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Activity-based metaproteomics driven discovery and enzymological characterization of potential α-galactosidases in the mouse gut microbiome

The gut microbiota offers an extensive resource of enzymes, but many remain uncharacterized. To distinguish the activities of similar annotated proteins and mine the potentially applicable ones in the microbiome, we applied an effective Activity-Based Metaproteomics (ABMP) strategy using a specific...

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Published in:	Communications chemistry 2024-08, Vol.7 (1), p.184-15
Main Authors:	Jiang, Jianbing, Czuchry, Diana, Ru, Yanxia, Peng, Huipai, Shen, Junfeng, Wang, Teng, Zhao, Wenjuan, Chen, Weihua, Sui, Sen-Fang, Li, Yaowang, Li, Nan
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Language:	English
Subjects:	101/28 631/45/607/1164 631/92/96 639/638/45/475 639/638/92/607/1164 82/58 82/80 82/83 Annotations Blood groups Chemistry Chemistry and Materials Science Chemistry/Food Science Enzymes Galactosidase Microbiota Microorganisms Oligosaccharides Raffinose
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container_title	Communications chemistry
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creator	Jiang, Jianbing Czuchry, Diana Ru, Yanxia Peng, Huipai Shen, Junfeng Wang, Teng Zhao, Wenjuan Chen, Weihua Sui, Sen-Fang Li, Yaowang Li, Nan
description	The gut microbiota offers an extensive resource of enzymes, but many remain uncharacterized. To distinguish the activities of similar annotated proteins and mine the potentially applicable ones in the microbiome, we applied an effective Activity-Based Metaproteomics (ABMP) strategy using a specific activity-based probe (ABP) to screen the entire gut microbiome for directly discovering active enzymes and their potential applications, not for exploring host-microbiome interactions. By using an activity-based cyclophellitol aziridine probe specific to α-galactosidases (AGAL), we successfully identified and characterized several gut microbiota enzymes possessing AGAL activities. Cryo-electron microscopy analysis of a newly characterized enzyme (AGLA5) revealed the covalent binding conformations between the AGAL5 active site and the cyclophellitol aziridine ABP, which could provide insights into the enzyme’s catalytic mechanism. The four newly characterized AGALs have diverse potential activities, including raffinose family oligosaccharides (RFOs) hydrolysis and enzymatic blood group transformation. Collectively, we present a ABMP platform that facilitates gut microbiota AGALs discovery, biochemical activity annotations and potential industrial or biopharmaceutical applications. The gut microbiota offers an extensive resource of enzymes, however, many remain uncharacterized. Here, the authors apply an activity-based metaproteomics strategy using an activity-based cyclophellitol aziridine probe specific to α-galactosidases (AGAL), and identify and characterize several gut microbiota enzymes possessing AGAL activities.
doi_str_mv	10.1038/s42004-024-01273-5
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The four newly characterized AGALs have diverse potential activities, including raffinose family oligosaccharides (RFOs) hydrolysis and enzymatic blood group transformation. Collectively, we present a ABMP platform that facilitates gut microbiota AGALs discovery, biochemical activity annotations and potential industrial or biopharmaceutical applications. The gut microbiota offers an extensive resource of enzymes, however, many remain uncharacterized. 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subjects	101/28 631/45/607/1164 631/92/96 639/638/45/475 639/638/92/607/1164 82/58 82/80 82/83 Annotations Blood groups Chemistry Chemistry and Materials Science Chemistry/Food Science Enzymes Galactosidase Microbiota Microorganisms Oligosaccharides Raffinose
title	Activity-based metaproteomics driven discovery and enzymological characterization of potential α-galactosidases in the mouse gut microbiome
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