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β-Glucuronidases of opportunistic bacteria are the major contributors to xenobiotic-induced toxicity in the gut.

Sci Rep. 2018; 
Dashnyam P,,, Mudududdla R, Hsieh TJ, Lin TC, Lin HY, Chen PY, Hsu CY, Lin CH,,,.
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Codon Optimization The codon-opti- mized RgGUS, BifdGUS, CpGUS and BfGUS genes that had been individually inserted into plasmid pUC57 were purchased from GenScript. Get A Quote

摘要

Gut bacterial β-D-glucuronidases (GUSs) catalyze the removal of glucuronic acid from liver-produced β-D-glucuronides. These reactions can have deleterious consequences when they reverse xenobiotic metabolism. The human gut contains hundreds of GUSs of variable sequences and structures. To understand how any particular bacterial GUS(s) contributes to global GUS activity and affects human health, the individual substrate preference(s) must be known. Herein, we report that representative GUSs vary in their ability to produce various xenobiotics from their respective glucuronides. To attempt to explain the distinct substrate preference, we solved the structure of a bacterial GUS complexed with coumarin-3-β-D-glu... More

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