Local view for "http://wifo5-04.informatik.uni-mannheim.de/drugbank/resource/drugs/DB07870"
| Predicate | Value (sorted: default) |
|---|---|
| rdfs:label |
"(2S)-2-(4-{[3-CHLORO-5-(TRIFLUOROMETHYL)PYRIDIN-2-YL]OXY}PHENOXY)PROPANOIC ACID"
|
| rdf:type | |
| drugbank:description |
"
experimental
This compound belongs to the phenoxyacetic acid derivatives. These are compounds containing an anisole where the methane group is linked to an acetic acid or a derivative.
Phenoxyacetic Acid Derivatives
Organic Compounds
Benzenoids
Benzene and Substituted Derivatives
Phenoxyacetic Acid Derivatives
Diarylethers
Phenol Ethers
Pyridinones
Alkyl Aryl Ethers
Aryl Chlorides
Enolates
Polyamines
Carboxylic Acids
Organofluorides
Alkyl Fluorides
Organochlorides
phenol ether
alkyl aryl ether
pyridinone
aryl halide
pyridine
aryl chloride
polyamine
enolate
carboxylic acid derivative
ether
carboxylic acid
organohalogen
organochloride
organofluoride
alkyl halide
alkyl fluoride
organonitrogen compound
logP
3.83
ALOGPS
logS
-4.5
ALOGPS
Water Solubility
1.04e-02 g/l
ALOGPS
logP
4.22
ChemAxon
IUPAC Name
(2R)-2-(4-{[3-chloro-5-(trifluoromethyl)pyridin-2-yl]oxy}phenoxy)propanoic acid
ChemAxon
Traditional IUPAC Name
(2R)-2-(4-{[3-chloro-5-(trifluoromethyl)pyridin-2-yl]oxy}phenoxy)propanoic acid
ChemAxon
Molecular Weight
361.7
ChemAxon
Monoisotopic Weight
361.032870167
ChemAxon
SMILES
[H][C@](C)(OC1=CC=C(OC2=NC=C(C=C2Cl)C(F)(F)F)C=C1)C(O)=O
ChemAxon
Molecular Formula
C15H11ClF3NO4
ChemAxon
InChI
InChI=1S/C15H11ClF3NO4/c1-8(14(21)22)23-10-2-4-11(5-3-10)24-13-12(16)6-9(7-20-13)15(17,18)19/h2-8H,1H3,(H,21,22)/t8-/m1/s1
ChemAxon
InChIKey
InChIKey=GOCUAJYOYBLQRH-MRVPVSSYSA-N
ChemAxon
Polar Surface Area (PSA)
68.65
ChemAxon
Refractivity
78.28
ChemAxon
Polarizability
30.63
ChemAxon
Rotatable Bond Count
6
ChemAxon
H Bond Acceptor Count
4
ChemAxon
H Bond Donor Count
1
ChemAxon
pKa (strongest acidic)
2.78
ChemAxon
pKa (strongest basic)
-0.8
ChemAxon
Physiological Charge
-1
ChemAxon
Number of Rings
2
ChemAxon
Bioavailability
1
ChemAxon
Rule of Five
true
ChemAxon
Ghose Filter
true
ChemAxon
PubChem Compound
448979
PubChem Substance
99444341
ChemSpider
395627
PDB
H1L
BE0000702
Acetyl-CoA carboxylase 2
Human
# Berman HM, Westbrook J, Feng Z, Gilliland G, Bhat TN, Weissig H, Shindyalov IN, Bourne PE: The Protein Data Bank. Nucleic Acids Res. 2000 Jan 1;28(1):235-42. "Pubmed":http://www.ncbi.nlm.nih.gov/pubmed/10592235
unknown
Acetyl-CoA carboxylase 2
Lipid transport and metabolism
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
ACACB
12q24.11
Intracytoplasmic membrane. May associate with membranes
None
6.84
279697.0
Human
HUGO Gene Nomenclature Committee (HGNC)
HGNC:85
GenAtlas
ACACB
GeneCards
ACACB
GenBank Gene Database
U89344
GenBank Protein Database
2138330
UniProtKB
O00763
UniProt Accession
ACACB_HUMAN
ACC-beta
EC 6.4.1.2
