<P> This method represents an encouraging way to selectivity incorporate B - ethyl, isopropyl and other glycosides with typical trichloroacetimidate chemistry . </P> <P> O - linked glycopeptides recently have been shown to exhibit excellent CNS permeability and efficacy in multiple animal models with disease states . In addition one of the most intriguing aspects thereof is the capability of O - glycosylation to extend half life, decrease clearance, and improve PK / PD thereof the active peptide beyond increasing CNS penetration . The innate utilization of sugars as solubilizing moieties in Phase II and III metabolism (glucuronic acids) has remarkably allowed an evolutionary advantage in that mammalian enzymes are not directly evolved to degrade O glycosylated products on larger moieties . </P> <P> The peculiar nature of O - linked glycopeptides is that there are numerous examples which are CNS penetrant . The fundamental basis of this effect is thought to involve "membrane hopping" or "hop diffusion". The non-brownian motion driven "hop diffusion" process is thought to occur due to discontinuity of the plasma membrane . "Hop diffusion" notably combines free diffusion and intercomparmental transitions . Recent examples notably include high permeability of met - enkephalin analogs amongst other peptides . The full mOR agonist pentapeptide DAMGO is also CNS penetrant upon introduction of glycosylation . </P>

What is the nature of the glycosidic linkage in sucrose