8-azido-3,8-dideoxy-D-manno-octulosonic acid-mediated metabolic oligosaccharide engineering for specific labeling of diverse Enterobacterales
Eden Laing, Leonardo Boldt, Suwannee Ganguillet, Emma Slack, Lisa Maier, Nicolas Beziere

TL;DR
This paper introduces a new sugar-based labeling method to track specific gut bacteria in real-time, enabling detailed in vivo studies of bacterial interactions.
Contribution
A novel metabolic labeling strategy using Kdo-N3 enables species-specific in vivo imaging of diverse Enterobacterales.
Findings
Kdo-N3 enables specific labeling of Gram-negative bacteria's LPS core across multiple Enterobacterales species.
In vivo imaging in the murine gastrointestinal tract demonstrates species-specific labeling with Kdo-N3.
LPS profiling reveals Kdo-N3 incorporation and O-antigen-dependent shielding effects.
Abstract
Current microbiome studies lack real-time or spatial information, often requiring large cohorts for longitudinal investigations. Real-time, in vivo molecular imaging would alleviate these shortcomings but is hampered by the limited labeling performance of current strategies. Here, we use the azido-modified sugar 8-Azido-3,8-dideoxy-D-manno-octulosonic acid (Kdo-N3) to metabolically engineer the core oligosaccharide of Gram negative lipopolysaccharide, enabling conjugation with DBCO-fluorophores. We extend this approach by systematically screening multiple Enterobacteriaceae strains, optimizing labeling conditions, validating core-oligosaccharide-specific labeling using LPS knockout mutants, and demonstrating in vivo species-specific MOE-BCC labeling with Kdo-N3 inside the murine gastrointestinal tract and subsequent in vivo imaging. Beyond Salmonella Typhimurium and Escherichia coli…
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Taxonomy
TopicsCarbohydrate Chemistry and Synthesis · Microbial metabolism and enzyme function · Click Chemistry and Applications
