2012
Amine Oxidases and Reductases
Hines R, Prough R. Amine Oxidases and Reductases. 2012, 1-27. DOI: 10.1002/9780470921920.edm012.Peer-Reviewed Original ResearchNatural environmental chemicalsCytochrome P450-dependent monooxygenasesP450-dependent monooxygenasesAmine oxidationVariety of compoundsParticular reactionAmine oxidaseEnvironmental chemicalsEnzymeGenesMonooxygenasesProteinReductaseEndogenous aminesVariety of drugsOxidationAminesCompoundsOxidaseReactionChemicalsVariety
2007
Mechanisms Regulating Human FMO3 Transcription
Klick D, Hines R. Mechanisms Regulating Human FMO3 Transcription. Drug Metabolism Reviews 2007, 39: 419-442. PMID: 17786630, DOI: 10.1080/03602530701498612.Peer-Reviewed Original ResearchConceptsGC-box binding proteinsHepG2 cellsPromoter characterizationLiver nuclear proteinsNuclear proteinsTransient expressionFMO enzymesDevelopmental expressionBinding proteinTranscriptionAdult regulationProteinSpecific mechanismsEnzymeExpressionCellsNFYMajor roleYY1USF1Oxidative drugsHeterodimersMonooxygenasesReporterIsoforms
2001
Molecular regulation of genes encoding xenobiotic-metabolizing enzymes: mechanisms involving endogenous factors.
Hines R, Luo Z, Cresteil T, Ding X, Prough R, Fitzpatrick J, Ripp S, Falkner K, Ge N, Levine A, Elferink C. Molecular regulation of genes encoding xenobiotic-metabolizing enzymes: mechanisms involving endogenous factors. Drug Metabolism And Disposition 2001, 29: 623-33. PMID: 11302926.Peer-Reviewed Original ResearchConceptsDevelopmental-specific expressionSignal transduction pathwaysMolecular regulationTransduction pathwaysCommon signal transduction pathwayReceptor-mediated signal transduction pathwaysRegulation of xenobioticGenome levelTranscription factorsMolecular mechanismsMolecular biologyEndogenous factorsGenesRegulatory systemXenobiotic-metabolizing enzymesEnzymeRegulationExpressionCytochrome P450Fundamental rolePathwayRapid proliferationTissueBiologyExperimental therapeutics
1994
A Nomenclature for the Mammalian Flavin-Containing Monooxygenase Gene Family Based on Amino Acid Sequence Identities
Lawton M, Cashman J, Cresteil T, Dolphin C, Elfarra A, Hines R, Hodgson E, Kimura T, Ozols J, Phillips I, Philpot R, Poulsen L, Rettie A, Shephard E, Williams D, Ziegler D. A Nomenclature for the Mammalian Flavin-Containing Monooxygenase Gene Family Based on Amino Acid Sequence Identities. Archives Of Biochemistry And Biophysics 1994, 308: 254-257. PMID: 8311461, DOI: 10.1006/abbi.1994.1035.Peer-Reviewed Original ResearchConceptsAmino acid sequenceGene familyAcid sequenceMammalian FMOsMammalian flavinFMO gene familySingle gene familyGene designationIndividual genesOrthologous formsPercentage identitySpecies linesGenesEnzymeFlavinSequenceFMO4FamilyUnambiguous identificationRelated formsFMO1OrthologsFMO2FMO3Nomenclature