Li, Q.; Xie, Y.; Wong, M.; Barboza, M.; Lebrilla, C. B., Comprehensive structural glycomic characterization of the glycocalyxes of cells and tissues. Nature Protocols 2020, 15 (8), 2668-2704. Comprehensive structural glycomic characterization of the glycocalyxes of cells and tissues

Amicucci, M. J.; Nandita, E.;  Galermo, A. G.; Castillo, J. J.; Chen, S.; Park, D.; Smilowitz, J. T.; German, J. B.; Mills, D. A.; Lebrilla, C. B., A nonenzymatic method for cleaving polysaccharides to yield oligosaccharides for structural analysis. Nature communications 2020, 11 (1), 1-12. A nonenzymatic method for cleaving polysaccharides to yield oligosaccharides for structural analysis

Park, D. D.;  Phoomak, C.; Xu, G.; Olney, L. P.;  Tran, K. A.;  Park, S. S.;  Haigh, N. E.;  Luxardi, G.;  Lert-Itthiporn, W.; Shimoda, M., Metastasis of cholangiocarcinoma is promoted by extended high-mannose glycans. Proceedings of the National Academy of Sciences 2020, 117 (14), 7633-7644. Metastasis of cholangiocarcinoma is promoted by extended high-mannose glycans

Wong, M.;  Xu, G.;  Barboza, M.;  Maezawa, I.;  Jin, L.-W.;  Zivkovic, A.; Lebrilla, C. B., Metabolic flux analysis of the neural cell glycocalyx reveals differential utilization of monosaccharides. Glycobiology 2020, 30 (11), 859-871. Metabolic flux analysis of the neural cell glycocalyx reveals differential utilization of monosaccharides

Xie, Y.;  Sheng, Y.;  Li, Q.;  Ju, S.;  Reyes, J.; Lebrilla, C. B., Determination of the glycoprotein specificity of lectins on cell membranes through oxidative proteomics. Chemical science 2020, 11 (35), 9501-9512. Determination of the glycoprotein specificity of lectins on cell membranes through oxidative proteomics

Xu, G.;  Goonatilleke, E.;  Wongkham, S.; Lebrilla, C. B., 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 differentiation. Analytical chemistry 2020, 92 (5), 3758-3768. 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 differentiation

Merleev, A. A.; Park, D.; Xie, Y.;  Kailemia, M. J.; Xu, G.;  Ruhaak, L. R.;  Kim, K.;  Hong, Q.;  Li, Q.; Patel, F., A site-specific map of the human plasma glycome and its age and gender-associated alterations. Scientific reports 2020, 10 (1), 1-11. A site-specific map of the human plasma glycome and its age and gender-associated alterations

Barboza, M.;  Krueger, M. R.;  Honeycutt, M.;  Lebrilla, C. B.; Raybould, H., Multi-omics Studies Reveal Altered Hippocampal N-Glycosylation in High Fat Diet-Induced Obese Mice. The FASEB Journal 2020, 34 (S1), 1-1.

Ranque, C. L.; Stroble, C.; Amicucci, M. J.; Tu, D.; Diana, A.; Rahmannia, S.; Suryanto, A. H.; Gibson, R. S.; Sheng, Y.; Tena, J.; Houghton, L. A.; Lebrilla, C. B. Examination of Carbohydrate Products in Feces Reveals Potential Biomarkers Distinguishing Exclusive and Nonexclusive Breastfeeding Practices in Infants. The Journal of Nutrition 2020, 150 (5), 1051–1057. Examination of Carbohydrate Products in Feces Reveals Potential Biomarkers Distinguishing Exclusive and Nonexclusive Breastfeeding Practices in Infants

Park, S.;  Doherty, E. E.; Xie, Y.;  Padyana, A. K.;  Fang, F.;  Zhang, Y.;  Karki, A.;  Lebrilla, C. B.;  Siegel, J. B.; Beal, P. A., High-throughput mutagenesis reveals unique structural features of human ADAR1. Nature communications 2020, 11 (1), 1-13. High-throughput mutagenesis reveals unique structural features of human ADAR1

