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PredicateValue (sorted: default)
rdfs:label
"4-Methoxyamphetamine"
rdf:type
drugbank:drugs
drugbank:description
" 23239-32-9 experimental illicit 4-Methoxyamphetamine is a seratogenic drug of the amphetamine class. The drug acts as a potent and selective serotonin releasing agent. It binds to alpha receptors to mediate these effects. This compound belongs to the amphetamines and derivatives. These are organic compounds containing or derived from 1-phenylpropan-2-amine. Amphetamines and Derivatives Organic Compounds Benzenoids Benzene and Substituted Derivatives Phenethylamines Anisoles Alkyl Aryl Ethers Polyamines Monoalkylamines phenol ether anisole alkyl aryl ether polyamine ether amine primary amine primary aliphatic amine organonitrogen compound logP 1.74 ALOGPS logS -2.2 ALOGPS Water Solubility 9.28e-01 g/l ALOGPS logP 1.65 ChemAxon IUPAC Name 1-(4-methoxyphenyl)propan-2-amine ChemAxon Traditional IUPAC Name P-methoxyamphetamine ChemAxon Molecular Weight 165.2322 ChemAxon Monoisotopic Weight 165.115364107 ChemAxon SMILES COC1=CC=C(CC(C)N)C=C1 ChemAxon Molecular Formula C10H15NO ChemAxon InChI InChI=1S/C10H15NO/c1-8(11)7-9-3-5-10(12-2)6-4-9/h3-6,8H,7,11H2,1-2H3 ChemAxon InChIKey InChIKey=NEGYEDYHPHMHGK-UHFFFAOYSA-N ChemAxon Polar Surface Area (PSA) 35.25 ChemAxon Refractivity 50.17 ChemAxon Polarizability 19.29 ChemAxon Rotatable Bond Count 3 ChemAxon H Bond Acceptor Count 2 ChemAxon H Bond Donor Count 1 ChemAxon pKa (strongest basic) 10.04 ChemAxon Physiological Charge 1 ChemAxon Number of Rings 1 ChemAxon Bioavailability 1 ChemAxon Rule of Five true ChemAxon Ghose Filter true ChemAxon PubChem Compound 31721 PubChem Substance 46507471 ChemSpider 29417 BindingDB 50024209 BE0000647 Sodium-dependent dopamine transporter Human inhibitor # Daws LC, Irvine RJ, Callaghan PD, Toop NP, White JM, Bochner F: Differential behavioural and neurochemical effects of para-methoxyamphetamine and 3,4-methylenedioxymethamphetamine in the rat. Prog Neuropsychopharmacol Biol Psychiatry. 2000 Aug;24(6):955-77. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/11041537 # Hansen JP, Riddle EL, Sandoval V, Brown JM, Gibb JW, Hanson GR, Fleckenstein AE: Methylenedioxymethamphetamine decreases plasmalemmal and vesicular dopamine transport: mechanisms and implications for neurotoxicity. J Pharmacol Exp Ther. 2002 Mar;300(3):1093-100. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/11861820 # Fitzgerald JL, Reid JJ: Effects of methylenedioxymethamphetamine on the release of monoamines from rat brain slices. Eur J Pharmacol. 1990 Nov 27;191(2):217-20. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/1982265 # Fleckenstein AE, Volz TJ, Riddle EL, Gibb JW, Hanson GR: New insights into the mechanism of action of amphetamines. Annu Rev Pharmacol Toxicol. 2007;47:681-98. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17209801 yes Sodium-dependent dopamine transporter Involved in dopamine:sodium symporter activity Amine transporter. Terminates the action of dopamine by its high affinity sodium-dependent reuptake into presynaptic terminals SLC6A3 5p15.3 Membrane; multi-pass membrane protein 69-89 96-116 140-160 238-256 265-282 318-335 347-368 401-420 447-465 481-501 522-541 560-578 6.92 68496.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:11049 GenAtlas SLC6A3 GeneCards SLC6A3 GenBank Gene Database M96670 GenBank Protein Database 553260 UniProtKB Q01959 UniProt Accession SC6A3_HUMAN DA transporter DAT >Sodium-dependent dopamine transporter MSKSKCSVGLMSSVVAPAKEPNAVGPKEVELILVKEQNGVQLTSSTLTNPRQSPVEAQDR ETWGKKIDFLLSVIGFAVDLANVWRFPYLCYKNGGGAFLVPYLLFMVIAGMPLFYMELAL GQFNREGAAGVWKICPILKGVGFTVILISLYVGFFYNVIIAWALHYLFSSFTTELPWIHC NNSWNSPNCSDAHPGDSSGDSSGLNDTFGTTPAAEYFERGVLHLHQSHGIDDLGPPRWQL TACLVLVIVLLYFSLWKGVKTSGKVVWITATMPYVVLTALLLRGVTLPGAIDGIRAYLSV DFYRLCEASVWIDAATQVCFSLGVGFGVLIAFSSYNKFTNNCYRDAIVTTSINSLTSFSS GFVVFSFLGYMAQKHSVPIGDVAKDGPGLIFIIYPEAIATLPLSSAWAVVFFIMLLTLGI DSAMGGMESVITGLIDEFQLLHRHRELFTLFIVLATFLLSLFCVTNGGIYVFTLLDHFAA GTSILFGVLIEAIGVAWFYGVGQFSDDIQQMTGQRPSLYWRLCWKLVSPCFLLFVVVVSI VTFRPPHYGAYIFPDWANALGWVIATSSMAMVPIYAAYKFCSLPGSFREKLAYAIAPEKD RELVDRGEVRQFTLRHWLKV >1863 bp ATGAGTAAGAGCAAATGCTCCGTGGGACTCATGTCTTCCGTGGTGGCCCCGGCTAAGGAG CCCAATGCCGTGGGCCCGAAGGAGGTGGAGCTCATCCTTGTCAAGGAGCAGAACGGAGTG