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Merck
  • Comparison of the human and bovine milk N-glycome via high-performance microfluidic chip liquid chromatography and tandem mass spectrometry.

Comparison of the human and bovine milk N-glycome via high-performance microfluidic chip liquid chromatography and tandem mass spectrometry.

Journal of proteome research (2012-03-24)
Charles C Nwosu, Danielle L Aldredge, Hyeyoung Lee, Larry A Lerno, Angela M Zivkovic, J Bruce German, Carlito B Lebrilla
摘要

The isolation of whey proteins from human and bovine milks followed by profiling of their entire N-glycan repertoire is described. Whey proteins resulting from centrifugation and ethanol precipitation of milk were treated with PNGase F to release protein-bound N-glycans. Once released, N-glycans were analyzed via nanoflow liquid chromatography coupled with quadrupole time-of-flight mass spectrometry following chromatographic separation on a porous graphitized carbon chip. In all, 38 N-glycan compositions were observed in the human milk sample while the bovine milk sample revealed 51 N-glycan compositions. These numbers translate to over a hundred compounds when isomers are considered and point to the complexity of the mixture. High mannose, neutral, and sialylated complex/hybrid glycans were observed in both milk sources. Although NeuAc sialylation was observed in both milk samples, the NeuGc residue was only observed in bovine milk and marks a major difference between human and bovine milks. To the best of our knowledge, this study is the first MS based confirmation of NeuGc in milk protein bound glycans as well as the first comprehensive N-glycan profile of bovine milk proteins. Tandem MS was necessary for resolving complications presented by the fact that (NeuGc:Fuc) corresponds to the exact mass of (NeuAc:Hex). Comparison of the relative distribution of the different glycan types in both milk sources was possible via their abundances. While the human milk analysis revealed a 6% high mannose, 57% sialylation, and 75% fucosylation distribution, a 10% high mannose, 68% sialylation, and 31% fucosylation distribution was observed in the bovine milk analysis. Comparison with the free milk oligosaccharides yielded low sialylation and high fucosylation in human, while high sialylation and low fucosylation are found in bovine. The results suggest that high fucosylation is a general trait in human, while high sialylation and low fucosylation are general features of glycosylation in bovine milk.

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Sigma-Aldrich
糖苷酶F 来源于脑膜脓毒性伊丽莎白菌, BioReagent, ≥95% (SDS-PAGE), for proteomics
Sigma-Aldrich
PNGase F脑膜炎沙门氏菌, ready-to-use solution, recombinant, expressed in E. coli
Sigma-Aldrich
糖苷酶F from Elizabethkingia miricola, buffered aqueous solution
Sigma-Aldrich
糖苷酶F 来源于脑膜脓毒性伊丽莎白菌, lyophilized powder, recombinant, expressed in E. coli
Sigma-Aldrich
糖苷酶F 来源于脑膜脓毒性伊丽莎白菌, recombinant, expressed in E. coli, set of 100 units nanomolar unit
Sigma-Aldrich
糖肽酶 A 来源于杏仁, buffered aqueous glycerol solution, ≥0.05 unit/mL