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Aggiungi al carrelloTaschenbuch. Condizione: Neu. Glycomicrobiology | Ronald J. Doyle | Taschenbuch | Paperback | xxii | Englisch | 2013 | Springer US | EAN 9781475786569 | Verantwortliche Person für die EU: Springer Verlag GmbH, Tiergartenstr. 17, 69121 Heidelberg, juergen[dot]hartmann[at]springer[dot]com | Anbieter: preigu.
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Aggiungi al carrelloTaschenbuch. Condizione: Neu. Druck auf Anfrage Neuware - Printed after ordering - At one time, it was thought that only eukaryotic cells could glycosylate proteins. Two major kinds of glycoproteins were recognized in animal cells, consisting of O- or N-linked saccharides. The O-linked saccharides were derived from gly- sylation of threonine or serine, whereas N-linked saccharides were derived from asparagine. In recent years, numerous glycoproteins have been found in bacteria, many of which do not possess typical animal cell glycosylation patterns. One of the purposes of this volume is to provide a thorough discussion of c- bohydrate peptide linkages in bacteria. Interestingly, though Braun s lipoprotein of some gram-negative bacteria was discovered nearly three decades ago, it was never considered to be a glycoprotein, even though it possessed a peptide car- hydrate linkage. In the past few years, it is clear that even gram-positive cells can covalently bind proteins to their cell walls. The role of carbohydrates in the rec- nition of animal cells by bacteria is now well established. Saccharide-specific - hesins have been sequenced, cloned and employed as potential vaccines. Furth- more, carbohydrate receptors on animal cells for bacterial adhesins have been identified and characterized. Another purpose for this volume is to provide a forum for new information on adhesin receptor complexes involving bacterial pathogens. There now is a b- geoning literature on carbohydrate structure, function, and molecular biology in bacteria. The role of carbohydrates in biotechnology and biomass utilization has become important in the past decade due to new methods for carbohydrate det- tion and the cloning of biosynthetic and degradative enzymes.
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Aggiungi al carrelloTaschenbuch. Condizione: Neu. This item is printed on demand - it takes 3-4 days longer - Neuware -At one time, it was thought that only eukaryotic cells could glycosylate proteins. Two major kinds of glycoproteins were recognized in animal cells, consisting of O- or N-linked saccharides. The O-linked saccharides were derived from gly- sylation of threonine or serine, whereas N-linked saccharides were derived from asparagine. In recent years, numerous glycoproteins have been found in bacteria, many of which do not possess typical animal cell glycosylation patterns. One of the purposes of this volume is to provide a thorough discussion of c- bohydrate peptide linkages in bacteria. Interestingly, though Braun s lipoprotein of some gram-negative bacteria was discovered nearly three decades ago, it was never considered to be a glycoprotein, even though it possessed a peptide car- hydrate linkage. In the past few years, it is clear that even gram-positive cells can covalently bind proteins to their cell walls. The role of carbohydrates in the rec- nition of animal cells by bacteria is now well established. Saccharide-specific - hesins have been sequenced, cloned and employed as potential vaccines. Furth- more, carbohydrate receptors on animal cells for bacterial adhesins have been identified and characterized. Another purpose for this volume is to provide a forum for new information on adhesin receptor complexes involving bacterial pathogens. There now is a b- geoning literature on carbohydrate structure, function, and molecular biology in bacteria. The role of carbohydrates in biotechnology and biomass utilization has become important in the past decade due to new methods for carbohydrate det- tion and the cloning of biosynthetic and degradative enzymes. 572 pp. Englisch.
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Aggiungi al carrelloCondizione: New. Dieser Artikel ist ein Print on Demand Artikel und wird nach Ihrer Bestellung fuer Sie gedruckt. Preface. Non-S-Layer Glycoproteins: A Review S. Moens. Glycans in Meningococcal Pathogenesis and the Enigma of the Molecular Decorations of Neisserial Pili M. Virji. Polypeptide Linkage to Bacterial Cell Envelope Glycopolymers H.F. Jenkinson. Surface Lay.
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Aggiungi al carrelloTaschenbuch. Condizione: Neu. This item is printed on demand - Print on Demand Titel. Neuware -At one time, it was thought that only eukaryotic cells could glycosylate proteins. Two major kinds of glycoproteins were recognized in animal cells, consisting of O- or N-linked saccharides. The O-linked saccharides were derived from gly- sylation of threonine or serine, whereas N-linked saccharides were derived from asparagine. In recent years, numerous glycoproteins have been found in bacteria, many of which do not possess typical animal cell glycosylation patterns. One of the purposes of this volume is to provide a thorough discussion of c- bohydrate-peptide linkages in bacteria. Interestingly, though Braun's lipoprotein of some gram-negative bacteria was discovered nearly three decades ago, it was never considered to be a glycoprotein, even though it possessed a peptide-car- hydrate linkage. In the past few years, it is clear that even gram-positive cells can covalently bind proteins to their cell walls. The role of carbohydrates in the rec- nition of animal cells by bacteria is now well established. Saccharide-specific - hesins have been sequenced, cloned and employed as potential vaccines. Furth- more, carbohydrate receptors on animal cells for bacterial adhesins have been identified and characterized. Another purpose for this volume is to provide a forum for new information on adhesin-receptor complexes involving bacterial pathogens. There now is a b- geoning literature on carbohydrate structure, function, and molecular biology in bacteria. The role of carbohydrates in biotechnology and biomass utilization has become important in the past decade due to new methods for carbohydrate det- tion and the cloning of biosynthetic and degradative enzymes.Libri GmbH, Europaallee 1, 36244 Bad Hersfeld 572 pp. Englisch.