EC:2.4.1.18 - FACTA Search

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Query: EC:2.4.1.18 (branching enzyme)
628 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The fluorescence yield and lifetime of ethidium bromide complexes with 1,4-alpha-glucan branching enzyme and its free nucleic acid component 2.5S RNA were measured. Both fluorescence parameters showed a 10-fold increase in comparison with those characteristics for the free dye. This increase allows to suggest the existence of double-stranded regions in 2.5S RNA both in the free as well as in the protein bound state. The coefficients of fluorescence polarization were also determined for ethidium bromide complexed with free and protein bound 2.5S RNA. They proved to be 13 and 18% respectively. No concentration depolarization was observed in both types of ethidium bromide and ethidium bromide--enzyme--RNA complexes. This proves that the double-stranded regions are rather short and that two ethidium bromide molecules can't be bound to each of them. The binding isotherms were measured for ethidium bromide absorbed on 2.5S RNA and on the holoenzyme. Their parameters napp and rmax are identical in the cases of free and protein bound 2,5S RNA (rmax = 0.046 +/- 0.001). However the binding constants of ethidium bromide complexes with free and protein bound 2.5S RNA differ significantly (Kapp = 2.2 X 10(6) M-1 for free 2.5S RNA and Kapp = 1.6 X 10(6) M-1 for the holoenzyme). The quantity of nucleotides involved in the two double-stranded regions accessible for ethidium binding is estimated to be about 28%. Increasing of Mg2+ ion concentration up to 10(-3) results in a decrease of ethidium bromide binding with double stranded regions. It may be due to a more compact tertiary structure of 2.5S RNA in the presence of Mg2+ in the free as well as in protein bound state.
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PMID:[Study of 2.5S RNA of 1,4-alpha-glucan branching enzyme by fluorescent methods using ethidium bromide]. 619 23

Soluble starch branching enzymes and starch synthases from maize kernels of differing dosage of the ae locus were purified by DEAE-cellulose chromatography. A near-linear relationship between increasing dosage of the dominate amylose-extender allele (Ae) and branching enzyme IIb activity was found. In contrast, levels and properties of branching enzymes I and IIa, as well as the citrate-stimulated and primer-requiring starch synthases, remained unchanged. The near-linear increase in branching enzyme IIb activity with increasing doses of the Ae allele is consistent with the hypothesis that ae is the structural gene coding for branching enzyme IIb.
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PMID:Gene dosage at the amylose-extender locus of maize: effects on the levels of starch branching enzymes. 621 51

1.4-alpha-glucan branching enzyme (EC 2.4.1.18) from rabbit muscles with an essential 2.5S RNA component has been studied by limited trypsin treatment. Under a great variety of hydrolysis conditions the product resistant to subsequent action of trypsin was obtained. This product contains about 70% of protein and all 2.5S RNA of the original nucleoprotein and retains about 50% of original activity. Amino acids Composition showed, that the protein is of alkaline nature and is rich in lysine. The alkaline nature of protein remains unchanged after trypsinolysis. On the basis of these studies it was assumed that the presence of firmly attached to the protein 2.5S RNA protects the branching enzyme against more powerful trypsinolysis and hinders loss of activity of the branching enzyme.
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PMID:[Structure-function study of 1,4-alpha-glucan branching enzyme by limited trypsin treatment]. 621 6

Soluble starch synthase and branching enzyme were purified from 18-day-old cotyledons of the smooth-seeded pea cultivar Alaska (RR) and wrinkled-seeded pea cultivar Progress #9 (rr) by DEAE-cellulose chromatography. Two coeluting peaks of primed and citrate-stimulated starch synthase activity and a major and minor peak of branching enzyme activity were observed in Alaska. However, in Progress #9, only one peak of synthase activity was found. When crude extracts of Progress #9 were centrifuged, over 70% of the starch synthase activity was recovered in the pelleted fraction, and additional washings of the pellet released no further activity. The addition of purified starch granules to Alaska crude extracts also resulted in the recovery of a greater proportion of synthase activity in pelleted fractions. The two peaks of branching enzyme activity in Alaska differed in their stimulation of phosphorylase, amylose branching activity, and activity in various buffers. The DEAE-cellulose profile of Progress #9 showed no distinct peak of branching enzyme and less than 10% of the total activity found in Alaska. The association of one form of soluble starch synthase with the pelleted fraction and the greatly reduced levels of branching enzyme provide a partial explanation for the appearance of high-amylose starch in Progress #9 cotyledons.
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PMID:Soluble starch synthases and starch branching enzymes from cotyledons of smooth- and wrinkled-seeded lines of Pisum sativum L. 621 10