CAGCTCACCAGCTCCACCCTCACCAACCCGCGGCAGAGCCCCGTGGAGGCCCAGGATCGG GAGACCTGGGGCAAGAAGATCGACTTTCTCCTGTCCGTCATTGGCTTTGCTGTGGACCTG GCCAACGTCTGGCGGTTCCCCTACCTGTGCTACAAAAATGGTGGCGGTGCCTTCCTGGTC CCCTACCTGCTCTTCATGGTCATTGCTGGGATGCCACTTTTCTACATGGAGCTGGCCCTC GGCCAGTTCAACAGGGAAGGGGCCGCTGGTGTCTGGAAGATCTGCCCCATACTGAAAGGT GTGGGCTTCACGGTCATCCTCATCTCACTGTATGTCGGCTTCTTCTACAACGTCATCATC GCCTGGGCGCTGCACTATCTCTTCTCCTCCTTCACCACGGAGCTCCCCTGGATCCACTGC AACAACTCCTGGAACAGCCCCAACTGCTCGGATGCCCATCCTGGTGACTCCAGTGGAGAC AGCTCGGGCCTCAACGACACTTTTGGGACCACACCTGCTGCCGAGTACTTTGAACGTGGC GTGCTGCACCTCCACCAGAGCCATGGCATCGACGACCTGGGGCCTCCGCGGTGGCAGCTC ACAGCCTGCCTGGTGCTGGTCATCGTGCTGCTCTACTTCAGCCTCTGGAAGGGCGTGAAG ACCTCAGGGAAGGTGGTATGGATCACAGCCACCATGCCATACGTGGTCCTCACTGCCCTG CTCCTGCGTGGGGTCACCCTCCCTGGAGCCATAGACGGCATCAGAGCATACCTGAGCGTT GACTTCTACCGGCTCTGCGAGGCGTCTGTTTGGATTGACGCGGCCACCCAGGTGTGCTTC TCCCTGGGCGTGGGGTTCGGGGTGCTGATCGCCTTCTCCAGCTACAACAAGTTCACCAAC AACTGCTACAGGGACGCGATTGTCACCACCTCCATCAACTCCCTGACGAGCTTCTCCTCC GGCTTCGTCGTCTTCTCCTTCCTGGGGTACATGGCACAGAAGCACAGTGTGCCCATCGGG GACGTGGCCAAGGACGGGCCAGGGCTGATCTTCATCATCTACCCGGAAGCCATCGCCACG CTCCCTCTGTCCTCAGCCTGGGCCGTGGTCTTCTTCATCATGCTGCTCACCCTGGGTATC GACAGCGCCATGGGTGGTATGGAGTCAGTGATCACCGGGCTCATCGATGAGTTCCAGCTG CTGCACAGACACCGTGAGCTCTTCACGCTCTTCATCGTCCTGGCGACCTTCCTCCTGTCC CTGTTCTGCGTCACCAACGGTGGCATCTACGTCTTCACGCTCCTGGACCATTTTGCAGCC GGCACGTCCATCCTCTTTGGAGTGCTCATCGAAGCCATCGGAGTGGCCTGGTTCTATGGT GTTGGGCAGTTCAGCGACGACATCCAGCAGATGACCGGGCAGCGGCCCAGCCTGTACTGG CGGCTGTGCTGGAAGCTGGTCAGCCCCTGCTTTCTCCTGTTCGTGGTCGTGGTCAGCATT GTGACCTTCAGACCCCCCCACTACGGAGCCTACATCTTCCCCGACTGGGCCAACGCGCTG GGCTGGGTCATCGCCACATCCTCCATGGCCATGGTGCCCATCTATGCGGCCTACAAGTTC TGCAGCCTGCCTGGGTCCTTTCGAGAGAAACTGGCCTACGCCATTGCACCCGAGAAGGAC CGTGAGCTGGTGGACAGAGGGGAGGTGCGCCAGTTCACGCTCCGCCACTGGCTCAAGGTG TAG PF00209 SNF component cell component intrinsic to membrane component integral to membrane component membrane component integral to plasma membrane function dopamine:sodium symporter activity function transporter activity function neurotransmitter transporter activity function neurotransmitter:sodium symporter activity process transport process neurotransmitter transport process physiological process process cellular physiological process BE0000749 Sodium-dependent serotonin transporter Human inhibitor # Daws LC, Irvine RJ, Callaghan PD, Toop NP, White JM, Bochner F: Differential behavioural and neurochemical effects of para-methoxyamphetamine and 3,4-methylenedioxymethamphetamine in the rat. Prog Neuropsychopharmacol Biol Psychiatry. 2000 Aug;24(6):955-77. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/11041537 # Shankaran M, Yamamoto BK, Gudelsky GA: Involvement of the serotonin transporter in the formation of hydroxyl radicals induced by 3,4-methylenedioxymethamphetamine. Eur J Pharmacol. 1999 Dec 3;385(2-3):103-10. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/10607865 # Whitworth TL, Herndon LC, Quick MW: Psychostimulants differentially regulate serotonin transporter expression in thalamocortical neurons. J Neurosci. 2002 Jan 1;22(1):RC192. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/11756522 # Szabo Z, McCann UD, Wilson AA, Scheffel U, Owonikoko T, Mathews WB, Ravert HT, Hilton J, Dannals RF, Ricaurte GA: Comparison of (+)-(11)C-McN5652 and (11)C-DASB as serotonin transporter radioligands under various experimental conditions. J Nucl Med. 2002 May;43(5):678-92. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/11994534 # Boot BP, Mechan AO, McCann UD, Ricaurte GA: MDMA- and p-chlorophenylalanine-induced reduction in 5-HT concentrations: effects on serotonin transporter densities. Eur J Pharmacol. 2002 Oct 25;453(2-3):239-44. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/12398910 # Saldana SN, Barker EL: Temperature and 3,4-methylenedioxymethamphetamine alter human serotonin transporter-mediated dopamine uptake. Neurosci Lett. 2004 Jan 16;354(3):209-12. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/14700733 # Bogen IL, Haug KH, Myhre O, Fonnum F: Short- and long-term effects of MDMA ("ecstasy") on synaptosomal and vesicular uptake of neurotransmitters in vitro and ex vivo. Neurochem Int. 2003 Sep-Oct;43(4-5):393-400. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/12742084 yes Sodium-dependent serotonin transporter Involved in serotonin:sodium symporter activity Terminates the action of serotonine by its high affinity sodium-dependent reuptake into presynaptic terminals SLC6A4 17q11.1-q12 Membrane; multi-pass membrane protein 88-108 116-135 160-180 253-271 280-297 333-350 362-383 417-436 464-482 498-518 539-558 577-595 6.17 70325.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:11050 GenAtlas SLC6A4 GeneCards SLC6A4 GenBank Gene Database X70697 GenBank Protein Database 36433 UniProtKB P31645 UniProt Accession SC6A4_HUMAN 5HT transporter 5HTT >Sodium-dependent serotonin transporter METTPLNSQKQLSACEDGEDCQENGVLQKVVPTPGDKVESGQISNGYSAVPSPGAGDDTR HSIPATTTTLVAELHQGERETWGKKVDFLLSVIGYAVDLGNVWRFPYICYQNGGGAFLLP YTIMAIFGGIPLFYMELALGQYHRNGCISIWRKICPIFKGIGYAICIIAFYIASYYNTIM AWALYYLISSFTDQLPWTSCKNSWNTGNCTNYFSEDNITWTLHSTSPAEEFYTRHVLQIH RSKGLQDLGGISWQLALCIMLIFTVIYFSIWKGVKTSGKVVWVTATFPYIILSVLLVRGA TLPGAWRGVLFYLKPNWQKLLETGVWIDAAAQIFFSLGPGFGVLLAFASYNKFNNNCYQD ALVTSVVNCMTSFVSGFVIFTVLGYMAEMRNEDVSEVAKDAGPSLLFITYAEAIANMPAS TFFAIIFFLMLITLGLDSTFAGLEGVITAVLDEFPHVWAKRRERFVLAVVITCFFGSLVT LTFGGAYVVKLLEEYATGPAVLTVALIEAVAVSWFYGITQFCRDVKEMLGFSPGWFWRIC WVAISPLFLLFIICSFLMSPPQLRLFQYNYPYWSIILGYCIGTSSFICIPTYIAYRLIIT PGTFKERIIKSITPETPTEIPCGDIRLNAV >1893 bp ATGGAGACGACGCCCTTGAATTCTCAGAAGCAGCTATCAGCGTGTGAAGATGGAGAAGAT TGTCAGGAAAACGGAGTTCTACAGAAGGTTGTTCCCACCCCAGGGGACAAAGTGGAGTCC GGGCAAATATCCAATGGGTACTCAGCAGTTCCAAGTCCTGGTGCGGGAGATGACACACGG CACTCTATCCCAGCGACCACCACCACCCTAGTGGCTGAGCTTCATCAAGGGGAACGGGAG ACCTGGGGCAAGAAGGTGGATTTCCTTCTCTCAGTGATTGGCTATGCTGTGGACCTGGGC AATGTCTGGCGCTTCCCCTACATATGTTACCAGAATGGAGGGGGGGCATTCCTCCTCCCC TACACCATCATGGCCATTTTTGGGGGAATCCCGCTCTTTTACATGGAGCTCGCACTGGGA CAGTACCACCGAAATGGATGCATTTCAATATGGAGGAAAATCTGCCCGATTTTCAAAGGG ATTGGTTATGCCATCTGCATCATTGCCTTTTACATTGCTTCCTACTACAACACCATCATG GCCTGGGCGCTATACTACCTCATCTCCTCCTTCACGGACCAGCTGCCCTGGACCAGCTGC AAGAACTCCTGGAACACTGGCAACTGCACCAATTACTTCTCCGAGGACAACATCACCTGG ACCCTCCATTCCACGTCCCCTGCTGAAGAATTTTACACGCGCCACGTCCTGCAGATCCAC CGGTCTAAGGGGCTCCAGGACCTGGGGGGCATCAGCTGGCAGCTGGCCCTCTGCATCATG CTGATCTTCACTGTTATCTACTTCAGCATCTGGAAAGGCGTCAAGACCTCTGGCAAGGTG GTGTGGGTGACAGCCACCTTCCCTTATATCATCCTTTCTGTCCTGCTGGTGAGGGGTGCC ACCCTCCCTGGAGCCTGGAGGGGTGTTCTCTTCTACTTGAAACCCAATTGGCAGAAACTC CTGGAGACAGGGGTGTGGATAGATGCAGCCGCTCAGATCTTCTTCTCTCTTGGTCCGGGC TTTGGGGTCCTGCTGGCTTTTGCTAGCTACAACAAGTTCAACAACAACTGCTACCAAGAT GCCCTGGTGACCAGCGTGGTGAACTGCATGACGAGCTTCGTTTCGGGATTTGTCATCTTC ACAGTGCTCGGTTACATGGCTGAGATGAGGAATGAAGATGTGTCTGAGGTGGCCAAAGAC GCAGGTCCCAGCCTCCTCTTCATCACGTATGCAGAAGCGATAGCCAACATGCCAGCGTCC ACTTTCTTTGCCATCATCTTCTTTCTGATGTTAATCACGCTGGGCTTGGACAGCACGTTT GCAGGCTTGGAGGGGGTGATCACGGCTGTGCTGGATGAGTTCCCACACGTCTGGGCCAAG CGCCGGGAGCGGTTCGTGCTCGCCGTGGTCATCACCTGCTTCTTTGGATCCCTGGTCACC CTGACTTTTGGAGGGGCCTACGTGGTGAAGCTGCTGGAGGAGTATGCCACGGGGCCCGCA GTGCTCACTGTCGCGCTGATCGAAGCAGTCGCTGTGTCTTGGTTCTATGGCATCACTCAG TTCTGCAGGGACGTGAAGGAAATGCTCGGCTTCAGCCCGGGGTGGTTCTGGAGGATCTGC TGGGTGGCCATCAGCCCTCTGTTTCTCCTGTTCATCATTTGCAGTTTTCTGATGAGCCCG CCACAACTACGACTTTTCCAATATAATTATCCTTACTGGAGTATCATCTTGGGTTACTGC ATAGGAACCTCATCTTTCATTTGCATCCCCACATATATAGCTTATCGGTTGATCATCACT CCAGGGACATTTAAAGAGCGTATTATTAAAAGTATTACCCCGGAGACACCAACAGAAATT CCTTGTGGGGACATCCGCTTGAATGCTGTGTAA PF00209 SNF PF03491 5HT_transporter component intrinsic to membrane component integral to membrane component membrane component integral to plasma membrane component cell function neurotransmitter transporter activity function neurotransmitter:sodium symporter activity function transporter activity process neurotransmitter transport process physiological process process cellular physiological process process transport BE0000118 Synaptic vesicular amine transporter Human inhibitor # Biezonski DK, Meyer JS: Effects of 3,4-methylenedioxymethamphetamine (MDMA) on serotonin transporter and vesicular monoamine transporter 2 protein and gene expression in rats: implications for MDMA neurotoxicity. J Neurochem. 2010 Feb;112(4):951-62. Epub 2009 Nov 30. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/20002520 # Hansen JP, Riddle EL, Sandoval V, Brown JM, Gibb JW, Hanson GR, Fleckenstein AE: Methylenedioxymethamphetamine decreases plasmalemmal and vesicular dopamine transport: mechanisms and implications for neurotoxicity. J Pharmacol Exp Ther. 2002 Mar;300(3):1093-100. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/11861820 yes Synaptic vesicular amine transporter Carbohydrate transport and metabolism Involved in the ATP-dependent vesicular transport of biogenic amine neurotransmitters. Pumps cytosolic monoamines including dopamine, norepinephrine, serotonin, and histamine into synaptic vesicles. Requisite for vesicular amine storage prior to secretion via exocytosis SLC18A2 10q25 Cytoplasmic vesicle; cytoplasmic vesicle membrane; multi-pass membrane protein 21-41 130-150 160-180 190-210 220-242 249-271 292-311 329-352 358-378 390-410 415-435 441-462 5.91 55714.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:10935 GenAtlas SLC18A2 GeneCards SLC18A2 GenBank Gene Database L09118 GenBank Protein Database 292335 UniProtKB Q05940 UniProt Accession VMAT2_HUMAN Monoamine transporter Solute carrier family 18 member 2 VAT2 Vesicular amine transporter 2 >Synaptic vesicular amine transporter MALSELALVRWLQESRRSRKLILFIVFLALLLDNMLLTVVVPIIPSYLYSIKHEKNATEI QTARPVHTASISDSFQSIFSYYDNSTMVTGNATRDLTLHQTATQHMVTNASAVPSDCPSE DKDLLNENVQVGLLFASKATVQLITNPFIGLLTNRIGYPIPIFAGFCIMFVSTIMFAFSS SYAFLLIARSLQGIGSSCSSVAGMGMLASVYTDDEERGNVMGIALGGLAMGVLVGPPFGS VLYEFVGKTAPFLVLAALVLLDGAIQLFVLQPSRVQPESQKGTPLTTLLKDPYILIAAGS ICFANMGIAMLEPALPIWMMETMCSRKWQLGVAFLPASISYLIGTNIFGILAHKMGRWLC ALLGMIIVGVSILCIPFAKNIYGLIAPNFGVGFAIGMVDSSMMPIMGYLVDLRHVSVYGS VYAIADVAFCMGYAIGPSAGGAIAKAIGFPWLMTIIGIIDILFAPLCFFLRSPPAKEEKM AILMDHNCPIKTKMYTQNNIQSYPIGEDEESESD >1545 bp ATGGCCCTGAGCGAGCTGGCGCTGGTCCGCTGGCTGCAGGAGAGCCGCCGCTCGCGGAAG CTCATCCTGTTCATCGTGTTCCTGGCGCTGCTGCTGGACAACATGCTGCTCACTGTCGTG GTCCCCATCATCCCAAGTTATCTGTACAGCATTAAGCATGAGAAGAATGCTACAGAAATC CAGACGGCCAGGCCAGTGCACACTGCCTCCATCTCAGACAGCTTCCAGAGCATCTTCTCC TATTATGATAACTCGACTATGGTCACCGGGAATGCTACCAGAGACCTGACACTTCATCAG ACCGCCACACAGCACATGGTGACCAACGCGTCCGCTGTTCCTTCCGACTGTCCCAGTGAA GACAAAGACCTCCTGAATGAAAACGTGCAAGTTGGTCTGTTGTTTGCCTCGAAAGCCACC GTCCAGCTCATCACCAACCCTTTCATAGGACTACTGACCAACAGAATTGGCTATCCAATT CCCATATTTGCGGGATTCTGCATCATGTTTGTCTCAACAATTATGTTTGCCTTCTCCAGC AGCTATGCCTTCCTGCTGATTGCCAGGTCGCTGCAGGGCATCGGCTCGTCCTGCTCCTCT GTGGCTGGGATGGGCATGCTTGCCAGTGTCTACACAGATGATGAAGAGAGAGGCAACGTC ATGGGAATCGCCTTGGGAGGCCTGGCCATGGGGGTCTTAGTGGGCCCCCCCTTCGGGAGT GTGCTCTATGAGTTTGTGGGGAAGACGGCTCCGTTCCTGGTGCTGGCCGCCCTGGTACTC TTGGATGGAGCTATTCAGCTCTTTGTGCTCCAGCCGTCCCGGGTGCAGCCAGAGAGTCAG AAGGGGACACCCCTAACCACGCTGCTGAAGGACCCGTACATCCTCATTGCTGCAGGCTCC ATCTCCTTTGCAAACATGGGCATCGCCATGCTGGAGCCAGCCCTGCCCATCTGGATGATG GAGACCATGTGTTCCCGCAAGTGGCAGCTGGGCGTTGCCTTCTTGCCAGCTAGTATCTCT TATCTCATTGGAACCAATATTTTTGGGATACTTGCACACACAATGGGGAGGTGGCTTTGT GCTCTTCTGGGAATGATAATTGTTGGAGTCAGCATTTTATGTATTCCATTTCCAAAAAAC ATTTATGGACTCATAGCTCCGAACTTTGGAGTTGGTTTTGCAAATGGAATGGTGGATTCG TCAATGATGCCTATCATGGGCTACCTCGTAGACCTGCGGCACGTGTCCGTCTATGGGAGT GTGTACGCCATTGCGGATGTGGCATTTTGTATGGGGTATGCTATAGGTCCTTCTGCTGGT GGTGCTATTGCAAAGGCAATTGGATTTCCATGGCTCATGACAATTATTGGGATAATTGAT ATTCTTTTTGCCCCTCTCTGCTTTTTTCTTCGAAGTCCACCTGCCAAAGAAGAAAAAATG GCTATTCTCATGGATCACAACTGCCCTATTAAAACAAAAATGTACACTCAGAATAATATC CAGTCATATCCGATAGGTGAAGATGAAGAATCTGAAAGTGACTGA PF07690 MFS_1 component cell component intrinsic to membrane component integral to membrane component membrane function transporter activity process transport process physiological process process cellular physiological process BE0000501 Alpha-1A adrenergic receptor Human agonist # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 yes Alpha-1A adrenergic receptor Involved in alpha1-adrenergic receptor activity This alpha-adrenergic receptor mediates its action by association with G proteins that activate a phosphatidylinositol- calcium second messenger system. Its effect is mediated by G(q) and G(11) proteins ADRA1A 8p21-p11.2 Membrane; multi-pass membrane protein 28-51 65-88 100-122 144-167 182-205 274-297 306-329 9.23 51487.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:277 GenAtlas ADRA1A GeneCards ADRA1A GenBank Gene Database D25235 GenBank Protein Database 433201 IUPHAR 22 Guide to Pharmacology 4 UniProtKB P35348 UniProt Accession ADA1A_HUMAN Alpha 1A- adrenoreceptor Alpha 1A-adrenoceptor Alpha adrenergic receptor 1c Alpha-1C adrenergic receptor >Alpha-1A adrenergic receptor MVFLSGNASDSSNCTQPPAPVNISKAILLGVILGGLILFGVLGNILVILSVACHRHLHSV THYYIVNLAVADLLLTSTVLPFSAIFEVLGYWAFGRVFCNIWAAVDVLCCTASIMGLCII SIDRYIGVSYPLRYPTIVTQRRGLMALLCVWALSLVISIGPLFGWRQPAPEDETICQINE EPGYVLFSALGSFYLPLAIILVMYCRVYVVAKRESRGLKSGLKTDKSDSEQVTLRIHRKN APAGGSGMASAKTKTHFSVRLLKFSREKKAAKTLGIVVGCFVLCWLPFFLVMPIGSFFPD FKPSETVFKIVFWLGYLNSCINPIIYPCSSQEFKKAFQNVLRIQCLCRKQSSKHALGYTL