General Information of Drug-Metabolizing Enzyme (DME ID: DME1242)
DME Name NADPH-dependent oxidoreductase (nfrA), Staphylococcus aureus DME Info
UniProt ID
NRFA_STAA8
EC Number    EC: 1.6.5.2     (Click to Show/Hide the Complete EC Tree)
Oxidoreductase
NADH/NADPH oxidoreductase
Quinone acceptor oxidoreductase
EC: 1.6.5.2
Lineage    Species: Staphylococcus aureus     (Click to Show/Hide the Complete Species Lineage)
Kingdom: Bacteria
Phylum: Firmicutes
Class: Bacilli
Order: Bacillales
Family: Staphylococcaceae
Genus: Staphylococcus
Species: Staphylococcus aureus
Interactome
Disease Specific Interactions between Host Protein and DME (HOSPPI)
      Drug co-metabolism
               Cometabolized drug: Riboflavin Click to Show/Hide the Full List of HOSPPI:        7 HOSPPI
                            Acid phosphatase-like protein 1 (ACP6) Click to Show/Hide the Cometabolization Info
DME ID DME0231 DME Info
Uniprot ID
PPA6_HUMAN
Interaction Name ACP6-nfrA interaction [1], [2]
Description The interaction, between human Acid phosphatase-like protein 1 and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
                            Cytochrome P450 1A1 (CYP1A1) Click to Show/Hide the Cometabolization Info
DME ID DME0006 DME Info
Uniprot ID
CP1A1_HUMAN
Interaction Name CYP1A1-nfrA interaction [1], [3]
Description The interaction, between human Cytochrome P450 1A1 and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
                            Eosinophil peroxidase (EPX) Click to Show/Hide the Cometabolization Info
DME ID DME0244 DME Info
Uniprot ID
PERE_HUMAN
Interaction Name EPX-nfrA interaction [1], [2]
Description The interaction, between human Eosinophil peroxidase and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
                            Prostatic acid phosphatase (ACP3) Click to Show/Hide the Cometabolization Info
DME ID DME0232 DME Info
Uniprot ID
PPAP_HUMAN
Interaction Name ACP3-nfrA interaction [1], [2]
Description The interaction, between human Prostatic acid phosphatase and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
                            Tartrate-resistant acid ATPase (ACP5) Click to Show/Hide the Cometabolization Info
DME ID DME0230 DME Info
Uniprot ID
PPA5_HUMAN
Interaction Name ACP5-nfrA interaction [1], [2]
Description The interaction, between human Tartrate-resistant acid ATPase and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
                            Testicular acid phosphatase (ACP4) Click to Show/Hide the Cometabolization Info
DME ID DME0229 DME Info
Uniprot ID
PPAT_HUMAN
Interaction Name ACP4-nfrA interaction [1], [2]
Description The interaction, between human Testicular acid phosphatase and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
                            Xylosyl phosphatase (PXYLP1) Click to Show/Hide the Cometabolization Info
DME ID DME0250 DME Info
Uniprot ID
PXYP1_HUMAN
Interaction Name PXYLP1-nfrA interaction [1], [2]
Description The interaction, between human Xylosyl phosphatase and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Riboflavin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
               Cometabolized drug: Nitrofural Click to Show/Hide the Full List of HOSPPI:        1 HOSPPI
                            Cytochrome P450 2D6 (CYP2D6) Click to Show/Hide the Cometabolization Info
DME ID DME0009 DME Info
Uniprot ID
CP2D6_HUMAN
Interaction Name CYP2D6-nfrA interaction [1], [4], [5]
Description The interaction, between human Cytochrome P450 2D6 and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Nitrofural, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
               Cometabolized drug: Nitrofurantoin Click to Show/Hide the Full List of HOSPPI:        1 HOSPPI
                            NADPH-cytochrome P450 reductase (CPR) Click to Show/Hide the Cometabolization Info
DME ID DME0076 DME Info
Uniprot ID
NCPR_HUMAN
Interaction Name CPR-nfrA interaction [1], [4], [6]
Description The interaction, between human NADPH-cytochrome P450 reductase and NADPH-dependent oxidoreductase from Staphylococcus aureus which collectively metabolize the drug Nitrofurantoin, is reported to affect the efficacy, safety or bioavailability of this drug via interfering with it metabolism.
References
1 Reduction of polynitroaromatic compounds: the bacterial nitroreductases. FEMS Microbiol Rev. 2008 May;32(3):474-500.
2 An atlas of human metabolism. Sci Signal. 2020 Mar 24;13(624). pii: eaaz1482. (Reaction HMR_6507)
3 Disruption of endogenous regulator homeostasis underlies the mechanism of rat CYP1A1 mRNA induction by metyrapone. Biochem J. 1998 Apr 1;331 ( Pt 1):273-81.
4 The human gut microbiota: metabolism and perspective in obesity. Gut Microbes. 2018 Jul 4;9(4):308-325.
5 Nefazodone pharmacokinetics in depressed children and adolescents. J Am Acad Child Adolesc Psychiatry. 2000 Aug;39(8):1008-16.
6 Role of cytochrome P450 reductase in nitrofurantoin-induced redox cycling and cytotoxicity. Free Radic Biol Med. 2008 Mar 15;44(6):1169-79.

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