Human skin fibroblasts from patients with Type IV glycogen storage disease, in which there is a demonstrable deficiency of glycogen branching enzyme, were shown to be able to synthesize [14C]glycogen containing [14C]glucose at branch points when sonicates containing endogenous glycogen synthase a were incubated with UDP[14C]glucose. The branch point content of the glycogen synthesized by the Type IV cells was essentially the same as that formed by normal cells, but the total synthetic capacity of the Type IV cells was lower. A new assay for the branching enzyme using glycogen synthase as the indicator enzyme has been developed. Using this assay it has been shown that the residual branching enzyme of affected children and of their heterozygote parents is less easily inhibited by an IgG antibody raised in rabbits against the normal human liver enzyme than is the branching enzyme of normal fibroblasts.
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PMID:Studies of the residual glycogen branching enzyme activity present in human skin fibroblasts from patients with type IV glycogen storage disease. 622 Jul 6

Glycogen branching enzyme was isolated from rabbit liver. The highly purified enzyme shows a monomer molecular weight of 71 000 by sodium dodecyl sulfate-polyacrylamide gel electrophoresis and apparent molecular weights of 93 000 by sucrose density gradient sedimentation and 52 000 by gel-exclusion chromatography on Sephacryl S-300. No glucosamine, mannosamine, galactosamine, or sialic acid was detected in the protein. An amino acid analysis is reported. The spectrum of branching enzyme is that of a simple polypeptide, with A1%280nm = 24.6. Highly purified branching enzyme consists of several closely related active enzyme forms that can be resolved by isoelectric focusing in polyacrylamide gel. The major species of pI 5.7 is flanked by less abundant forms of pI 5.6 and 5.8. Seemingly identical enzyme forms are observed in crude extracts of rabbit liver, skeletal muscle, brain, and heart, although the absolute and relative concentrations vary among the tissues. Branching enzyme apparently does not exhibit tissue-specific isoenzymes.
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PMID:Isolation and characterization of glycogen branching enzyme from rabbit liver. 622 54

A branching enzyme was extracted from the mycelia of Neurospora crassa and was purified to electrophoretic homogeneity by procedures including DEAE-Sephacel column chromatography, 6-aminohexyl-Sepharose 4B column chromatography and gel filtration on Toyopearl HW-55S. The final yield of the branching enzyme activity was 15.1%, and the final purified enzyme preparation showed a specific activity of 702 units per mg of protein. The molecular weight of this enzyme was estimated to be 80,000 by electrophoresis in sodium dodecyl sulfate-polyacrylamide gel. The amino acid composition and the carbohydrate content of this enzyme were analyzed. The isoelectric point of this enzyme determined by polyacrylamide gel isoelectrofocusing was 5.6. The branching activity of the enzyme was confirmed by its action on amylopectin as well as by the combined action of this enzyme and N. crassa glycogen synthase. The action of this enzyme on amylopectin decreased the wavelength of the absorption maximum of the glucan-iodine complex, and increased the amount of the short unit chains of the debranched product. The product obtained by the combined action yielded beta-limit dextrin upon hydrolysis with beta-amylase. No multiplicity was found for the branching activity either by chromatography or by electrophoresis.
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PMID:Biosynthesis of glycogen in Neurospora crassa. Purification and properties of the branching enzyme. 622 52

