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Acetyl-CoA carboxylase 2


Partner ID 775
Name Acetyl-CoA carboxylase 2
Synonyms 2270
Gene name ACACB
General function Lipid transport and metabolism
Specific function ACC-beta may be involved in the provision of malonyl-CoA or in the regulation of fatty acid oxidation, rather than fatty acid biosynthesis. This protein carries three functions:biotin carboxyl carrier protein, biotin carboxylase, and carboxyltransferase
Gene sequence + ...

ATGGTCTTGCTTCTTTGTCTATCTTGTCTGATTTTCTCCTGTCTGACCTTTTCCTGGTTAAAAATCTGGGAGAAAATGACGGACTCCAAGCCGATCACCAAGAGTAAATCAGAAGCAAACCTCATCCCGAGCCAGGAGCCCTTTCCAGCCTCTGATAACTCAGGGGAGACACCGCAGAGAAATGGGGAGGGCCACACTCTGCACAAAGACACCCAGCCAGGCCGAGCCCAGCCTCCCACAAAGGCCCAAAGATCCGGTCGGCGGAGAAACTCCCTACCACCCTCCCGCCAGAAGCCCCCAAGAAACCCCCTTTCTTCCAGTGACGCAGCACCCTCCCCAGAGCTTCAAGCCAACGGGACTGGGACACAAGGTCTGGAGGCCACAGATACCAATGGCCTGTCCTCCTCAGCCAGGCCCCAGGGCAGCAAGCTGGTCCCCTCCAAAGAAGACAAGAAGCAGGCAAACATCAAGAGGCAGCTGATGACCAACTTCATCCTGGGCTCTTTTGATGACTACTCCTCCGACGAGGACTCTGTTGCTGGCTCATCTCGTGAGTCTACCCGGAAGGGCAGCCGGGCCAGCTTGGGGGCCCTGTCCCTGGAGGCTTATCTGACCACAGGTGAAGCTGAGACCCGCGTCCCCACTATGAGGCCGAGCATGTCGGGACTCCACCTGGTGAAGAGGGGACGGGAACACAAGAAGCTGGACCTGCACAGAGACTTTACCGTGGCTTCTCCCGCTGAGTTTGTCACACGCTTTGGGGGGGATCGGGTCATCGAGAAGGTGCTTATTGCCAACAACGGGATTGCCGCTGTGAAGTGCATGCGCTCCATCCGCAGGTGGGCCTATGAGATGTTCCGCAACGAGCGGGCCATCCGGTTTGTTCGCATGGTGACCCCCGAGGACCTTAAGGCCAACGCAGAGTACATCAAGATGGCGGATCATTACGGGCCCGCCCCAGGAGGGCCCAATAACAACAACTATGCCAACGTGGAGCTGATTGTGGACATTGCCAAGAGAATCCCGTTGCAGGCGGTGTGGGCTGGCTGGGGCCATGCTTTAGAAAACCCTAAACTTCCGGAGCTGCTGTGCAAGAATGGAGTTGCTTTCTTAGGCCCTCCCAGGTTGAGGCCAATGGTGGGTCTAGGAGATAAGATCGCCTCCACCGTTGTCGCCCAGACGCTACAGGTCCCAACCCTGCCCAGGAGTGGAAGCGCCCTGACAGTGGAGTGGACAGAAGATGATCTGCAGCAGGGAAAAAGAATCAGTGTCCCAGAAGATGTTTATGACAAGGGTTGCGTGAAAGACGTAGATGAGGGCTTGGAGGCAGCAGAAAGAATTGGTTTTCCATTGATGATCAAAGCTTCTGAAGGTGGCGGAGGGAAGGGAATCCGGGAAACTGAGAGTGCGGAGGACTTCCCGATCCTTTTCAGACAAGTACAGAGTGAGATCCCAGGCTCGCCCATCTTTCTCATGAAGCTGGCCCAGCACGCCCGTCACCTGGAAGTTCAGATCCTCGCTGACCAGTATGGGAATGCTGTGTCTCTGTTTGGTCGCGACTGCTCCATCCAGCGGCGGCATCAGAAGATCGTTGAGGAAGCACCGGCCACCATCGCGCCGCTGGCCATATTCGAGTTCATGGAGCAGTGTGCCATTCGCCTGGCCAAGACCGTGGGCTATGTGAGTGCAGGGACAGTGGAATACCTCTATAGTCAGGATGGTAGCTTCCACTTCTTGGAGCTGAATCCTCGCTTGCAGGTGGAACATCCCTGCACAGAAATGATTGCTGACGTTAATCTGCCGGCCGCCCAGCTACAGATCGCCATGGGTGCCCCACTGCACCGGCTGAAAGATATCCGGCTTCTGTATGGAGAGTCACCCTGGGGAGACTCCCCAATTTCTTTTGAAAACTCAGCTCATCTCCCCTGCCCCCGAGGCCACGTCATTGCCACCAGAATCACCAGCGAAAACCCAGACGAGGGTTTTAAGCCGAGCTCCGGGACTGTCCAGGAACTGAATTTCCGGAGCAGCAAGAACGTCTGGGGTTACTTCACGGTGGCCGCTACTGGAGGCCTGCACGAGTTTGCGATTTCCCAGTTTGGGCACTGCTTCTCCTGGGGAGAGAACCGGAAAGAGGCCATTTCGAACATGGTGGTGGCTTTGAAGGAACTGTCCCTCCGAGGCGACTTTAGGACTACCGTGGAATACCTCATTAACCTCCTGGAGACCGAGAGCTTCCAGAACAACTACATCGACACCGGGTGGTTGGACTACCTCATTGCTGAGAAAGTGCAAAAGAAACCGAATATCATGCTTGGGGTGGTATGCGGGGCCCTTGAACGTGGAGATGCGATGTTCAGAACGTGCATGACAGATTTCTTACACTCCCTGGAAAGGGGCCAGGTCCTCCCAGCGGATTCACTACTGAACCTCGTAGATGTGGAATTAATTTACGAGGGTGTAAAGTACATTCTAAAGGTGACCCGGCAGTCTCTGACCATGTTCGTTCTCATCATGAATGGCTGCCACATCGAGATTGATGCCCACCGGCTGAATGATGGGGGGCTCCTGCTCTCCTACAATGGGAACAGCTACACCACCTACATGAAGGAAGAGGTTGACAGTTACCGTACCATCGGCAATAAGACGTGTGTTTTTGAGAAGGAGAACGATCCTACAGTCCTGAGATCCCCCTCGGCTGGGAAGCTGACACAGATCACAGTGGAGGATGGGGGCCACGTTGAGGCTGGGAGACGCTACGCTGAGATGGAGGTGATGAAGATGATCATGACCCTGAACGTTCAGGAAAGAGGCCGGGTGAAGTACATCAAGCGTCCAGGTGCGGTGCTGGAAGCAGGCTGCGTGGTGGCCAGGCTGGAGCTCGATGACCCTTCTAAAGTCCACCCGGCTGAACCGTTCACAGGAGAACTCCCTGCCCAGCAGAACACTGCCGACCTCGGAAAGAAACTGCACAGGGTCTTCCACAGCGTCCTGGGAAGCCTCACCAACGTCATGAGTGGCTTTTGTCTGCCAGAGCCGTTTTTTAGCATAAAGCTGAAGGAGTGGGTGCAGAAGCTCATGATGACCCTCCGGCACCCGTCACTGCTGCTGGACGTGCAGGAGATCATGACCAGTCGTGCAGGCCGCATCCCCCCCCCTGTTGAGAAGTCTGTCCGCAAGGTGATGGCCCAGTATGCCAGCAACATCACCTCGGTGCTGTGCCAGTTCCCCAGCCAGCAGATAGCCACCATCCTGGACTGCCATGCAGCCACCCTGCAGCGGAAGGCTGATCGAGAGGTCTTCTTCATCAACACCCAGAGCATGGTGCAGTTGGTCCAGAGGTACCGAAGTGGAATCCGCGGTCATATGAAAACAGTGGTGATCGATCTCTTGAGAAGATACTTGCGTGTTGAGACCATTTTCGGCAAGGCAAGAGATGCTGATGCCAACTCCAGTGGGATGGTGGGGGGCGTGAGGAGCCTGAGCTTTACCTCTGTGTGGGTGGTTTTGTCTCCCCCAGCCCACTACGACAAGTGTGTGATAAACCTCAGGGAACAGTTCAAGCCAGACATGTCCCAGGTGCTGGACTGCATCTTCTCCCACGCACAGGTGACCAAGAAGAACCAGCTGGTGATCATGTTGATCGATGAGCTGTGTGGCCCAGACCCTTCCCTGTCGGACGAGCTGATCTCCATCCTCAACGAGCTCACTCAGCTGAGCAAAAGCGAGCACTGCAAAGTGGCCCTCAGAGCCCGGCAGATCCTGATCGCCTCCCCCTCCTACGAGCTGCGGCATAACCAGGTGGAGTCCATTTTCCTGTCTGCCATTGACATGTACGGCCACCAGTTCTGCCCCGAGAACCTCCAGAAATTAATACTTTCGGAAACAACCATCTTCGACGTCCTGAATACTTTCTTCTATCACGCAAACAAAGTCGTGTGCATGGCGTCCTTGGAGGTTTACGTGGGGGGGGCTTACATCGCCTATGTGTTAAACAGCCTGCAGCACCGGCAGCTCCCGGACGGCACCTGCGTGGTAGAATTCCAGTTCATGCTGCCGTCCTCCCACCCAAACCGGATGACCGTGCCCATCAGCATCACCAACCCTGACCTGCTGAGGCACACGACAGAGCTCTTCATGGACAGCGGCTTCTCCCCACTGTGCCAGCGCATGGGAGCCATGGTAGCCTTCAGGAGATTCGAGGACTTCACCAGAAATTTTGATGAAGTCATCTCTTGCTTCGCCAACGTGCCGAAAGACCCCCCCCTCTTCAGCGAGGCCCGCACCTCCCTATACTCCGAGGATGACTGCAAGAGCCTCAGAGAAGAGCCCATCCACATTCTGAATGTGTCCATCCAGTGTGCGGACCACCTGGAGGATGAGGCACTGGTGCCGATTTTACGTACATTCGTACAGTCCAAGAAAAATATCCTTGTGGATTATGGACTCCGACGAATCCCATTCTTGATTGCCCAAGAGAAAGAATTTCCCAAGTTTTTCACATTCAGAGCAAGAGATGAGTTTGCAGAAGATCGCATTTACCGTCACTTGGAACCTGCCCTGGCTTTCCAGCTGGAACTCAACCGGATGCGTAACTTCGATCTGACCGCCGTGCCCTGTGCCAACCACAAGATGCACCTTTACCTGGGTGCTGCCAAGGTGGAAGGAAGGTATGAAGTGACGGACCATAGGTTCTTCATCCGTGCCATCATCAGGCACTCTGACCTGATCACAAAGGAAGCCTCCTTCGAATACCTGCAGAACGAGGGTGAGCGGCTGCTCCTGGAGGCCATGGACGAGCTGGAGGTGGCGTTCAATAACACCAACGTGCGCACCGACTGCAACCACATCTTCCTCAACTTCGTGCCCACTGTCATCATGGACCCCAACAAGATCGAGGAGTCCGTGCGCTACATGGTTATGCGCTACGGCAGCCGGCTGTGGAAACTCCGTGTGCTACAGGCTGAGGTCAAGATCAACATCCGCCAGACCACCACCGGCAGTGCCGTTCCCATCCGCCTGTTCATCACCAATGAGTCGGGCTACTACCTGGACATCAGCCTCTACAAAGAAGTGACTGACTCCAGATCTGGAAATATCATGTTTCACTCCTTCGGCAACAAGCAAGGGCCCCAGCACGGGATGCTGATCAATACTCCCTACGTCACCAAGGATCTGCTCCAGGCCAAGCGATTCCAGGCCCAGACCCTGGGAACCACCTACATCTATGACTTCCCGGAAATGTTCAGGCAGGCTCTCTTTAAACTGTGGGGCTCCCCAGACAAGTATCCCAAAGACATCCTGACATACACTGAATTAGTGTTGGACTCTCAGGGCCAGCTGGTGGAGATGAACCGACTTCCTGGTGGAAATGAGGTGGGCATGGTGGCCTTCAAAATGAGGTTTAAGACCCAGGAGTACCCGGAAGGACGGGATGTGATCGTCATCGGCAATGACATCACCTTTCGCATTGGATCCTTTGGCCCTGGAGAGGACCTTCTGTACCTGCGGGCATCCGAGATGGCCCGGGCAGAGGCGATTCCCAAAATTTACGTGGCAGCCAACAGTGGCGCCCGTATTGGCATGGCAGAGGAGATCAAACACATGTTCCACGTGGCTTGGGTGGACCCAGAAGACCCCCACAAAGGATTTAAATACCTGTACCTGACTCCCCAAGACTACACCAGAATCAGCTCCCTGAACTCCGTCCACTGTAAACACATCGAGGAAGGAGGAGAGTCCAGATACATGATCACGGATATCATCGGGAAGGATGATGGCTTGGGCGTGGAGAATCTGAGGGGCTCAGGCATGATTGCTGGGGAGTCCTCTCTGGCTTACGAAGAGATCGTCACCATTAGCTTGGTGACCTGCCGAGCCATTGGGATTGGGGCCTACTTGGTGAGGCTGGGCCAGCGAGTGATCCAGGTGGAGAATTCCCACATCATCCTCACAGGAGCAAGTGCTCTCAACAAGGTCCTGGGAAGAGAGGTCTACACATCCAACAACCAGCTGGGTGGCGTTCAGATCATGCATTACAATGGTGTCTCCCACATCACCGTGCCAGATGACTTTGAGGGGGTTTATACCATCCTGGAGTGGCTGTCCTATATGCCAAAGGATAATCACAGCCCTGTCCCTATCATCACACCCACTGACCCCATTGACAGAGAAATTGAATTCCTCCCATCCAGAGCTCCCTACGACCCCCGGTGGATGCTTGCAGGAAGGCCTCACCCAACTCTGAAGGGAACGTGGCAGAGCGGATTCTTTGACCACGGCAGTTTCAAGGAAATCATGGCACCCTGGGCGCAGACCGTGGTGACAGGACGAGCAAGGCTTGGGGGGATTCCCGTGGGAGTGATTGCTGTGGAGACACGGACTGTGGAGGTGGCAGTCCCTGCAGACCCTGCCAACCTGGATTCTGAGGCCAAGATAATTCAGCAGGCAGGACAGGTGTGGTTCCCAGACTCAGCCTACAAAACCGCCCAGGCCATCAAGGACTTCAACCGGGAGAAGTTGCCCCTGATGATCTTTGCCAACTGGAGGGGGTTCTCCGGTGGCATGAAAGACATGTATGACCAGGTGCTGAAGTTTGGAGCCTACATCGTGGACGGCCTTAGACAATACAAACAGCCCATCCTGATCTATATCCGCCCTATGCGGGAGCTCCGGGGAGGCTCCTGGGTGGTCATAGATGCCACCATCAACCCGCTGTGCATAGAAATGTATGCAGACAAAGAGAGCAGGGGTGGTGTTCTGGAACCAGAGGGGACAGTGGAGATTAAGTTCCGAAAGGAAGATCTGATAAAGTCCATGAGAAGGATCGATCCAGCTTACAAGAAGCTCATGGAACAGCTAGGGGAACCTGATCTCTCCGACAAGGACCGAAAGGACCTGGAGGGCCGGCTAAAGGCTCGCGAGGACCTGCTGCTCCCCATCTACCACCAGGTGGCGGTGCAGTTCGCCGACTTCCATGACACACCCGGCCGGATGCTGGAGAAGGGCGTCATATCTGACATCCTGGAGTGGAAGACCGCACGCACCTTCCTGTATTGGCGTCTGCGCCGCCTCCTCCTGGAGGACCAGGTCAAGCAGGAGATCCTGCAGGCCAGCGGGGAGCTGAGTCACGTGCATATCCAGTCCATGCTGCGTCGCTGGTTCGTGGAGACGGAGGGGGCTGTCAAGGCCTACTTGTGGGACAACAACCAGGTGGTTGTGCAGTGGCTGGAACAGCACTGGCAGGCAGGGGATGGCCCGCGCTCCACCATCCGTGAGAACATCACGTACCTGAAGCACGACTCTGTCCTCAAGACCATCCGAGGCCTGGTTGAAGAAAACCCCGAGGTGGCCGTGGACTGTGTGATATACCTGAGCCAGCACATCAGCCCAGCTGAGCGGGCGCAGGTCGTTCACCTGCTGTCTACCATGGACAGCCCGGCCTCCACCTGA
Protein sequence + ...

