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- Bookedited by Bernd Lepenies.Contents:
Carbohydrate-based vaccines : an overview / Julia Hütter and Bernd Lepenies
Glycans as vaccine antigens and adjuvants : immunological considerations / Stephanie Zimmermann and Bernd Lepenies
Glycan array platform as a tool to identify carbohydrate antigens / Li Xia and Jeffrey C. Gildersleeve
Antibody-carbohydrate recognition from docked ensembles using the AutoMap procedure / Tamir Dingjan, Mark Agostino, Paul A. Ramsland, and Elizabeth Yuriev
Generation of monoclonal antibodies against defined oligosaccharide antigens / Felix Broecker, Chakkumkal Anish, and Peter H. Seeberger
Murine whole-blood opsonophagocytosis assay to evaluate protection by antibodies raised against encapsulated extracellular bacteria / Guillaume Goyette-Desjardins, René Roy, and Mariela Segura
Determination of N-linked glycosylation in viral glycoproteins by negative ion mass spectrometry and ion mobility / David Bitto, David J. Harvey, Steinar Halldorsson, Katie J. Doores, Laura K. Pritchard, Juha T. Huiskonen, Thomas A. Bowden, and Max Crispin
N-glycosylation fingerprinting of viral glycoproteins by xCGE-LIF / René Hennig, Erdmann Rapp, Robert Kottler, Samanta Cajic, Matthias Borowiak, and Udo Reichl
Temporary conversion of protein amino groups to azides : a synthetic strategy for glycoconjugate vaccines / Tomasz Lipinski and David R. Bundle
Gold nanoparticles as carriers for synthetic glycoconjugate vaccines / Fabrizio Chiodo and Marco Marradi
Identification and characterization of carbohydrate-based adjuvants / Timo Johannssen and Bernd Lepenies
Characterization of carbohydrate vaccines by NMR spectroscopy / Francesco Berti and Neil Ravenscroft
Characterization of capsular polysaccharides and their glycoconjugates by hydrodynamic methods / Stephen E. Harding, Ali Saber Abdelhameed, Richard B. Gillis, Gordon A. Morris, and Gary G. Adams
Glycoconjugate vaccines : the regulatory framework / Christopher Jones.Digital Access Springer 2015 - ArticleNehlig A, Lehr PR, Gayet J.Comp Biochem Physiol B. 1978;61(1):59-64.1. The utilization of 3-hydroxybutyrate has been studied in the chick telencephalon during its post-hatching maturation. 2. In the 1-day-old chick the blood concentration of 3-hydroxybutyrate appears to be relatively high and its value is 5 times that estimated in the 4- and 30-day-old chicks. 3. The determination of the cerebral arteriovenous differences of 3-hydroxybutyrate shows that the brain of the newly-hatched chick takes up 3 times more actively this ketone body than the brain of the 4-day-old bird does. 4. During incubation in a non-oxygenated and an oxygenated physiological medium, in the presence of 3-hydroxy [3-14C]butyrate, the specific radioactivity of the dicarboxylic amino acids in the 1-day-old chick brain slices is higher than in those of the 30-day-old chick, particularly in the oxygenated medium. 5. Thirty minutes after a subcutaneous injection of 3-hydroxy [3-14C]butyrate, the specific radioactivity of the dicarboxylic amino acids in the 1-day-old chick telencephalon is 3-4 times higher than that in the 4- and 30-day-old chick. 6. In conclusion, in the brain of the newly hatched chick, 3-hydroxybutyrate is an efficient precursor in the biosynthesis of dicarboxylic amino acids, particularly glutamate, and, as glucose, it is metabolically related to the "large compartment" of glutamate. 7. These results have been discussed comparatively to those previously obtained in the developing rodent brain.