: The generation of carbohydrate patterns on surfaces enables a wide range of analytical and diagnostic applications and efficient methods for carbohydrate immobilization are crucial for this purpose. We report on surface O-glycosylation by catalytic printing as a novel, effective method for the covalent immobilization of carbohydrates in micropatterns. Beside the verification of surface functionalization, the suitability of the generated surface for ligand protein interactions was demonstrated.
On surface O-glycosylation by catalytic microcontact printing / Buhl, Moritz; Traboni, Serena; Körsgen, Martin; Lamping, Sebastian; Arlinghaus, Heinrich F.; Ravoo, Bart Jan. - In: CHEMICAL COMMUNICATIONS. - ISSN 1359-7345. - 53:46(2017), pp. 6203-6206. [10.1039/c7cc02505j]
On surface O-glycosylation by catalytic microcontact printing
Traboni, SerenaCo-primo
;
2017
Abstract
: The generation of carbohydrate patterns on surfaces enables a wide range of analytical and diagnostic applications and efficient methods for carbohydrate immobilization are crucial for this purpose. We report on surface O-glycosylation by catalytic printing as a novel, effective method for the covalent immobilization of carbohydrates in micropatterns. Beside the verification of surface functionalization, the suitability of the generated surface for ligand protein interactions was demonstrated.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
