No.TitleJournalYeariSPE Cartridge/Plate
N-Glycan profile of the cell membrane as a probe for lipopolysaccharide-induced microglial neuroinflammation uncovers the effects of common fatty acid supplementationFood Fuct., (2024) In Press2024iSPE-HILIC
Mass Spectrometry Analysis of Glycopeptides Enriched by Anion Exchange-Mediated Methods Reveals PolyLacNAc-Extended N-Glycans in Integrins and Tetraspanins in Melanoma CellsAnal. Chem., (2024) In Press2024iSPE-HILIC
Probing the role of glycocalyx in host-microbe interactions with systematic modification of the glycomic surfaceRes. Square, (2024) Preprint2024iSPE-HILIC
Protein oxidation of fucose environments (POFE) reveals fucose–protein interactionsChem. Sci., (2024) In Press2024iSPE-HILIC
#30Combined analysis of secreted proteins and glycosylation identifies prognostic features in cholangiocarcinomaJ. Cell. Phys., (2023) 1-142023iSPE-HILIC
Multi-glycomic analysis of spheroid glycocalyx differentiates 2- and 3-dimensional cell modelsGlycobiology, 33 (2023) 2-162023iSPE-HILIC
Comparison of Solid-Phase Extraction Sorbents for Monitoring the In Vivo Intestinal Survival and Digestion of Kappa-Casein-Derived CaseinomacropeptideFoods, (2023) 2992023iSPE-HILIC
Glycoproteomic Analyses of Influenza A Viruses Using timsTOF Pro MSJ. Proteome Res., (2022) 2c004692022iSPE-HILIC
Regio-Specific N-Glycome and N-Glycoproteome Map of the Elderly Human Brain with and without Alzheimer’s DiseaseMol. Cell. Proteomics, (2022) 1004272022iSPE-HILIC
Mass Spectral Library Methods for Analysis of Site-Specific N-Glycosylation: Application to Human Milk ProteinsJ. Proteome Res., (2022) 2c002862022iSPE-HILIC
Improving statistical certainty of glycosylation similarity between influenza A virus variants using data-independent acquisition mass spectrometryMolec. & Cell. Proteom., (2022) 1004122022iSPE-HILIC
Host Cell Glycocalyx Remodeling Reveals SARS-CoV-2 Spike Protein Glycomic Binding SitesFront. Mol. Biosci., (2022) 7997032022iSPE-HILIC
Proteomics-Based Identification of Candidate Exosomal Glycoprotein Biomarkers and Their Value for Diagnosing Colorectal CancerFront. Oncol., (2021) 7252112021iSPE-HILIC
Glycan–protein cross-linking mass spectrometry reveals sialic acid-mediated protein networks on cell surfaces Chem. Sci., 12 (2021) 8767-87772021iSPE-HILIC
#20Protein-induced conformational change in glycans decreases the resolution of glycoproteins in hydrophilic interaction liquid chromatographyJ. Sep. Sci., 44 (2021) 1581-15912021iSPE-HILIC
UDP-glucose pyrophosphorylase 2, a regulator of glycogen synthesis and glycosylation, is critical for pancreatic cancer growthPNAS, 118 (31) e21035921182021iSPE-HILIC
The glycoproteomics of hawk and caiman tearsBMC Veterin. Res., 17 (2021) 3812021iSPE-HILIC
Data-independent acquisition mass spectrometry for site-specific glycoproteomics characterization of SARS-CoV-2 spike proteinAnal. Bioanal. Chem., (2021) In Press2021iSPE-HILIC
Glycoproteomic Sample Processing, LC‐MS, and Data Analysis Using GlycReSoftCurrent Protocols, 1 (2021) e842021iSPE-HILIC
Streamlined Subclass-Specific Absolute Quantification of Serum IgG Glycopeptides Using Synthetic Isotope-Labeled StandardsAnal. Chem., 93 (2021) In Press2021iSPE-HILIC
Determination of the glycoprotein specificity of lectins on cell membranes through oxidative proteomicsChem. Sci., 11 (2020) 9501-95122020iSPE-HILIC
Measuring Site-specific Glycosylation Similarity between Influenza a Virus Variants with Statistical CertaintyMol. Cell Proteomics, 19 (2020) 1533-15452020iSPE-HILIC
Identifying Sialylation Linkages at the Glycopeptide Level by Glycosyltransferase Labeling Assisted Mass Spectrometry (GLAMS)Anal. Chem., 92 (2020) 6297-63032020iSPE-HILIC
Glycosylation of Serum Clusterin in Wild-Type Transthyretin-Associated (ATTRwt) Amyloidosis: A Study of Disease-Associated Compositional Features Using Mass Spectrometry AnalysesBiochemistry, 59 (2020) 4367-43782020iSPE-HILIC
#10Comprehensive structural glycomic characterization of the glycocalyxes of cells and tissuesNature Protocols, 15 (2020) 2668-27042020iSPE-HILIC
Deep Structural Analysis and Quantitation of O-Linked Glycans on Cell Membrane Reveal High Abundances and Distinct Glycomic Profiles Associated with Cell Type and Stages of DifferentiationAnal. Chem., 92 (2020) 3758-37682020iSPE-HILIC
Analysis of artificially oxidized cardiolipins and monolyso‐cardiolipins via LC‐HRMS and Kendrick mass plots after HILIC‐based sample preparationRapid Commun. Mass Spectrom., (2020) e85662020iSPE-HILIC
Review: Characterization of Cell Glycocalyx with Mass Spectrometry MethodsCells, 8 (2019) Article 8822019iSPE-HILIC
Effects of N-Glycosylation on the Structure, Function, and Stability of a Plant-Made Fc-Fusion Anthrax Decoy ProteinFront. Plant Sci., 10 (2019) Article 7682019iSPE-HILIC
Unveiling the metabolic fate of monosaccharides in cell membranes with glycomic and glycoproteomic analysesChem. Sci., 10 (2019) 6992-7002 2019iSPE-HILIC
Site-specific glycosylation quantitation of 50 serum glycoproteins enhanced by predictive glycopeptidomics for improved disease biomarker discoveryAnal. Chem., 91 (2019) 5433-54452019iSPE-HILIC
Identification of potential sialic acid binding proteins on cell membranes by proximity chemical labelingChem. Sci., 10 (2019) 6199-62092019iSPE-HILIC
Membrane glycomics reveal heterogeneity and quantitative distribution of cell surface sialylationChem. Sci., 9 (2018) 6271-62852018iSPE-HILIC
#1FGF2 Induces Migration of Human Bone Marrow Stromal Cells by Increasing Core Fucosylations on N-Glycans of IntegrinsStem Cell Reports, 11 (2018) 325–3332018iSPE-HILIC