Yahui Du
Xiamen University
10 Papers
Yahui Du is an academic researcher from Xiamen University. The author has contributed to research in topics: Gut flora & Germination. The author has an hindex of 5, co-authored 6 publications.
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Papers
Assessing the viability of transplanted gut microbiota by sequential tagging with D-amino acid-based metabolic probes.
Wei Wang,Wei Wang,Liyuan Lin,Liyuan Lin,Yahui Du,Yanling Song,Xiaoman Peng,Xing Chen,Chaoyong James Yang,Chaoyong James Yang +9 more
TL;DR: It is shown that fluorescent D-amino acids can be used to track the transplanted microbiota in the recipient animals, and proposed STAMP is proposed as a versatile tool for deciphering the complex biology of FMT, and potentially improving its treatment efficacy.
Bacterial Extracellular Electron Transfer Occurs in Mammalian Gut.
Wei Wang,Yahui Du,Shuai Yang,Xiaochen Du,Min Li,Bingqian Lin,Jie Zhou,Liyuan Lin,Yanling Song,Juan Li,Juan Li,Xiaolei Zuo,Chaoyong Yang,Chaoyong Yang +13 more
TL;DR: The occurrence of EET is confirmed in mouse gut microbiotas cultured in vitro and a characteristic catalytic wave was observed in the gut of conven-tional, but not germ-free mouse, proving the existence of in vivo bacterial EET.
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Revealing the in vivo growth and division patterns of mouse gut bacteria.
Liyuan Lin,Qiuyue Wu,Qiuyue Wu,Jia Song,Yahui Du,Juan Gao,Yanling Song,Yanling Song,Wei Wang,Chaoyong Yang,Chaoyong Yang +10 more
TL;DR: This work proposes a method that integrates the use of sequential d-amino acid–based in vivo metabolic labeling with fluorescence in situ hybridization (FISH), for characterizing the growth and division patterns of gut bacteria.
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Quantification of Bacterial Metabolic Activities in the Gut by d-Amino Acid-Based In Vivo Labeling.
Liyuan Lin,Jia Song,Yahui Du,Qiuyue Wu,Juan Gao,Yanling Song,Yanling Song,Chaoyong Yang,Chaoyong Yang,Wei Wang +9 more
TL;DR: A metabolic D-amino acid-based labeling and in situ hybridization facilitated (MeDabLISH) probing strategy for quantitative analysis of the indigenous metabolic status of gut bacteria is proposed, and it is found that Gram-negative genera in the mouse microbiota have stronger metabolic activities during the daytime, and Gram-positive genera have higher activity during the night.
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Visualizing germination of microbiota endospores in the mammalian gut
TL;DR: In this paper , a two-step labeling strategy was proposed to image and quantify the endospores' germination in the recipient's intestines using two types of fluorescent signals simultaneously.
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