21,000 and 25,000 for the newly synthesized chondroitin sulfate. This value was confirmed by gel filtration chromatography, which also showed that the average molecular weight of the newly synthesized chondroitin sulfate decreased up to 15% under conditions of 2-fold stimulation. Proteoglycans were extracted from sterna incubated with [3H]serine and 35SO4(2-) and analyzed by isopycinic centrifugation in CsCl and by zone sedimentation in a sucrose gradient. A major proteoglycan fraction could be separated by either method. Incorporation of both isotopes into this proteoglycan fraction, and into glycosaminoglycans isolated after papain digestion, was stimulated in a coordinate manner. Almost identical results were obtained with both separation techniques. The results indicate that the synthesis of the major proteoglycan, and probably also of a minor one, is stimulated by serum and triiodothyronine.
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PMID:Stimulation of proteoglycan synthesis in chick embryo sternum by serum and L-3,5,3'-triiodothyronine. 13 41

Glycosaminoglycans were isolated from purified fractions of glomerular basement membranes and partially characterized by chemical analysis and cellulose acetate electrophoresis. Basement membranes were prepared by detergent treatment of rat glomeruli and subjected to digestion with papain and Pronase. Glycosaminoglycans were isolated from the digests by precipitation with cetyl pyridinium chloride and ethanol. Results of cellulose acetate electrophoresis of the isolated glycosaminoglycan fraction revealed the presence of one major and one minor spot. The major spot was identified as heparan sulfate because it comigrated with the heparan sulfate standard and was sensitive to heparinase and to nitrous acid oxidation but insensitive to chondroitinase ABC and to testicular or leech hyaluronidase. The minor spot was tentatively identified as hyaluronic acid based on its migratory behavior and sensitivity to leech and testicular hyaluronidase. The chemical composition of the isolated glycosaminoglycan was typical of that of heparan sulfate (high carbazole/orcinol ratio, high sulfate content, absence of galactosamine). The data support and confirm the cytochemical data obtained previously [Kanwar, Y. S. & Farquhar, M. G. (1979) Proc. Natl. Acad. Sci. USA 76, 1303-1307] demonstrating that heparan sulfate is the only sulfated glycosaminoglycan detectable in the glomerular basement membrane. The present results suggest that in addition to sulfated glycosaminoglycan some nonsulfated glycosaminoglycan (hyaluronic acid) may also be present in the glomerular basement membrane.
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PMID:Isolation of glycosaminoglycans (heparan sulfate) from glomerular basement membranes. 15 57

A strain of Arthrobacter aurescens which secretes a large amount of chondroitinase into a culture broth, was isolated from soil. The chondroitinase was purified 380-fold over culture broth in 24% yield and crystallized. Some properties of the purified enzyme were studied and described: thermal stability (below 45 degrees), pH stability (pH 4.9 to 7.4), optimum temperature (50 degrees), and optimum pH (pH 6.0). Chrondroitin sulfate A and C, chondroitin, and hyaluronic acid were split by the enzyme but dermatan sulfate could not be. The initial rates of enzymic degradation of chondroitin sulfate C, chondroitin, and hyaluronic acid were 1.1, 1.95, and 3.2, respectively, compared to that of chondroitin sulfate A. When the enzyme was allowed to act on chondroitin sulfate A and C, the reducing power and the ultraviolet absorption at 232 nm increased proportionally to the decrease in viscosity of the substrate solution. Finally these substrates were degraded to the extent of 100% to disaccharides. By the enzyme action the main products from chondroitin sulfate A and C were deta 4,5-unsaturated disaccharides, which were identified as 2-acetamido-2-deoxy-3-O-(Beta-D-gluco-4-enepyranosyluronic acid)-4-O-sulfo-D-galactose and 2-acet-amido-2-deoxy-3-O-(Beta-D-gluco-4-enepyranosyluronic acid)-6-O-sulfo-D-galactose by paper chromatography, ultraviolet absorption spectroscophy, and infrared spectroscopy. Thus it is suggested that the chondroitinase is a chondroitin sulfate A and C lyase, one of the hyaluronate lyases (EC 4.2.99.1).
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PMID:Crystallization and some properties of chondroitinase from Arthrobacter aurescens. 23 66

Micro-scale isolation of sulfated glycopeptide from tissue was achieved by successive application of pronase digestion (Step 1), cetylpyridinium chloride-fractionation (Step 2), crude heparinase digestion or chondroitinase ABC digestion plus nitrous acid treatment (Step 3) and preparative cellulose acetate membrane-electrophoresis (Step 4). By this method, sulfated glycopeptide was obtained in a high yield from estrogen-treated rabbit uterus.
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PMID:A method for micro-scale isolation of sulfated glycopeptide from tissue. 52 51

Dermatan sulfate-chondroitin sulfate copolymers have been isolated from human umbilical cord as a major galactosaminoglycan component of this tissue. The galactosaminoglycan fraction was obtained from this tissue by papain [EC 3.4.22.2] digestion followed by precipitation with cetylpyridinium chloride in a yield of 700 mg per 100 g of dry tissue. Ethanol fractionation resolved 4-5 subfractions differing in relative content of L-iduronic acid and D-glucuronic acid. No galactosaminoglycan containing either solely L-iduronic acid or D-glucuronic acid was obtained. The copolymeric structure of the material in each subfraction was demonstrated by analysis of oligosaccharide fragments obtained by chondroitinase-AC [EC 4.2.2.5] digestion. All the polymers contained repeating disaccharide units, D-glucuronosyl-N-acetylgalactosamine, D-glucuronosyl-N-acetylgalactosamine 4-sulfate, D-glucuronosyl-N-acetyl-galactosamine 6-sulfate, and L-iduronosyl-N-acetylgalactosamine 4-sulfate, of which D-glucuronosyl-N-acetylgalactosamine 6-sulfate and L-iduronosyl-N-acetylgalactosamine 4-sulfate were predominant. Both iduronic acid- and glucuronic acid-containing units were arranged in clusters. The presence of a considerable amount of nonsulfated disaccharide units was noted. The copolymers show extensive polydispersity in electrophoresis on cellulose acetate and gel chromatography on Sephadex G-200.
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PMID:Dermatan sulfate-chondroitin sulfate copolymers from ambilical cord. Isolation and characterization. 97 51


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