1,4-alpha-glucan:1,4-alpha-glucan 6-alpha-D-(1,4-alpha-D-glucano) transferase (branching enzyme) was purified by ammonium sulphate precipitation, chromatography on DEAE-cellulose, fractionation with poly(ethyleneglycol) 6000, chromatography on DEAE-Sepharose and gel filtration on Sephadex G150. The final specific activity was 3000 U/mg corresponding to a purification of approximately 10000-fold over the muscle extracts. 0.6 mg of enzyme was isolated from 4000 g muscle within eight days corresponding to an overall yield of 7%. The purified protein was homogeneous as judged by polyacrylamide gel electrophoresis in the presence of sodium dodecyl sulphate, and this technique yielded a molecular weight of 77000 for the subunit molecular weight of branching enzyme. The apparent molecular weight of the native enzyme determined by gel filtration on Sephadex G150 was 60000, demonstrating that branching enzyme is a monomeric protein. Only a very small proportion of the branching enzyme activity in muscle extracts (2%) precipitated with the protein-glycogen complex. This finding, and its low concentration in muscle, explain why a protein-staining band corresponding to branching enzyme cannot be detected by polyacrylamide gel electrophoresis of the protein-glycogen complex.
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PMID:Purification and subunit structure of glycogen-branching enzyme from rabbit skeletal muscle. 644 99

Polyglucose particles histochemically synthesized from glucose 1-phosphate by phosphorylase and branching glycosyltransferase were observed in the gastric carcinoma cells, in intestinal metaplastic epithelium of the gastric mucosa and in fetal epithelium of the fetal gastric mucosa by light and electron microscopical studies. Light microscopical observations resembled those in previous reports. As for the electron microscopical observations, in gastric carcinoma cells, the polyglucaose synthesizing area were expansively widened by a deposition of synthesized polyglucose particles. Three patterns of their intracellular distribution, (Focal type, scattered type and singly deposited type) were observed. Besides, two types of polyglucose particle were synthesized. One type appeared as monoparticles which were relatively similar in size and the other type appeared as rosette-like structures which varied in size. Larger polyglucose particles which resembled the polyglucose particle synthesized in the fetal epithelium were observed among them. In the intestinal metaplastic epithelium, polyglucose particles which were similar in size were synthesized in narrow focal areas of the cytoplasmic matrix. The distribution, shape and size of polyglucose particles synthesized in the carcinoma cells were irregular as compared with those in the intestinal metaplastic elpithelium. It seems that these irregularities were due to the influence of enzymne deviation caused by carcinoma.
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PMID:Histochemical observations of polyglucose synthesized by enzyme activities in human gastric carcinoma. 644 38

A beta 1-6N-acetylglucosaminyltransferase has been identified in microsomal preparations from hog gastric mucosa which is able to synthesize branch points in branched lactosaminoglycans (blood group I antigenic structures). The enzyme can be assayed specifically using the synthetic trisaccharide GlcNAc beta 1-3Gal beta 1-4Glc beta-OMe as acceptor. The product of the transferase reaction was isolated and identified by methylation analysis as, (Formula: see text) Into this tetrasaccharide two galactose residues were incorporated by the specific beta-N-acetylglucosaminide beta 1-4-galactosyltransferase from bovine milk. Thus a hexasaccharide was formed which was shown to inhibit strongly a murine monoclonal and a human anti-I antibody. Using a variety of oligosaccharides and glycolipids, which correspond to structures found in linear lactosaminoglycan chains, the acceptor substrate specificity of the branching enzyme was determined. From these results it is concluded that branching occurs only during the elongation process at the nonreducing end and follows a well-defined order. N-Acetylglucosamine is first transferred to position 3 of a terminal galactose followed immediately by the addition of a second N-acetylglucosamine to position 6; only then the 1-3 and the 1-6 branches are further elongated by galactose residues.
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PMID:Biosynthesis of blood group I antigens. Identification of a UDP-GlcNAc:GlcNAc beta 1-3Gal(-R) beta 1-6(GlcNAc to Gal) N-acetylglucosaminyltransferase in hog gastric mucosa. 649 Jun 58

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