Structural Analysis of N- and O-glycans Using ZIC-HILIC/DIALYSIS Coupled to NMR Detection.
Related Articles Structural Analysis of N- and O-glycans Using ZIC-HILIC/DIALYSIS Coupled to NMR Detection.
Fungal Genet Biol. 2014 Aug 9;
Authors: Qu Y, Feng J, Deng S, Cao L, Zhang Q, Zhao R, Zhang Z, Jiang Y, Zink EM, Baker SE, Lipton MS, Paša-Toli? L, Hu JZ, Wu S
Abstract
Protein glycosylation, an important and complex post-translational modification (PTM), is involved in various biological processes, including the receptor-ligand and cell-cell interaction, and plays a crucial role in many biological functions. However, little is known about the glycan structures of important biological complex samples, and the conventional glycan enrichment strategy (i.e., size-exclusion column [SEC] separation) prior to nuclear magnetic resonance (NMR) detection is time-consuming and tedious. In this study, we developed a glycan enrichment strategy that couples Zwitterionic hydrophilic interaction liquid chromatography (ZIC-HILIC) with dialysis strategies to enrich the glycans from the pronase E digests of RNase B, followed by NMR analysis of the glycoconjugate. Our results suggest that the ZIC-HILIC enrichment coupled with dialysis is a simple, fast, and efficient
sample preparation approach. The approach was thus applied to the analysis of a biological complex sample, the pronase E digest of the secreted proteins from the fungus Aspergillus niger. The NMR spectra revealed that the secreted proteins from A. niger contain both N-linked glycans with a high-mannose core similar to the structure of the glycan from RNase B, and O-linked glycans bearing mannose and glucose with 1->3 and 1->6 linkages. In all, our study provides compelling evidence that ZIC-HILIC separation coupled with dialysis is very effective and accessible in preparing glycans for the downstream NMR analysis, which could greatly facilitate the future NMR-based glycoproteomics research.
PMID: 25117693 [PubMed - as supplied by publisher]
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