Details of Microbiome-DME Interaction (MICBIO)

General Information of Drug-Metabolizing Enzyme (DME ID: DME0468)
DME Name NADPH:quinone reductase (CRYZ), Homo sapiens DME Info
UniProt ID
QOR_HUMAN
EC Number    EC: 1.6.5.5     (Click to Show/Hide the Complete EC Tree)
Oxidoreductase
NADH/NADPH oxidoreductase
Quinone acceptor oxidoreductase
EC: 1.6.5.5
Lineage    Species: Homo sapiens     (Click to Show/Hide the Complete Species Lineage)
Kingdom: Metazoa
Phylum: Chordata
Class: Mammalia
Order: Primates
Family: Hominidae
Genus: Homo
Species: Homo sapiens
Interactome
Interactions between Microbiome and DME (MICBIO)
      Bacteria: Firmicutes
                  Faecalibacterium prausnitzii (firmicutes) Click to Show/Hide the Full List of Drugs:        1 Drugs Metabolized
                              Menadione Click to Show/Hide the Detail
                                 Drug ID DR1022   Drug Info
                                 Interaction Mechanism Human NADPH:quinone reductase (CRYZ) and Faecalibacterium prausnitzii co-metabolize the drug Menadione, which can collectively affect efficacy, safety or bioavailability of this drug. [1], [2]
      Bacteria: Proteobacteria
                  Salmonella enterica (enterobacteria) Click to Show/Hide the Full List of Drugs:        1 Drugs Metabolized
                              Menadione Click to Show/Hide the Detail
                                 Drug ID DR1022   Drug Info
                                 Interaction Mechanism Human NADPH:quinone reductase (CRYZ) and Salmonella enterica co-metabolize the drug Menadione, which can collectively affect efficacy, safety or bioavailability of this drug. [1], [3], [4]
References
1 Role of glutathione reductase during menadione-induced NADPH oxidation in isolated rat hepatocytes. Biochem Pharmacol. 1987 Nov 15;36(22):3879-84.
2 Quinones are growth factors for the human gut microbiota. Microbiome. 2017 Dec 20;5(1):161.
3 Purification and characterization of wild-type and mutant "classical" nitroreductases of Salmonella typhimurium. L33R mutation greatly diminishes binding of FMN to the nitroreductase of S. typhimurium. J Biol Chem. 1998 Sep 11;273(37):23922-8.
4 Identification and functional characterization of arylamine N-acetyltransferases in eubacteria: evidence for highly selective acetylation of 5-aminosalicylic acid. J Bacteriol. 2001 Jun;183(11):3417-27.

If you find any error in data or bug in web service, please kindly report it to Dr. Yin and Dr. Li.