Identification and molecular cloning of a heparosan synthase from Pasteurella multocida type D

Pasteurella multocida Type D, a causative agent of atrophic rhinitis in swine and pasteurellosis in other domestic animals, produces an extracellular polysaccharide capsule that is a putative virulence factor. It was reported previously that the capsule was removed by treating microbes with heparin...

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Veröffentlicht in:	The Journal of biological chemistry 2002-03, Vol.277 (9), p.7209-7213
Hauptverfasser:	DeAngelis, Paul L, White, Carissa L
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Sprache:	eng
Schlagworte:	Amino Acid Sequence Chromatography, Gel Cloning, Molecular Disaccharides - chemistry Dose-Response Relationship, Drug Escherichia coli - enzymology Escherichia coli Proteins Glycosyltransferases - biosynthesis Glycosyltransferases - chemistry Glycosyltransferases - genetics Heparin - metabolism heparosan synthase Ligases - chemistry Ligases - genetics Molecular Sequence Data N-Acetylglucosaminyltransferases - chemistry Pasteurella multocida Pasteurella multocida - enzymology Peptides - chemistry Polymers - chemistry Protein Structure, Tertiary Recombinant Proteins - chemistry Recombinant Proteins - metabolism Sequence Homology, Amino Acid Time Factors
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description	Pasteurella multocida Type D, a causative agent of atrophic rhinitis in swine and pasteurellosis in other domestic animals, produces an extracellular polysaccharide capsule that is a putative virulence factor. It was reported previously that the capsule was removed by treating microbes with heparin lyase III. We molecularly cloned a 617-residue enzyme, pmHS, which is a heparosan (nonsulfated, unepimerized heparin) synthase. Recombinant Escherichia coli-derived pmHS catalyzes the polymerization of the monosaccharides from UDP-GlcNAc and UDP-GlcUA. Other structurally related sugar nucleotides did not substitute. Synthase activity was stimulated about 7-25-fold by the addition of an exogenous polymer acceptor. Molecules composed of approximately 500-3,000 sugar residues were produced in vitro. The polysaccharide was sensitive to the action of heparin lyase III but resistant to hyaluronan lyase. The sequence of the pmHS enzyme is not very similar to the vertebrate heparin/heparan sulfate glycosyltransferases, EXT1 and 2, or to other Pasteurella glycosaminoglycan synthases that produce hyaluronan or chondroitin. The pmHS enzyme is the first microbial dual-action glycosyltransferase to be described that forms a polysaccharide composed of beta4GlcUA-alpha4GlcNAc disaccharide repeats. In contrast, heparosan biosynthesis in E. coli K5 requires at least two separate polypeptides, KfiA and KfiC, to catalyze the same polymerization reaction.
doi_str_mv	10.1074/jbc.M112130200
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It was reported previously that the capsule was removed by treating microbes with heparin lyase III. We molecularly cloned a 617-residue enzyme, pmHS, which is a heparosan (nonsulfated, unepimerized heparin) synthase. Recombinant Escherichia coli-derived pmHS catalyzes the polymerization of the monosaccharides from UDP-GlcNAc and UDP-GlcUA. Other structurally related sugar nucleotides did not substitute. Synthase activity was stimulated about 7-25-fold by the addition of an exogenous polymer acceptor. Molecules composed of approximately 500-3,000 sugar residues were produced in vitro. The polysaccharide was sensitive to the action of heparin lyase III but resistant to hyaluronan lyase. The sequence of the pmHS enzyme is not very similar to the vertebrate heparin/heparan sulfate glycosyltransferases, EXT1 and 2, or to other Pasteurella glycosaminoglycan synthases that produce hyaluronan or chondroitin. The pmHS enzyme is the first microbial dual-action glycosyltransferase to be described that forms a polysaccharide composed of beta4GlcUA-alpha4GlcNAc disaccharide repeats. 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It was reported previously that the capsule was removed by treating microbes with heparin lyase III. We molecularly cloned a 617-residue enzyme, pmHS, which is a heparosan (nonsulfated, unepimerized heparin) synthase. Recombinant Escherichia coli-derived pmHS catalyzes the polymerization of the monosaccharides from UDP-GlcNAc and UDP-GlcUA. Other structurally related sugar nucleotides did not substitute. Synthase activity was stimulated about 7-25-fold by the addition of an exogenous polymer acceptor. Molecules composed of approximately 500-3,000 sugar residues were produced in vitro. The polysaccharide was sensitive to the action of heparin lyase III but resistant to hyaluronan lyase. The sequence of the pmHS enzyme is not very similar to the vertebrate heparin/heparan sulfate glycosyltransferases, EXT1 and 2, or to other Pasteurella glycosaminoglycan synthases that produce hyaluronan or chondroitin. The pmHS enzyme is the first microbial dual-action glycosyltransferase to be described that forms a polysaccharide composed of beta4GlcUA-alpha4GlcNAc disaccharide repeats. 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The pmHS enzyme is the first microbial dual-action glycosyltransferase to be described that forms a polysaccharide composed of beta4GlcUA-alpha4GlcNAc disaccharide repeats. In contrast, heparosan biosynthesis in E. coli K5 requires at least two separate polypeptides, KfiA and KfiC, to catalyze the same polymerization reaction.</abstract><cop>United States</cop><pmid>11756462</pmid><doi>10.1074/jbc.M112130200</doi><tpages>5</tpages><oa>free_for_read</oa></addata></record>
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source	MEDLINE; Elektronische Zeitschriftenbibliothek - Frei zugängliche E-Journals; Alma/SFX Local Collection
subjects	Amino Acid Sequence Chromatography, Gel Cloning, Molecular Disaccharides - chemistry Dose-Response Relationship, Drug Escherichia coli - enzymology Escherichia coli Proteins Glycosyltransferases - biosynthesis Glycosyltransferases - chemistry Glycosyltransferases - genetics Heparin - metabolism heparosan synthase Ligases - chemistry Ligases - genetics Molecular Sequence Data N-Acetylglucosaminyltransferases - chemistry Pasteurella multocida Pasteurella multocida - enzymology Peptides - chemistry Polymers - chemistry Protein Structure, Tertiary Recombinant Proteins - chemistry Recombinant Proteins - metabolism Sequence Homology, Amino Acid Time Factors
title	Identification and molecular cloning of a heparosan synthase from Pasteurella multocida type D
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