Wrigglesworth, D. J.;  Goonatilleke, E.;  Haydock, R.;  Hughes, K. R.;  Lebrilla, C. B.;  Swanson, K. S.;  Jones, P.; Watson, P., High-throughput glycomic analyses reveal unique oligosaccharide profiles of canine and feline milk samples. PloS one 2020, 15 (12), e0243323. High-throughput glycomic analyses reveal unique oligosaccharide profiles of canine and feline milk samples

Alonso-Garcia, V.;  Chaboya, C.;  Li, Q.;  Le, B.;  Congleton, T. J.;  Florez, J.;  Tran, V.;  Liu, G.-Y.;  Yao, W.; Lebrilla, C. B., High mannose N-glycans promote migration of bone-marrow-derived mesenchymal stromal cells. International journal of molecular sciences 2020, 21 (19), 7194. High mannose N-glycans promote migration of bone-marrow-derived mesenchymal stromal cells

Kasper, D. M.; Hintzen, J.; Wu, Y.; Ghersi, J. J.; Mandl, H. K.; Salinas, K. E.; Armero, W.; He, Z.; Sheng, Y.; Xie, Y.; Heindel, D. W.; Park, E. J.; Sessa, W. C.; Mahal, L. K.; Lebrilla, C.; Hirschi, K. K.; Nicoli, S. The N-Glycome Regulates the Endothelial-to-Hematopoietic Transition. Science 2020, 370 (6521), 1186–1191. The N-Glycome Regulates the Endothelial-to-Hematopoietic Transition

Raetz, A. G.;  Banda, D. M.;  Ma, X.;  Xu, G.;  Rajavel, A. N.;  McKibbin, P. L.;  Lebrilla, C. B.; David, S. S., The DNA repair enzyme MUTYH potentiates cytotoxicity of the alkylating agent MNNG by interacting with abasic sites. Journal of Biological Chemistry 2020, 295 (11), 3692-3707. The DNA repair enzyme MUTYH potentiates cytotoxicity of the alkylating agent MNNG by interacting with abasic sites

Ehrlich, A. M.;  Pacheco, A. R.;  Henrick, B. M.;  Taft, D.;  Xu, G.;  Huda, M. N.;  Mishchuk, D.;  Goodson, M. L.;  Slupsky, C.; Barile, D., Indole-3-lactic acid associated with Bifidobacterium-dominated microbiota significantly decreases inflammation in intestinal epithelial cells. BMC microbiology 2020, 20 (1), 1-13. Indole-3-lactic acid associated with Bifidobacterium-dominated microbiota significantly decreases inflammation in intestinal epithelial cells-3-lacticAcidAssociatedW

Krishnan, S.;  Xie, A.;  Kim, T.;  Lebrilla, C.; Keim, N., Glycobiology of Serum Proteins Following Exposure to a DGA 2010 Based Dietary Pattern in Women. Current Developments in Nutrition 2020, 4 (Supplement_2), 537-537. Glycobiology of Serum Proteins Following Exposure to a DGA 2010 Based Dietary Pattern in Women

Smilowitz, J.;  Amicucci, M.;  Nandita, E.;  Galermo, A.;  Tu, D.;  Taft, D.;  Meier, A.;  Kurudimov, K.;  Oakes, L.; Mills, D., The Introduction of Plant-Derived Glycans in Exclusively 6-Month Old Breastfed Infants Alters Fecal Glycan Profiles and Microbial Metabolism (IMiND Study). Current Developments in Nutrition 2020, 4 (Supplement_2), 1082-1082. The Introduction of Plant-Derived Glycans in Exclusively 6-Month Old Breastfed Infants Alters Fecal Glycan Profiles and Microbial Metabolism (IMiND Study)