HPPSQAVEGQHKDMVRIPVGSRETFYRISKTDGVCEWKFFSSMPRGSARITVSKDQSSCT TARVRSKSFLQVCCCVGPSTPSLDKNHQVPTIKVHTISLSENGEEV >1401 bp ATGGTGTTTCTCTCGGGAAATGCTTCCGACAGCTCCAACTGCACCCAACCGCCGGCACCG GTGAACATTTCCAAGGCCATTCTGCTCGGGGTGATCTTGGGGGGCCTCATTCTTTTCGGG GTGCTGGGTAACATCCTAGTGATCCTCTCCGTAGCCTGTCACCGACACCTGCACTCAGTC ACGCACTACTACATCGTCAACCTGGCGGTGGCCGACCTCCTGCTCACCTCCACGGTGCTG CCCTTCTCCGCCATCTTCGAGGTCCTAGGCTACTGGGCCTTCGGCAGGGTCTTCTGCAAC ATCTGGGCGGCAGTGGATGTGCTGTGCTGCACCGCGTCCATCATGGGCCTCTGCATCATC TCCATCGACCGCTACATCGGCGTGAGCTACCCGCTGCGCTACCCAACCATCGTCACCCAG AGGAGGGGTCTCATGGCTCTGCTCTGCGTCTGGGCACTCTCCCTGGTCATATCCATTGGA CCCCTGTTCGGCTGGAGGCAGCCGGCCCCCGAGGACGAGACCATCTGCCAGATCAACGAG GAGCCGGGCTACGTGCTCTTCTCAGCGCTGGGCTCCTTCTACCTGCCTCTGGCCATCATC CTGGTCATGTACTGCCGCGTCTACGTGGTGGCCAAGAGGGAGAGCCGGGGCCTCAAGTCT GGCCTCAAGACCGACAAGTCGGACTCGGAGCAAGTGACGCTCCGCATCCATCGGAAAAAC GCCCCGGCAGGAGGCAGCGGGATGGCCAGCGCCAAGACCAAGACGCACTTCTCAGTGAGG CTCCTCAAGTTCTCCCGGGAGAAGAAAGCGGCCAAAACGCTGGGCATCGTGGTCGGCTGC TTCGTCCTCTGCTGGCTGCCTTTTTTCTTAGTCATGCCCATTGGGTCTTTCTTCCCTGAT TTCAAGCCCTCTGAAACAGTTTTTAAAATAGTATTTTGGCTCGGATATCTAAACAGCTGC ATCAACCCCATCATATACCCATGCTCCAGCCAAGAGTTCAAAAAGGCCTTTCAGAATGTC TTGAGAATCCAGTGTCTCCGCAGAAAGCAGTCTTCCAAACATGCCCTGGGCTACACCCTG CACCCGCCCAGCCAGGCCGTGGAAGGGCAACACAAGGACATGGTGCGCATCCCCGTGGGA TCAAGAGAGACCTTCTACAGGATCTCCAAGACGGATGGCGTTTGTGAATGGAAATTTTTC TCTTCCATGCCCCGTGGATCTGCCAGGATTACAGTGTCCAAAGACCAATCCTCCTGTACC ACAGCCCGGGTGAGAAGTAAAAGCTTTTTGGAGGTCTGCTGCTGTGTAGGGCCCTCAACC CCCAGCCTTGACAAGAACCATCAAGTTCCAACCATTAAGGTCCACACCATCTCCCTCAGT GAGAACGGGGAGGAAGTCTAG PF00001 7tm_1 component cell component intrinsic to membrane component integral to membrane component membrane function amine receptor activity function signal transducer activity function adrenoceptor activity function receptor activity function alpha-adrenergic receptor activity function transmembrane receptor activity function alpha1-adrenergic receptor activity function G-protein coupled receptor activity function rhodopsin-like receptor activity process cell communication process signal transduction process cell surface receptor linked signal transduction process G-protein coupled receptor protein signaling pathway process cellular process BE0000289 Alpha-2A adrenergic receptor Human agonist # Overington JP, Al-Lazikani B, Hopkins AL: How many drug targets are there? Nat Rev Drug Discov. 2006 Dec;5(12):993-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17139284 # Imming P, Sinning C, Meyer A: Drugs, their targets and the nature and number of drug targets. Nat Rev Drug Discov. 2006 Oct;5(10):821-34. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/17016423 yes Alpha-2A adrenergic receptor Involved in alpha2-adrenergic receptor activity Alpha-2 adrenergic receptors mediate the catecholamine- induced inhibition of adenylate cyclase through the action of G proteins. The rank order of potency for agonists of this receptor is oxymetazoline > clonidine > epinephrine > norepinephrine > phenylephrine > dopamine > p-synephrine > p-tyramine > serotonin = p-octopamine. For antagonists, the rank order is yohimbine > phentolamine = mianserine > chlorpromazine = spiperone = prazosin > propanolol > alprenolol = pindolol ADRA2A 10q24-q26 Membrane; multi-pass membrane protein 34-59 71-96 107-129 150-173 193-217 375-399 407-430 10.2 48957.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:281 GenAtlas ADRA2A GeneCards ADRA2A GenBank Gene Database M23533 GenBank Protein Database 178196 IUPHAR 25 Guide to Pharmacology 4 UniProtKB P08913 UniProt Accession ADA2A_HUMAN Alpha-2 adrenergic receptor subtype C10 Alpha-2A adrenoceptor Alpha-2A adrenoreceptor Alpha-2AAR >Alpha-2A adrenergic receptor MGSLQPDAGNASWNGTEAPGGGARATPYSLQVTLTLVCLAGLLMLLTVFGNVLVIIAVFT SRALKAPQNLFLVSLASADILVATLVIPFSLANEVMGYWYFGKAWCEIYLALDVLFCTSS IVHLCAISLDRYWSITQAIEYNLKRTPRRIKAIIITVWVISAVISFPPLISIEKKGGGGG PQPAEPRCEINDQKWYVISSCIGSFFAPCLIMILVYVRIYQIAKRRTRVPPSRRGPDAVA APPGGTERRPNGLGPERSAGPGGAEAEPLPTQLNGAPGEPAPAGPRDTDALDLEESSSSD HAERPPGPRRPERGPRGKGKARASQVKPGDSLPRRGPGATGIGTPAAGPGEERVGAAKAS RWRGRQNREKRFTFVLAVVIGVFVVCWFPFFFTYTLTAVGCSVPRTLFKFFFWFGYCNSS LNPVIYTIFNHDFRRAFKKILCRGDRKRIV >1353 bp ATGGGCTCCCTGCAGCCGGACGCGGGCAACGCGAGCTGGAACGGGACCGAGGCGCCGGGG GGCGGCGCCCGGGCCACCCCTTACTCCCTGCAGGTGACGCTGACGCTGGTGTGCCTGGCC GGCCTGCTCATGCTGCTCACCGTGTTCGGCAACGTGCTCGTCATCATCGCCGTGTTCACG