MVLLLCLSCLIFSCLTFSWLKIWEKMTDSKPITKSKSEANLIPSQEPFPASDNSGETPQRNGEGHTLHKDTQPGRAQPPTKAQRSGRRRNSLPPSRQKPPRNPLSSSDAAPSPELQANGTGTQGLEATDTNGLSSSARPQGSKLVPSKEDKKQANIKRQLMTNFILGSFDDYSSDEDSVAGSSRESTRKGSRASLGALSLEAYLTTGEAETRVPTMRPSMSGLHLVKRGREHKKLDLHRDFTVASPAEFVTRFGGDRVIEKVLIANNGIAAVKCMRSIRRWAYEMFRNERAIRFVRMVTPEDLKANAEYIKMADHYGPAPGGPNNNNYANVELIVDIAKRIPLQAVWAGWGHALENPKLPELLCKNGVAFLGPPRLRPMVGLGDKIASTVVAQTLQVPTLPRSGSALTVEWTEDDLQQGKRISVPEDVYDKGCVKDVDEGLEAAERIGFPLMIKASEGGGGKGIRETESAEDFPILFRQVQSEIPGSPIFLMKLAQHARHLEVQILADQYGNAVSLFGRDCSIQRRHQKIVEEAPATIAPLAIFEFMEQCAIRLAKTVGYVSAGTVEYLYSQDGSFHFLELNPRLQVEHPCTEMIADVNLPAAQLQIAMGAPLHRLKDIRLLYGESPWGDSPISFENSAHLPCPRGHVIATRITSENPDEGFKPSSGTVQELNFRSSKNVWGYFTVAATGGLHEFAISQFGHCFSWGENRKEAISNMVVALKELSLRGDFRTTVEYLINLLETESFQNNYIDTGWLDYLIAEKVQKKPNIMLGVVCGALERGDAMFRTCMTDFLHSLERGQVLPADSLLNLVDVELIYEGVKYILKVTRQSLTMFVLIMNGCHIEIDAHRLNDGGLLLSYNGNSYTTYMKEEVDSYRTIGNKTCVFEKENDPTVLRSPSAGKLTQITVEDGGHVEAGRRYAEMEVMKMIMTLNVQERGRVKYIKRPGAVLEAGCVVARLELDDPSKVHPAEPFTGELPAQQNTADLGKKLHRVFHSVLGSLTNVMSGFCLPEPFFSIKLKEWVQKLMMTLRHPSLLLDVQEIMTSRAGRIPPPVEKSVRKVMAQYASNITSVLCQFPSQQIATILDCHAATLQRKADREVFFINTQSMVQLVQRYRSGIRGHMKTVVIDLLRRYLRVETIFGKARDADANSSGMVGGVRSLSFTSVWVVLSPPAHYDKCVINLREQFKPDMSQVLDCIFSHAQVTKKNQLVIMLIDELCGPDPSLSDELISILNELTQLSKSEHCKVALRARQILIASPSYELRHNQVESIFLSAIDMYGHQFCPENLQKLILSETTIFDVLNTFFYHANKVVCMASLEVYVGGAYIAYVLNSLQHRQLPDGTCVVEFQFMLPSSHPNRMTVPISITNPDLLRHTTELFMDSGFSPLCQRMGAMVAFRRFEDFTRNFDEVISCFANVPKDPPLFSEARTSLYSEDDCKSLREEPIHILNVSIQCADHLEDEALVPILRTFVQSKKNILVDYGLRRIPFLIAQEKEFPKFFTFRARDEFAEDRIYRHLEPALAFQLELNRMRNFDLTAVPCANHKMHLYLGAAKVEGRYEVTDHRFFIRAIIRHSDLITKEASFEYLQNEGERLLLEAMDELEVAFNNTNVRTDCNHIFLNFVPTVIMDPNKIEESVRYMVMRYGSRLWKLRVLQAEVKINIRQTTTGSAVPIRLFITNESGYYLDISLYKEVTDSRSGNIMFHSFGNKQGPQHGMLINTPYVTKDLLQAKRFQAQTLGTTYIYDFPEMFRQALFKLWGSPDKYPKDILTYTELVLDSQGQLVEMNRLPGGNEVGMVAFKMRFKTQEYPEGRDVIVIGNDITFRIGSFGPGEDLLYLRASEMARAEAIPKIYVAANSGARIGMAEEIKHMFHVAWVDPEDPHKGFKYLYLTPQDYTRISSLNSVHCKHIEEGGESRYMITDIIGKDDGLGVENLRGSGMIAGESSLAYEEIVTISLVTCRAIGIGAYLVRLGQRVIQVENSHIILTGASALNKVLGREVYTSNNQLGGVQIMHYNGVSHITVPDDFEGVYTILEWLSYMPKDNHSPVPIITPTDPIDREIEFLPSRAPYDPRWMLAGRPHPTLKGTWQSGFFDHGSFKEIMAPWAQTVVTGRARLGGIPVGVIAVETRTVEVAVPADPANLDSEAKIIQQAGQVWFPDSAYKTAQAIKDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRQYKQPILIYIRPMRELRGGSWVVIDATINPLCIEMYADKESRGGVLEPEGTVEIKFRKEDLIKSMRRIDPAYKKLMEQLGEPDLSDKDRKDLEGRLKAREDLLLPIYHQVAVQFADFHDTPGRMLEKGVISDILEWKTARTFLYWRLRRLLLEDQVKQEILQASGELSHVHIQSMLRRWFVETEGAVKAYLWDNNQVVVQWLEQHWQAGDGPRSTIRENITYLKHDSVLKTIRGLVEENPEVAVDCVIYLSQHISPAERAQVVHLLSTMDSPAST
GO Classification
function
ATP binding
ligase activity
biotin binding
binding
vitamin binding
nucleotide binding
catalytic activity
purine nucleotide binding
adenyl nucleotide binding
process
physiological process
metabolism
See more information at   →   www.drugbank.ca

Drugs


Associated as Target

Id Name
DB00121 Biotin
DB00173 Adenine
DB02859 Soraphen A
DB03781 2-[4-(2,4-Dichlorophenoxy)Phenoxy]Propanoic Acid
DB07870 (2S)-2-(4-{[3-CHLORO-5-(TRIFLUOROMETHYL)PYRIDIN-2-YL]OXY}PHENOXY)PROPANOIC ACID

Associated as Prediction

Id Name
DB00119 Pyruvic acid
DB00121 Biotin
DB00131 Adenosine monophosphate
DB00161 L-Valine
DB00166 Lipoic Acid
DB00173 Adenine
DB00197 Troglitazone
DB00201 Caffeine
DB00227 Lovastatin
DB00277 Theophylline
DB00295 Morphine
DB00316 Acetaminophen
DB00328 Indomethacin
DB00338 Omeprazole
DB00363 Clozapine
DB00396 Progesterone
DB00398 Sorafenib
DB00448 Lansoprazole
DB00499 Flutamide
DB00526 Oxaliplatin
DB00530 Erlotinib
DB00586 Diclofenac
DB00613 Amodiaquine
DB00624 Testosterone
DB00641 Simvastatin
DB00655 Estrone
DB00675 Tamoxifen
DB00678 Losartan
DB00688 Mycophenolate mofetil
DB00694 Daunorubicin
DB00704 Naltrexone
DB00712 Flurbiprofen
DB00762 Irinotecan
DB00773 Etoposide
DB00783 Estradiol
DB00788 Naproxen
DB00818 Propofol
DB00870 Suprofen
DB00973 Ezetimibe
DB00997 Doxorubicin
DB01024 Mycophenolic acid
DB01026 Ketoconazole
DB01045 Rifampin
DB01048 Abacavir
DB01050 Ibuprofen
DB01065 Melatonin
DB01076 Atorvastatin
DB01087 Primaquine
DB01095 Fluvastatin
DB01168 Procarbazine
DB01169 Arsenic trioxide
DB01174 Phenobarbital
DB01204 Mitoxantrone
DB01229 Paclitaxel
DB01234 Dexamethasone
