Yahui Du
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View article: Unusual MurC Ligase and Peptidoglycan Discovered in Lachnospiraceae Using a Fluorescent L‐Amino Acid Based Selective Labeling Probe
Unusual MurC Ligase and Peptidoglycan Discovered in Lachnospiraceae Using a Fluorescent L‐Amino Acid Based Selective Labeling Probe Open
Developing selective labeling probes for specific bacterial taxa can not only facilitate the study of target bacteria but also deepen our understanding of the microbial diversity at structural and molecular levels. The availability of such…
View article: Unusual MurC Ligase and Peptidoglycan Discovered in Lachnospiraceae Using a Fluorescent L‐Amino Acid Based Selective Labeling Probe
Unusual MurC Ligase and Peptidoglycan Discovered in Lachnospiraceae Using a Fluorescent L‐Amino Acid Based Selective Labeling Probe Open
Developing selective labeling probes for specific bacterial taxa can not only facilitate the study of target bacteria but also deepen our understanding of the microbial diversity at structural and molecular levels. The availability of such…
View article: <i>In vivo</i> Labeling and Intravital Imaging of Bacterial Infection using a Near‐infrared Fluorescent <scp>D</scp>‐Amino Acid Probe
<i>In vivo</i> Labeling and Intravital Imaging of Bacterial Infection using a Near‐infrared Fluorescent <span>D</span>‐Amino Acid Probe Open
Bacterial infections still pose a severe threat to public health, necessitating novel tools for real‐time analysis of microbial behaviors in living organisms. While genetically engineered strains with fluorescent or luminescent reporters a…
View article: Visualizing germination of microbiota endospores in the mammalian gut
Visualizing germination of microbiota endospores in the mammalian gut Open
Transmission of bacterial endospores between the environment and people and the following germination in vivo play critical roles in both the deadly infections of some bacterial pathogens and the stabilization of the commensal microbiotas …
View article: Revealing the in vivo growth and division patterns of mouse gut bacteria
Revealing the in vivo growth and division patterns of mouse gut bacteria Open
d -amino acid–based in vivo metabolic labeling and FISH enable visualization of how different bacteria grow and divide in the gut.