Nonenzymatic synthesis of anomerically pure, mannosyl-based molecular probes for scramblase identification studies.
Giovanni PiccaMarkus ProbstSimon M LangeneggerOleg KhorevPeter BütikoferAnant K MenonRobert HänerPublished in: Beilstein journal of organic chemistry (2020)
The chemical synthesis of molecular probes to identify and study membrane proteins involved in the biological pathway of protein glycosylation is described. Two short-chain glycolipid analogs that mimic the naturally occurring substrate mannosyl phosphoryl dolichol exhibit either photoreactive and clickable properties or allow the use of a fluorescence readout. Both probes consist of a hydrophilic mannose headgroup that is linked to a citronellol derivative via a phosphodiester bridge. Moreover, a novel phosphoramidite chemistry-based method offers a straightforward approach for the non-enzymatic incorporation of the saccharide moiety in an anomerically pure form.