DB01248 Docetaxel
DB01254 Dasatinib
DB01420 Testosterone Propionate
DB01544 Flunitrazepam
DB01632 Alpha-Phosphoribosylpyrophosphoric Acid
DB01688 P-Cresol
DB01726 2-Aminophenol
DB02030 Alpha-Ribazole-5'-Phosphate
DB02158 (1s)-1-(9-Deazaadenin-9-Yl)-1,4,5-Trideoxy-1,4-Imino-5-Methylthio-D-Ribitol
DB02163 2,5-Xylidine
DB02168 Bromopurine
DB02281 Formycin
DB02282 5'-Deoxy-5'-Methylthioadenosine
DB02379 Beta-D-Glucose
DB02382 Namn
DB02591 5,6-Dimethylbenzimidazole
DB02709 Resveratrol
DB02733 Purvalanol
DB02753 Selenoinosine
DB02770 7-Alpha-D-Ribofuranosyl-2-Aminopurine-5'-Phosphate
DB02819 Mono-[3,4-Dihydroxy-5-(5-Methyl-Benzoimidazol-1-Yl)-Tetrahydor-Furan-2-Ylmethyl] Ester
DB02859 Soraphen A
DB02905 Phosphoric Acid Mono-[3,4-Dihydroxy-5-(5-Hydroxy-Benzoimidazol-1-Yl)Tetrahydro-Furan-2-Ylmethyl] Ester
DB02933 5'-Deoxy-5'-(Methylthio)-Tubercidin
DB02962 Benzimidazole
DB03018 3,4-Dimethylaniline
DB03079 Alpha-Ribazole-5'-Phosphate Derivative
DB03177 5-methylbenzimidazole
DB03180 4,5-Dimethyl-1,2-Phenylenediamine
DB03200 7-Alpha-D-Ribofuranosyl-Purine-5'-Phosphate
DB03255 Phenol
DB03371 Modified Ribosylated Glutamyl Ester
DB03431 Adenosine-5'-Diphosphate
DB03506 9-Deazaadenine
DB03781 2-[4-(2,4-Dichlorophenoxy)Phenoxy]Propanoic Acid
DB03887 Alpha-Adenosine Monophosphate
DB04052 3,4-Dimethylphenol
DB04077 Glycerol
DB04120 4-Methyl-1,2-Benzenediol
DB04130 5-Methoxybenzimidazole
DB04176 Phosporic Acid Mono-[3,4-Dihydroxy-5-(5-Methoxy-Benzoimidazol-1-Yl)-Tetrahydro-Furan-2-Ylmethyl] Ester
DB04214 4-Nitrophenyl Phosphate
DB04272 Citric Acid
DB04395 Phosphoaminophosphonic Acid-Adenylate Ester
DB04532 Indole
DB04533 2-Amino-P-Cresol
DB04868 Nilotinib
DB04953 Ezogabine
DB05039 Indacaterol
DB06210 Eltrombopag
DB06589 Pazopanib
DB06626 Axitinib
DB07497 5-(HEXAHYDRO-2-OXO-1H-THIENO[3,4-D]IMIDAZOL-6-YL)PENTANAL
DB07870 (2S)-2-(4-{[3-CHLORO-5-(TRIFLUOROMETHYL)PYRIDIN-2-YL]OXY}PHENOXY)PROPANOIC ACID
DB08606 (3R,4S)-1-[(4-AMINO-5H-PYRROLO[3,2-D]PYRIMIDIN-7-YL)METHYL]-4-[(METHYLSULFANYL)METHYL]PYRROLIDIN-3-OL
DB08872 gabapentin enacarbil
DB08896 Regorafenib