Author: Schaapkens, Xander; van Sluis, Roy N.; Bobylev, Eduard O.; Reek, Joost N. H.; Mooibroek, Tiddo J.
Title: A Water Soluble Pd(2)L(4) Cage for Selective Binding of Neu5Ac Cord-id: 3bmatsn8 Document date: 2021_9_6
ID: 3bmatsn8
Snippet: The sialic acid Nâ€acetylneuraminic acid (Neu5Ac) and its derivatives are involved in many biological processes including cellâ€cell recognition and infection by influenza. Molecules that can recognize Neu5Ac might thus be exploited to intervene in or monitor such events. A key obstacle in this development is the sparse availability of easily prepared molecules that bind to this carbohydrate in its natural solvent; water. Here, we report that the carbohydrate binding pocket of an organic solub
Document: The sialic acid Nâ€acetylneuraminic acid (Neu5Ac) and its derivatives are involved in many biological processes including cellâ€cell recognition and infection by influenza. Molecules that can recognize Neu5Ac might thus be exploited to intervene in or monitor such events. A key obstacle in this development is the sparse availability of easily prepared molecules that bind to this carbohydrate in its natural solvent; water. Here, we report that the carbohydrate binding pocket of an organic soluble [Pd(2)L(4)](4+) cage could be equipped with guanidiniumâ€terminating dendrons to give the water soluble [Pd(2)L(4)][NO(3)](16) cage 7. It was shown by means of NMR spectroscopy that 7 binds selectively to anionic monosaccharides and strongest to Neu5Ac with K (a)=24 M(−1). The cage had low to no affinity for the thirteen neutral saccharides studied. Aided by molecular modeling, the selectivity for anionic carbohydrates such as Neu5Ac could be rationalized by the presence of charge assisted hydrogen bonds and/or the presence of a salt bridge with a guanidinium solubilizing arm of 7. Establishing that a simple coordination cage such as 7 can already selectively bind to Neu5Ac in water paves the way to improve the stability, affinity and/or selectivity properties of M(2)L(4) cages for carbohydrates and other small molecules.
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