Branko Kozulić scite author profile

Branko Kozulić

5Publications

88Citation Statements Received

7Citation Statements Given

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151

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Affiliations

ETH Zurich, University of Zagreb

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Preparation of the stabilized glycoenzymes by cross-linking their carbohydrate chains

Kozulić

Leustek

Pavlovic

et al. 1987

Appl Biochem Biotechnol

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Each of the three high-mannose type glycoproteins studied, acid phosphatase, invertase, and glucose oxidase, could be specifically cross-linked through its carbohydrate chains. The procedure involves periodate oxidation of carbohydrate residues followed by reaction of the generated aldehyde groups with adipic acid dihydrazide as a cross-linker. The amount and size as well as solubility of the formed polymers could be efficiently controlled by varying the reaction conditions, i.e., the oxidation degree and the concentrations of glycoproteins, cross-linker, and hydrogen ions during the cross-linking reaction. It was found that the quantity and size of polymers increased with oxidation degree and protein concentration and by lowering the pH. When the protein concentration was above and pH below certain values, depending on the glycoenzyme, insoluble polymers formed. The soluble cross-linked polymers retained a high level of original activity, and the minor decrease in specific activity noticed was shown to occur during the periodate oxidation step. The cross-linked glycoenzymes are much more resistant to denaturation by high temperature and by changes in pH, demonstrating the usefulness of this method in preparation of the stabilized glycoprotein derivatives.

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Models of Gel Electrophoresis

Kozulić¹

1995

Analytical Biochemistry

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Poly-N-acryloyl-tris gels as anticonvection media for electrophoresis and isoelectric focusing

Kozulić

Mosbach

1987

Analytical Biochemistry

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Characterization of a soluble carnitine acetyltransferase from Candida tropicalis

Kozulić¹,

Käppeli²,

Meußdoerffer³

et al. 1987

Eur J Biochem

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Carnitine acetyltransferase was purified from the cytoplasmic fraction of Candida tropicalis grown on alkanes in continuous culture. By ion-exchange chromatography the enzyme was resolved in two fractions with the same specific activity of 80 U/mg. The molecular mass of both enzyme forms, determined by non-denaturing gradient gel electrophoresis, was 540 kDa. After SDS electrophoresis only one band of 64 kDa was detected indicating that both enzymes are oligomers each containing eight subunits.Isoelectric focusing in agarose under non-denaturing conditions demonstrated the presence of at least four different charged species in the pH range between 5.6 and 6.7. After isoelectric focusing in 9 M urea/l% Nonidet P-40 gels, both enzyme forms were resolved into four bands. Peptide mapping, performed by cyanogen bromide cleavage of polypeptides separated by denaturing isoelectric focusing followed by second-dimension SDS electrophoresis, revealed a very high degree of homology between these polypeptides.The presence of the octameric form of carnitine acetyltransferase already in the starting material was demonstrated by non-denaturing gradient gel electrophoresis and immunoblotting. Antibodies against carnitine acetyltransferase from C. tropicalis ATCC 321 13 formed precipitation lines with extracts from several Candida species but not with extracts of Candida utilis, Candida ethanotherrnophilurn and an another strain of C. tropicalis.

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N-acetylation of amino sugar methyl glycosides for gas-liquid chromatographic analysis

Kozulić

Ries

Mildner

1979

Analytical Biochemistry

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Branko Kozulić

Preparation of the stabilized glycoenzymes by cross-linking their carbohydrate chains

Models of Gel Electrophoresis

Poly-N-acryloyl-tris gels as anticonvection media for electrophoresis and isoelectric focusing

Characterization of a soluble carnitine acetyltransferase from Candida tropicalis

N-acetylation of amino sugar methyl glycosides for gas-liquid chromatographic analysis

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