1. Metabolic Incorporation of N-Acetyl Muramic Acid Probes into Bacterial Peptidoglycan.
- Author
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DeMeester KE, Liang H, Zhou J, Wodzanowski KA, Prather BL, Santiago CC, and Grimes CL
- Subjects
- Alkynes chemistry, Alkynes metabolism, Azides chemistry, Azides metabolism, Catalysis, Click Chemistry, Cycloaddition Reaction, Escherichia coli chemistry, Fluorescent Dyes chemistry, Fluorescent Dyes metabolism, Metabolic Engineering methods, Muramic Acids chemistry, Peptidoglycan chemistry, Escherichia coli metabolism, Muramic Acids metabolism, Peptidoglycan metabolism
- Abstract
Bacterial cells utilize small carbohydrate building blocks to construct peptidoglycan (PG), a highly conserved mesh-like polymer that serves as a protective coat for the cell. PG production has long been a target for antibiotics, and its breakdown is a source for human immune recognition. A key component of bacterial PG, N-acetyl muramic acid (NAM), is a vital element in many synthetically derived immunostimulatory compounds. However, the exact molecular details of these structures and how they are generated remain unknown due to a lack of chemical probes surrounding the NAM core. A robust synthetic strategy to generate bioorthogonally tagged NAM carbohydrate units is implemented. These molecules serve as precursors for PG biosynthesis and recycling. Escherichia coli cells are metabolically engineered to incorporate the bioorthogonal NAM probes into their PG network. The probes are subsequently modified using copper-catalyzed azide-alkyne cycloaddition to install fluorophores directly into the bacterial PG, as confirmed by super-resolution microscopy and high-resolution mass spectrometry. Here, synthetic notes for key elements of this process to generate the sugar probes as well as streamlined user-friendly metabolic labeling strategies for both microbiology and immunological applications are described. © 2019 by John Wiley & Sons, Inc. Basic Protocol 1: Synthesis of peracetylated 2-azido glucosamine Basic Protocol 2: Synthesis of 2-azido and 2-alkyne NAM Basic Protocol 3: Synthesis of 3-azido NAM methyl ester Basic Protocol 4: Incorporation of NAM probes into bacterial peptidoglycan Basic Protocol 5: Confirmation of bacterial cell wall remodeling by mass spectrometry., (© 2019 John Wiley & Sons, Inc.)
- Published
- 2019
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