AGCCGCGCGCTCAAGGCGCCCCAAAACCTCTTCCTGGTGTCTCTGGCCTCGGCCGACATC CTGGTGGCCACGCTCGTCATCCCTTTCTCGCTGGCCAACGAGGTCATGGGCTACTGGTAC TTCGGCAAGGCTTGGTGCGAGATCTACCTGGCGCTCGACGTGCTCTTCTGCACGTCGTCC ATCGTGCACCTGTGCGCCATCAGCCTGGACCGCTACTGGTCCATCACACAGGCCATCGAG TACAACCTGAAGCGCACGCCGCGCCGCATCAAGGCCATCATCATCACCGTGTGGGTCATC TCGGCCGTCATCTCCTTCCCGCCGCTCATCTCCATCGAGAAGAAGGGCGGCGGCGGCGGC CCGCAGCCGGCCGAGCCGCGCTGCGAGATCAACGACCAGAAGTGGTACGTCATCTCGTCG TGCATCGGCTCCTTCTTCGCTCCCTGCCTCATCATGATCCTGGTCTACGTGCGCATCTAC CAGATCGCCAAGCGTCGCACCCGCGTGCCACCCAGCCGCCGGGGTCCGGACGCCGTCGCC GCGCCGCCGGGGGGCACCGAGCGCAGGCCCAACGGTCTGGGCCCCGAGCGCAGCGCGGGC CCGGGGGGCGCAGAGGCCGAACCGCTGCCCACCCAGCTCAACGGCGCCCCTGGCGAGCCC GCGCCGGCCGGGCCGCGCGACACCGACGCGCTGGACCTGGAGGAGAGCTCGTCTTCCGAC CACGCCGAGCGGCCTCCAGGGCCCCGCAGACCCGAGCGCGGTCCCCGGGGCAAAGGCAAG GCCCGAGCGAGCCAGGTGAAGCCGGGCGACAGCCTGCGCGGCGCGGGCCGGGGGCGACGG GGATCGGGACGCCGGCTGCAGGGCCGGGGGAGGAGCGCGTCGGGGCTGCCAAGGCGTCGC GCTGGCGCGGGCGGGCAGAACCGCGAGAAGCGCTTCACGTTCGTGCTGGCCGTGGTCATC GGAGTGTTCGTGGTGTGCTGGTTCCCCTTCTTCTTCACCTACACGCTCACGGCCGTCGGG TGCTCCGTGCCACGCACGCTCTTCAAATTCTTCTTCTGGTTCGGCTACTGCAACAGCTCG TTGAACCCGGTCATCTACACCATCTTCAACCACGATTTCCGCCGCGCCTTCAAGAAGATC CTCTGTCGGGGGGACAGGAAGCGGATCGTGTGA PF00001 7tm_1 component integral to membrane component membrane component cell component intrinsic to membrane function amine receptor activity function signal transducer activity function adrenoceptor activity function receptor activity function alpha-adrenergic receptor activity function transmembrane receptor activity function alpha2-adrenergic receptor activity function G-protein coupled receptor activity function rhodopsin-like receptor activity process G-protein coupled receptor protein signaling pathway process cellular process process cell communication process signal transduction process cell surface receptor linked signal transduction BE0002198 Amine oxidase [flavin-containing] A Human inhibitor # Green AL, El Hait MA: p-Methoxyamphetamine, a potent reversible inhibitor of type-A monoamine oxidase in vitro and in vivo. J Pharm Pharmacol. 1980 Apr;32(4):262-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/6103055 # Ask AL, Fagervall I, Ross SB: Selective inhibition of monoamine oxidase in monoaminergic neurons in the rat brain. Naunyn Schmiedebergs Arch Pharmacol. 1983 Sep;324(2):79-87. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/6646243 unknown Amine oxidase [flavin-containing] A Amino acid transport and metabolism Catalyzes the oxidative deamination of biogenic and xenobiotic amines and has important functions in the metabolism of neuroactive and vasoactive amines in the central nervous system and peripheral tissues. MAOA preferentially oxidizes biogenic amines such as 5-hydroxytryptamine (5-HT), norepinephrine and epinephrine MAOA Xp11.3 Mitochondrion 498-518 7.96 59682.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:6833 GenAtlas MAOA GeneCards MAOA GenBank Gene Database M68840 GenBank Protein Database 187353 UniProtKB P21397 UniProt Accession AOFA_HUMAN EC 1.4.3.4 MAO-A Monoamine oxidase type A >Amine oxidase [flavin-containing] A MENQEKASIAGHMFDVVVIGGGISGLSAAKLLTEYGVSVLVLEARDRVGGRTYTIRNEHV DYVDVGGAYVGPTQNRILRLSKELGIETYKVNVSERLVQYVKGKTYPFRGAFPPVWNPIA YLDYNNLWRTIDNMGKEIPTDAPWEAQHADKWDKMTMKELIDKICWTKTARRFAYLFVNI NVTSEPHEVSALWFLWYVKQCGGTTRIFSVTNGGQERKFVGGSGQVSERIMDLLGDQVKL NHPVTHVDQSSDNIIIETLNHEHYECKYVINAIPPTLTAKIHFRPELPAERNQLIQRLPM GAVIKCMMYYKEAFWKKKDYCGCMIIEDEDAPISITLDDTKPDGSLPAIMGFILARKADR LAKLHKEIRKKKICELYAKVLGSQEALHPVHYEEKNWCEEQYSGGCYTAYFPPGIMTQYG RVIRQPVGRIFFAGTETATKWSGYMEGAVEAGERAAREVLNGLGKVTEKDIWVQEPESKD VPAVEITHTFWERNLPSVSGLLKIIGFSTSVTALGFVLYKYKLLPRS >1584 bp ATGGAGAATCAAGAGAAGGCGAGTATCGCGGGCCACATGTTCGACGTAGTCGTGATCGGA GGTGGCATTTCAGGACTATCTGCTGCCAAACTCTTGACTGAATATGGCGTTAGTGTTTTG GTTTTAGAAGCTCGGGACAGGGTTGGAGGAAGAACATATACTATAAGGAATGAGCATGTT GATTACGTAGATGTTGGTGGAGCTTATGTGGGACCAACCCAAAACAGAATCTTACGCTTG TCTAAGGAGCTGGGCATAGAGACTTACAAAGTGAATGTCAGTGAGCGTCTCGTTCAATAT GTCAAGGGGAAAACATATCCATTTCGGGGCGCCTTTCCACCAGTATGGAATCCCATTGCA TATTTGGATTACAATAATCTGTGGAGGACAATAGATAACATGGGGAAGGAGATTCCAACT GATGCACCCTGGGAGGCTCAACATGCTGACAAATGGGACAAAATGACCATGAAAGAGCTC ATTGACAAAATCTGCTGGACAAAGACTGCTAGGCGGTTTGCTTATCTTTTTGTGAATATC AATGTGACCTCTGAGCCTCACGAAGTGTCTGCCCTGTGGTTCTTGTGGTATGTGAAGCAG TGCGGGGGCACCACTCGGATATTCTCTGTCACCAATGGTGGCCAGGAACGGAAGTTTGTA GGTGGATCTGGTCAAGTGAGCGAACGGATAATGGACCTCCTCGGAGACCAAGTGAAGCTG