Dyukova, IrinaBen Faleh, AhmedWarnke, StephanYalovenko, NataliaYatsyna, VasylBansal, PriyankaRizzo, Thomas R.2021-07-172021-07-172021-07-172021-06-3010.1039/d1an00780ghttps://infoscience.epfl.ch/handle/20.500.14299/179989WOS:000670013300001Glycosylation patterns in monoclonal antibodies (mAbs) can vary significantly between different host cell types, and these differences may affect mAbs safety, efficacy, and immunogenicity. Recent studies have demonstrated that glycan isomers with the terminal galactose position on either the Man alpha 1-3 arm or the Man alpha 1-6 arm have an impact on the effector functions and dynamic structure of mAbs. The development of a robust method to distinguish positional isomers of glycans is thus critical to guarantee mAb quality. In this work, we apply high-resolution ion mobility combined with cryogenic infrared spectroscopy to distinguish isomeric glycans with different terminal galactose positions, using G1F as an example. Selective enzymatic synthesis of the G1(alpha 1-6)F isomer allows us to assign the peaks in the arrival-time distributions and the infrared spectra to their respective isomeric forms. Moreover, we demonstrate the impact of the host cell line (CHO and HEK-293) on the IgG G1F gycan profile at the isomer level. This work illustrates the potential of our approach for glycan analysis of mAbs.Chemistry, AnalyticalChemistrymobility-mass spectrometryimmunoglobulin-gchemoenzymatic synthesiseffector functionsn-glycansglycosylation profilesfc glycansigg1oligosaccharidesseparationtext::journal::journal article::research article