The scientist’s investigation covers issues in Biochemistry, Sialic acid, Molecular biology, Glycoconjugate and Dipeptidyl peptidase. Enzyme, N-Acetylmannosamine, Phosphofructokinase 2, Glycoprotein and N-Acetylneuraminic acid are the primary areas of interest in his Biochemistry study. His Sialic acid research is multidisciplinary, relying on both Cell, Receptor, Stereochemistry and Hereditary inclusion body myopathy.
His work deals with themes such as Mutation, Kinase, Kinase activity, Peptide sequence and MAP3K7, which intersect with Molecular biology. His Glycoconjugate study combines topics from a wide range of disciplines, such as In vitro and Neural cell adhesion molecule. His studies in Dipeptidyl peptidase integrate themes in fields like Exopeptidase activity, Exopeptidase, Hydrolase, Fibronectin and Epitope.
Werner Reutter mostly deals with Biochemistry, Sialic acid, Glycoprotein, Molecular biology and Enzyme. His research related to Biosynthesis, Membrane, Glycoconjugate, Membrane glycoproteins and N-Acetylneuraminic acid might be considered part of Biochemistry. His study in Sialic acid is interdisciplinary in nature, drawing from both Cell, Cell culture, Kinase and Glycan.
The various areas that he examines in his Glycoprotein study include Cell biology, Golgi apparatus, Glycosylation and Dipeptidyl peptidase. His research in Cell biology tackles topics such as Neural cell adhesion molecule which are related to areas like Cell adhesion molecule. His Molecular biology study incorporates themes from Antibody and Antigen.
Werner Reutter spends much of his time researching Biochemistry, Sialic acid, Cell biology, Enzyme and N-Acetylneuraminic acid. His work in Glycoconjugate, Biosynthesis, Glycoprotein, Glycosylation and Cell is related to Biochemistry. The concepts of his Sialic acid study are interwoven with issues in Polysialic acid, Molecular biology, Kinase and In vivo.
His studies deal with areas such as Fas ligand, Neurite, Cell adhesion and Anatomy as well as Cell biology. His study explores the link between Enzyme and topics such as Glycan that cross with problems in Cell culture, Bioorthogonal chemistry, Mannosamine, In vitro and Diels alder. Werner Reutter has included themes like Phosphofructokinase 2 and Binding site in his N-Acetylneuraminic acid study.
His main research concerns Biochemistry, Sialic acid, Cell biology, Neural cell adhesion molecule and Glycoconjugate. His study in Biochemistry concentrates on Enzyme, Peptide, Cell membrane, Glycoprotein and Adenosine deaminase. His Glycoprotein research focuses on Chinese hamster ovary cell and how it connects with Molecular biology.
His Sialic acid study integrates concerns from other disciplines, such as Mutation, Hereditary inclusion body myopathy and Kinase. Werner Reutter focuses mostly in the field of Cell biology, narrowing it down to matters related to Cell adhesion and, in some cases, Receptor. Werner Reutter works mostly in the field of Glycoconjugate, limiting it down to topics relating to N-Acetylneuraminic acid and, in certain cases, Protein quaternary structure, Size-exclusion chromatography, Ultracentrifuge and Plasma protein binding, as a part of the same area of interest.
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UDP-GlcNAc 2-Epimerase: A Regulator of Cell Surface Sialylation
Oliver T. Keppler;Stephan Hinderlich;Josmar Langner;Reinhard Schwartz-Albiez.
Sialylation is essential for early development in mice
Martina Schwarzkopf;Klaus-Peter Knobeloch;Elvira Rohde;Stephan Hinderlich.
Proceedings of the National Academy of Sciences of the United States of America (2002)
Biosynthesis of a nonphysiological sialic acid in different rat organs, using N-propanoyl-D-hexosamines as precursors.
H Kayser;R Zeitler;C Kannicht;D Grunow.
Journal of Biological Chemistry (1992)
A bifunctional enzyme catalyzes the first two steps in N-acetylneuraminic acid biosynthesis of rat liver. Purification and characterization of UDP-N-acetylglucosamine 2-epimerase/N-acetylmannosamine kinase.
Stephan Hinderlich;Roger Stäsche;Reinhard Zeitler;Werner Reutter.
Journal of Biological Chemistry (1997)
Biochemical engineering of the N-acyl side chain of sialic acid: biological implications.
Oliver T. Keppler;Rüdiger Horstkorte;Michael Pawlita;Carolin Schmidt.
A Bifunctional Enzyme Catalyzes the First Two Steps in N-Acetylneuraminic Acid Biosynthesis of Rat Liver MOLECULAR CLONING AND FUNCTIONAL EXPRESSION OF UDP-N-ACETYL-GLUCOSAMINE 2-EPIMERASE/N-ACETYLMANNOSAMINE KINASE
Roger Stäsche;Stephan Hinderlich;Christoph Weise;Karin Effertz.
Journal of Biological Chemistry (1997)
Liver-intestine cadherin: molecular cloning and characterization of a novel Ca(2+)-dependent cell adhesion molecule expressed in liver and intestine.
Dietmar Berndorff;Reinhard Gessner;Bertolt Kreft;Norbert Schnoy.
Journal of Cell Biology (1994)
ATP-dependent transport of taurocholate across the hepatocyte canalicular membrane mediated by a 110-kDa glycoprotein binding ATP and bile salt.
M Müller;T Ishikawa;U Berger;C Klünemann.
Journal of Biological Chemistry (1991)
Biosynthetic Modulation of Sialic Acid-dependent Virus-Receptor Interactions of Two Primate Polyoma Viruses
Oliver T. Keppler;Peer Stehling;Markus Herrmann;Holger Kayser.
Journal of Biological Chemistry (1995)
Two‐Color Glycan Labeling of Live Cells by a Combination of Diels–Alder and Click Chemistry
Andrea Niederwieser;Anne-Katrin Späte;Long Duc Nguyen;Christian Jüngst.
Angewandte Chemie (2013)
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