AACCATCCTGTCACTCACGTTGACCAGTCAAGTGACAACATCATCATAGAGACGCTGAAC CATGAACATTATGAGTGCAAATACGTAATTAATGCGATCCCTCCGACCTTGACTGCCAAG ATTCACTTCAGACCAGAGCTTCCAGCAGAGAGAAACCAGTTAATTCAGCGGCTTCCAATG GGAGCTGTCATTAAGTGCATGATGTATTACAAGGAGGCCTTCTGGAAGAAGAAGGATTAC TGTGGCTGCATGATCATTGAAGATGAAGATGCTCCAATTTCAATAACCTTGGATGACACC AAGCCTGATGGGTCACTGCCTGCCATCATGGGCTTCATTCTTGCCCGGAAAGCTGATCGA CTTGCTAAGCTACATAAGGAAATAAGGAAGAAGAAAATCTGTGAGCTCTATGCCAAAGTG CTGGGATCCCAAGAAGCTTTACATCCAGTGCATTATGAAGAGAAGAACTGGTGTGAGGAG CAGTACTCTGGGGGCTGCTACACGGCCTACTTCCCTCCTGGGATCATGACTCAATATGGA AGGGTGATTCGTCAACCCGTGGGCAGGATTTTCTTTGCGGGCACAGAGACTGCCACAAAG TGGAGCGGCTACATGGAAGGGGCAGTTGAGGCTGGAGAACGAGCAGCTAGGGAGGTCTTA AATGGTCTCGGGAAGGTGACCGAGAAAGATATCTGGGTACAAGAACCTGAATCAAAGGAC GTTCCAGCGGTAGAAATCACCCACACCTTCTGGGAAAGGAACCTGCCCTCTGTTTCTGGC CTGCTGAAGATCATTGGATTTTCCACATCAGTAACTGCCCTGGGGTTTGTGCTGTACAAA TACAAGCTCCTGCCACGGTCTTGA PF01593 Amino_oxidase function oxidoreductase activity function catalytic activity process metabolism process cellular metabolism process generation of precursor metabolites and energy process electron transport process physiological process BE0002196 Amine oxidase [flavin-containing] B Human inhibitor # Green AL, El Hait MA: p-Methoxyamphetamine, a potent reversible inhibitor of type-A monoamine oxidase in vitro and in vivo. J Pharm Pharmacol. 1980 Apr;32(4):262-6. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/6103055 # Ask AL, Fagervall I, Ross SB: Selective inhibition of monoamine oxidase in monoaminergic neurons in the rat brain. Naunyn Schmiedebergs Arch Pharmacol. 1983 Sep;324(2):79-87. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/6646243 unknown Amine oxidase [flavin-containing] B Amino acid transport and metabolism Catalyzes the oxidative deamination of biogenic and xenobiotic amines and has important functions in the metabolism of neuroactive and vasoactive amines in the central nervous system and peripheral tissues. MAOB preferentially degrades benzylamine and phenylethylamine MAOB Xp11.23 Mitochondrion 490-516 7.55 58764.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:6834 GenAtlas MAOB GeneCards MAOB GenBank Gene Database S62734 GenBank Protein Database 398415 UniProtKB P27338 UniProt Accession AOFB_HUMAN EC 1.4.3.4 MAO-B Monoamine oxidase type B >Amine oxidase [flavin-containing] B MSNKCDVVVVGGGISGMAAAKLLHDSGLNVVVLEARDRVGGRTYTLRNQKVKYVDLGGSY VGPTQNRILRLAKELGLETYKVNEVERLIHHVKGKSYPFRGPFPPVWNPITYLDHNNFWR TMDDMGREIPSDAPWKAPLAEEWDNMTMKELLDKLCWTESAKQLATLFVNLCVTAETHEV SALWFLWYVKQCGGTTRIISTTNGGQERKFVGGSGQVSERIMDLLGDRVKLERPVIYIDQ TRENVLVETLNHEMYEAKYVISAIPPTLGMKIHFNPPLPMMRNQMITRVPLGSVIKCIVY YKEPFWRKKDYCGTMIIDGEEAPVAYTLDDTKPEGNYAAIMGFILAHKARKLARLTKEER LKKLCELYAKVLGSLEALEPVHYEEKNWCEEQYSGGCYTTYFPPGILTQYGRVLRQPVDR IYFAGTETATHWSGYMEGAVEAGERAAREILHAMGKIPEDEIWQSEPESVDVPAQPITTT FLERHLPSVPGLLRLIGLTTIFSATALGFLAHKRGLLVRV >1560 bp ATGAGCAACAAATGCGACGTGGTCGTGGTGGGGGGCGGCATCTCAGGTATGGCAGCAGCC AAACTTCTGCATGACTCTGGACTGAATGTGGTTGTTCTGGAAGCCCGGGACCGTGTGGGA GGCAGGACTTACACTCTTAGGAACCAAAAGGTTAAATATGTGGACCTTGGAGGATCCTAT GTTGGACCAACCCAGAATCGTATCTTGAGATTAGCCAAGGAGCTAGGATTGGAGACCTAC AAAGTGAATGAGGTTGAGCGTCTGATCCACCATGTAAAGGGCAAATCATACCCCTTCAGG GGGCCATTCCCACCTGTATGGAATCCAATTACCTACTTAGATCATAACAACTTTTGGAGG ACAATGGATGACATGGGGCGAGAGATTCCGAGTGATGCCCCATGGAAGGCTCCCCTTGCA GAAGAGTGGGACAACATGACAATGAAGGAGCTACTGGACAAGCTCTGCTGGACTGAATCT GCAAAGCAGCTTGCCACTCTCTTTGTGAACCTGTGTGTCACTGCAGAGACCCATGAGGTC TCTGCTCTCTGGTTCCTGTGGTATGTGAAGCAGTGTGGAGGCACAACAAGAATCATCTCG ACAACAAATGGAGGACAGGAGAGGAAATTTGTGGGCGGATCTGGTCAAGTGAGTGAGCGG ATAATGGACCTCCTTGGAGACCGAGTGAAGCTGGAGAGGCCTGTGATCTACATTGACCAG ACAAGAGAAAATGTCCTTGTGGAGACCCTAAACCATGAGATGTATGAGGCTAAATATGTG ATTAGTGCTATTCCTCCTACTCTGGGCATGAAGATTCACTTCAATCCCCCTCTGCCAATG ATGAGAAACCAGATGATCACTCGTGTGCCTTTGGGTTCAGTCATCAAGTGTATAGTTTAT TATAAAGAGCCTTTCTGGAGGAAAAAGGATTACTGTGGAACCATGATTATTGATGGAGAA GAAGCTCCAGTTGCCTACACGTTGGATGATACCAAACCTGAAGGCAACTATGCTGCCATA ATGGGATTTATCCTGGCCCACAAAGCCAGAAAACTGGCACGTCTTACCAAAGAGGAAAGG TTGAAGAAACTTTGTGAACTCTATGCCAAGGTTCTGGGTTCCCTAGAAGCTCTGGAGCCA GTGCATTATGAAGAAAAGAACTGGTGTGAGGAGCAGTACTCTGGGGGCTGCTACACAACT TATTTCCCCCCTGGGATCCTGACTCAATATGGAAGGGTTCTACGCCAGCCAGTGGACAGG ATTTACTTTGCAGGCACCGAGACTGCCACACACTGGAGCGGCTACATGGAGGGGGCTGTA GAGGCCGGGGAGAGAGCAGCCCGAGAGATCCTGCATGCCATGGGGAAGATTCCAGAGGAT GAAATCTGGCAGTCAGAACCAGAGTCTGTGGATGTCCCTGCACAGCCCATCACCACCACC