Alpha-1-acid glycoprotein (AGP) is one of the main acute-phase proteins, which is extremely glycosylated. It contains five glycosylation sites with structurally diverse N-linked complex glycans. Its biological role is not fully known, but it includes various anti-inflammatory and immunomodulatory effects, plus the transfer of a diverse range of endogenous and exogenous ligands. AGP concentration changes in various acute and chronic conditions, and changes in AGP glycoforms, including variations in their antenna structures, levels of α1,3-fucosylation or sialinization patterns, have been observed in various pathological and physiological conditions (e.g. diabetes mellitus type II and cancer). It is known that in various diseases there is a change in the glycosylation patterns of AGP, and the question arises whether there is also a change in the occupancy of glycosylation sites of the protein. In this paper, AGP glycosylation site occupancy is examined for the first time. AGP was enriched by precipitation of the "seromucoid" fraction from human plasma samples, followed by reduction and alkylation. Glycosylation occupancy was determined using PNGase F, which removes glycans from proteins, converting glycosylated asparagine to aspartic acid. The samples were divided into four groups: PNGase F added before trypsinization, PNGase F added after trypsinization, water added before trypsinization (control group), and water added after trypsinization (control group). After addition of enzymes or water, glycopeptides were enriched by solid phase extraction and analyzed by reverse phase chromatography coupled to a qTOF mass spectrometer. The percentage of non-glycosylated peptides was obtained from the ratio of the sum of non-deamidated and deamidated control peptides and the sum of non-deamidated and deamidated peptides of the sample with added PNGase F. Complete glycosylation of three sites (I_ORM1*S/ORM2*A, IV_ORM1, V_ORM1 and V_ORM2), partial glycosylation of I_ORM1*F1/ORM1*F and II_ORM1/ORM2 was demonstrated, and site III_ORM1/ORM2 gave no results. These findings can be used for further comparison with the glycosylation site occupancy in people suffering from various diseases, and then AGP glycosylation site occupancy could potentially be a diagnostic tool for these diseases.