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Tianwei Jia

Person: Postdoctoral Research Fellow

Dr. Jia earned his Master's in Medicinal Chemistry in 2018 from Tianjin University of Science and Technology, working under the guidance of Prof. Yu Peng. His master’s research concentrated on the synthesis and characterization of glycol-nanoparticles, serving as probes to explore carbohydrate...

Kelsey M Charon

Person: Research Assistant

Kelsey received her bachelor's in Biological Engineering with a minor in Chemistry from Wentworth Institute of Technology (August 2023). As a Massachusetts native, she has been living and studying in Boston for the last several years. She has worked on projects with synthetic biology and cell...

Aeromonas hydrophila RTX adhesin has three ligand-binding domains that give the bacterium the potential to adhere to and aggregate a wide variety of cell types.

Publication: Journal Article

Ye, Qilu, Robert Eves, Tyler D R Vance, Thomas Hansen, Adam P Sage, Andrea Petkovic, Brianna Bradley, et al. 2025. “Aeromonas Hydrophila RTX Adhesin Has Three Ligand-Binding Domains That Give the Bacterium the Potential to Adhere to and Aggregate a Wide Variety of Cell Types.”. MBio 16 (5): e0315824.

Sugar-binding and split domain combinations in repeats-in-toxin adhesins from Vibrio cholerae and Aeromonas veronii mediate cell-surface recognition and hemolytic activities.

Publication: Journal Article

Sherik, Mustafa, Robert Eves, Shuaiqi Guo, Cameron J Lloyd, Karl E Klose, and Peter L Davies. 2024. “Sugar-Binding and Split Domain Combinations in Repeats-in-Toxin Adhesins from Vibrio Cholerae and Aeromonas Veronii Mediate Cell-Surface Recognition and Hemolytic Activities.”. MBio 15 (2): e0229123.

The restricted N-glycome of neurons is programmed during differentiation.

Publication: Journal Article

Kiwimagi, Katherine, Maxence Noel, Murat Cetinbas, Ruslan I Sadreyev, Lei Wang, Jordan W Smoller, Richard D Cummings, Ron Weiss, and Robert G Mealer. 2024. “The Restricted N-Glycome of Neurons Is Programmed During Differentiation.”. BioRxiv : The Preprint Server for Biology.

Direct Binding Assay + MAWE Protocol

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1. Introduction 1.1 Primary objective is to determine the binding specificity of directly labeled Glycan Binding Proteins (GBPs) submitted by investigators. The primary array platform is the CFG printed defined glycan microarray. Subsequently, remove binding using the MAWE method for future reuse of...

Glycan Binding Assay with Biotin-tagged Sample + MAWE

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1. Introduction: 1.1. Primary objective is to determine the binding specificity of Glycan Binding Proteins (GBPs) and organisms submitted by investigators, using the printed glycan microarray platform. Removal of binding with the MAWE method, for future reuse of the slide. 2. References: 2.1. https...

Unlabeled Monoclonal Antibody + MAWE

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1. Introduction: 1.1. Primary objective is to determine the binding specificity of a Monoclonal Antibody submitted by investigators, using the printed glycan microarray, and removing with MAWE protocol for reusability. 2. Reference: 2.1. https://research.bidmc.org/ncfg 2.2. Akul Y Mehta, Catherine A...

A glycan atlas of the mammalian intestine through ontogeny and inflammation.

Publication: Journal Article

Siegel, Steven J, Daniel Pomerantz, Jamie Heimburg-Molinaro, Shaikh Danish Mahmood, Joshua R Korzenik, Richard D Cummings, and Seth Rakoff-Nahoum. 2025. “A Glycan Atlas of the Mammalian Intestine through Ontogeny and Inflammation.”. BioRxiv : The Preprint Server for Biology.

21] Facts About: Intracellular Protein Glycosylation

Blog: October 06, 2025

By: Richard D. Cummings In the mid 1980s it was strongly believed that all glycosylated proteins arose within the secretory pathway, which generated both secreted and membrane-bound (plasma membrane) glycoproteins. This accepted process was taken to indicate that no glycosylated proteins occurred in...