TTTTTGGAGAGACATTTGCCCTCCGTGCCAGGCCTGCTCAGGCTGATTGGATTGACCACC ATCTTTTCAGCAACGGCTCTTGGCTTCCTGGCCCACAAAAGGGGGCTACTTGTGAGAGTC PF01593 Amino_oxidase function catalytic activity function oxidoreductase activity process generation of precursor metabolites and energy process electron transport process physiological process process metabolism process cellular metabolism BE0002363 Cytochrome P450 2D6 Human substrate # Flockhart DA. "Drug Interactions: Cytochrome P450 Drug Interaction Table":http://medicine.iupui.edu/clinpharm/ddis/table.asp. Indiana University School of Medicine (2007). Accessed May 28, 2010. # Wu D, Otton SV, Inaba T, Kalow W, Sellers EM: Interactions of amphetamine analogs with human liver CYP2D6. Biochem Pharmacol. 1997 Jun 1;53(11):1605-12. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/9264312 unknown Cytochrome P450 2D6 Secondary metabolites biosynthesis, transport and catabolism Responsible for the metabolism of many drugs and environmental chemicals that it oxidizes. It is involved in the metabolism of drugs such as antiarrhythmics, adrenoceptor antagonists, and tricyclic antidepressants CYP2D6 22q13.1 Endoplasmic reticulum None 7.26 55770.0 Human HUGO Gene Nomenclature Committee (HGNC) HGNC:2625 GenAtlas CYP2D6 GeneCards CYP2D6 GenBank Gene Database M20403 GenBank Protein Database 181350 UniProtKB P10635 UniProt Accession CP2D6_HUMAN CYPIID6 Debrisoquine 4-hydroxylase EC 1.14.14.1 P450-DB1 >Cytochrome P450 2D6 MGLEALVPLAVIVAIFLLLVDLMHRRQRWAARYPPGPLPLPGLGNLLHVDFQNTPYCFDQ LRRRFGDVFSLQLAWTPVVVLNGLAAVREALVTHGEDTADRPPVPITQILGFGPRSQGVF LARYGPAWREQRRFSVSTLRNLGLGKKSLEQWVTEEAACLCAAFANHSGRPFRPNGLLDK AVSNVIASLTCGRRFEYDDPRFLRLLDLAQEGLKEESGFLREVLNAVPVLLHIPALAGKV LRFQKAFLTQLDELLTEHRMTWDPAQPPRDLTEAFLAEMEKAKGNPESSFNDENLRIVVA DLFSAGMVTTSTTLAWGLLLMILHPDVQRRVQQEIDDVIGQVRRPEMGDQAHMPYTTAVI HEVQRFGDIVPLGVTHMTSRDIEVQGFRIPKGTTLITNLSSVLKDEAVWEKPFRFHPEHF LDAQGHFVKPEAFLPFSAGRRACLGEPLARMELFLFFTSLLQHFSFSVPTGQPRPSHHGV FAFLVSPSPYELCAVPR >1494 bp ATGGGGCTAGAAGCACTGGTGCCCCTGGCCGTGATAGTGGCCATCTTCCTGCTCCTGGTG GACCTGATGCACCGGCGCCAACGCTGGGCTGCACGCTACCCACCAGGCCCCCTGCCACTG CCCGGGCTGGGCAACCTGCTGCATGTGGACTTCCAGAACACACCATACTGCTTCGACCAG TTGCGGCGCCGCTTCGGGGACGTGTTCAGCCTGCAGCTGGCCTGGACGCCGGTGGTCGTG CTCAATGGGCTGGCGGCCGTGCGCGAGGCGCTGGTGACCCACGGCGAGGACACCGCCGAC CGCCCGCCTGTGCCCATCACCCAGATCCTGGGTTTCGGGCCGCGTTCCCAAGGGGTGTTC CTGGCGCGCTATGGGCCCGCGTGGCGCGAGCAGAGGCGCTTCTCCGTGTCCACCTTGCGC AACTTGGGCCTGGGCAAGAAGTCGCTGGAGCAGTGGGTGACCGAGGAGGCCGCCTGCCTT TGTGCCGCCTTCGCCAACCACTCCGGACGCCCCTTTCGCCCCAACGGTCTCTTGGACAAA GCCGTGAGCAACGTGATCGCCTCCCTCACCTGCGGGCGCCGCTTCGAGTACGACGACCCT CGCTTCCTCAGGCTGCTGGACCTAGCTCAGGAGGGACTGAAGGAGGAGTCGGGCTTTCTG CGCGAGGTGCTGAATGCTGTCCCCGTCCTCCTGCATATCCCAGCGCTGGCTGGCAAGGTC CTACGCTTCCAAAAGGCTTTCCTGACCCAGCTGGATGAGCTGCTAACTGAGCACAGGATG ACCTGGGACCCAGCCCAGCCCCCCCGAGACCTGACTGAGGCCTTCCTGGCAGAGATGGAG AAGGCCAAGGGGAACCCTGAGAGCAGCTTCAATGATGAGAACCTGCGCATAGTGGTGGCT GACCTGTTCTCTGCCGGGATGGTGACCACCTCGACCACGCTGGCCTGGGGCCTCCTGCTC ATGATCCTACATCCGGATGTGCAGCGCCGTGTCCAACAGGAGATCGACGACGTGATAGGG CAGGTGCGGCGACCAGAGATGGGTGACCAGGCTCACATGCCCTACACCACTGCCGTGATT CATGAGGTGCAGCGCTTTGGGGACATCGTCCCCCTGGGTATGACCCATATGACATCCCGT GACATCGAAGTACAGGGCTTCCGCATCCCTAAGGGAACGACACTCATCACCAACCTGTCA TCGGTGCTGAAGGATGAGGCCGTCTGGGAGAAGCCCTTCCGCTTCCACCCCGAACACTTC CTGGATGCCCAGGGCCACTTTGTGAAGCCGGAGGCCTTCCTGCCTTTCTCAGCAGGCCGC CGTGCATGCCTCGGGGAGCCCCTGGCCCGCATGGAGCTCTTCCTCTTCTTCACCTCCCTG CTGCAGCACTTCAGCTTCTCGGTGCCCACTGGACAGCCCCGGCCCAGCCACCATGGTGTC TTTGCTTTCCTGGTGAGCCCATCCCCCTATGAGCTTTGTGCTGTGCCCCGCTAG PF00067 p450 function oxidoreductase activity function ion binding function cation binding function transition metal ion binding function iron ion binding function binding function tetrapyrrole binding function catalytic activity function heme binding function monooxygenase activity function oxidoreductase activity, acting on paired donors, with incorporation or reduction of molecular oxygen, reduced flavin or flavoprotein as one donor, and incorporation of one atom of oxygen process generation of precursor metabolites and energy process electron transport process physiological process process metabolism process cellular metabolism unknown unknown "
owl:sameAs
drug:EXPT03303

All properties reside in the graph file:///home/swish/src/ClioPatria/guidelines3/drugbank_small.nt

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