>Acetyl-CoA carboxylase 2
MVLLLCLSCLIFSCLTFSWLKIWEKMTDSKPITKSKSEANLIPSQEPFPASDNSGETPQR
NGEGHTLHKDTQPGRAQPPTKAQRSGRRRNSLPPSRQKPPRNPLSSSDAAPSPELQANGT
GTQGLEATDTNGLSSSARPQGSKLVPSKEDKKQANIKRQLMTNFILGSFDDYSSDEDSVA
GSSRESTRKGSRASLGALSLEAYLTTGEAETRVPTMRPSMSGLHLVKRGREHKKLDLHRD
FTVASPAEFVTRFGGDRVIEKVLIANNGIAAVKCMRSIRRWAYEMFRNERAIRFVRMVTP
EDLKANAEYIKMADHYGPAPGGPNNNNYANVELIVDIAKRIPLQAVWAGWGHALENPKLP
ELLCKNGVAFLGPPRLRPMVGLGDKIASTVVAQTLQVPTLPRSGSALTVEWTEDDLQQGK
RISVPEDVYDKGCVKDVDEGLEAAERIGFPLMIKASEGGGGKGIRETESAEDFPILFRQV
QSEIPGSPIFLMKLAQHARHLEVQILADQYGNAVSLFGRDCSIQRRHQKIVEEAPATIAP
LAIFEFMEQCAIRLAKTVGYVSAGTVEYLYSQDGSFHFLELNPRLQVEHPCTEMIADVNL
PAAQLQIAMGAPLHRLKDIRLLYGESPWGDSPISFENSAHLPCPRGHVIATRITSENPDE
GFKPSSGTVQELNFRSSKNVWGYFTVAATGGLHEFAISQFGHCFSWGENRKEAISNMVVA
LKELSLRGDFRTTVEYLINLLETESFQNNYIDTGWLDYLIAEKVQKKPNIMLGVVCGALE
RGDAMFRTCMTDFLHSLERGQVLPADSLLNLVDVELIYEGVKYILKVTRQSLTMFVLIMN
GCHIEIDAHRLNDGGLLLSYNGNSYTTYMKEEVDSYRTIGNKTCVFEKENDPTVLRSPSA
GKLTQITVEDGGHVEAGRRYAEMEVMKMIMTLNVQERGRVKYIKRPGAVLEAGCVVARLE
LDDPSKVHPAEPFTGELPAQQNTADLGKKLHRVFHSVLGSLTNVMSGFCLPEPFFSIKLK
EWVQKLMMTLRHPSLLLDVQEIMTSRAGRIPPPVEKSVRKVMAQYASNITSVLCQFPSQQ
IATILDCHAATLQRKADREVFFINTQSMVQLVQRYRSGIRGHMKTVVIDLLRRYLRVETI
FGKARDADANSSGMVGGVRSLSFTSVWVVLSPPAHYDKCVINLREQFKPDMSQVLDCIFS
HAQVTKKNQLVIMLIDELCGPDPSLSDELISILNELTQLSKSEHCKVALRARQILIASPS
YELRHNQVESIFLSAIDMYGHQFCPENLQKLILSETTIFDVLNTFFYHANKVVCMASLEV
YVGGAYIAYVLNSLQHRQLPDGTCVVEFQFMLPSSHPNRMTVPISITNPDLLRHTTELFM
DSGFSPLCQRMGAMVAFRRFEDFTRNFDEVISCFANVPKDPPLFSEARTSLYSEDDCKSL
REEPIHILNVSIQCADHLEDEALVPILRTFVQSKKNILVDYGLRRIPFLIAQEKEFPKFF
TFRARDEFAEDRIYRHLEPALAFQLELNRMRNFDLTAVPCANHKMHLYLGAAKVEGRYEV
TDHRFFIRAIIRHSDLITKEASFEYLQNEGERLLLEAMDELEVAFNNTNVRTDCNHIFLN
FVPTVIMDPNKIEESVRYMVMRYGSRLWKLRVLQAEVKINIRQTTTGSAVPIRLFITNES
GYYLDISLYKEVTDSRSGNIMFHSFGNKQGPQHGMLINTPYVTKDLLQAKRFQAQTLGTT
YIYDFPEMFRQALFKLWGSPDKYPKDILTYTELVLDSQGQLVEMNRLPGGNEVGMVAFKM
RFKTQEYPEGRDVIVIGNDITFRIGSFGPGEDLLYLRASEMARAEAIPKIYVAANSGARI
GMAEEIKHMFHVAWVDPEDPHKGFKYLYLTPQDYTRISSLNSVHCKHIEEGGESRYMITD
IIGKDDGLGVENLRGSGMIAGESSLAYEEIVTISLVTCRAIGIGAYLVRLGQRVIQVENS
HIILTGASALNKVLGREVYTSNNQLGGVQIMHYNGVSHITVPDDFEGVYTILEWLSYMPK
DNHSPVPIITPTDPIDREIEFLPSRAPYDPRWMLAGRPHPTLKGTWQSGFFDHGSFKEIM
APWAQTVVTGRARLGGIPVGVIAVETRTVEVAVPADPANLDSEAKIIQQAGQVWFPDSAY
KTAQAIKDFNREKLPLMIFANWRGFSGGMKDMYDQVLKFGAYIVDGLRQYKQPILIYIRP
MRELRGGSWVVIDATINPLCIEMYADKESRGGVLEPEGTVEIKFRKEDLIKSMRRIDPAY
KKLMEQLGEPDLSDKDRKDLEGRLKAREDLLLPIYHQVAVQFADFHDTPGRMLEKGVISD
ILEWKTARTFLYWRLRRLLLEDQVKQEILQASGELSHVHIQSMLRRWFVETEGAVKAYLW
DNNQVVVQWLEQHWQAGDGPRSTIRENITYLKHDSVLKTIRGLVEENPEVAVDCVIYLSQ
HISPAERAQVVHLLSTMDSPAST
>7452 bp
ATGGTCTTGCTTCTTTGTCTATCTTGTCTGATTTTCTCCTGTCTGACCTTTTCCTGGTTA
AAAATCTGGGAGAAAATGACGGACTCCAAGCCGATCACCAAGAGTAAATCAGAAGCAAAC
CTCATCCCGAGCCAGGAGCCCTTTCCAGCCTCTGATAACTCAGGGGAGACACCGCAGAGA
AATGGGGAGGGCCACACTCTGCACAAAGACACCCAGCCAGGCCGAGCCCAGCCTCCCACA
AAGGCCCAAAGATCCGGTCGGCGGAGAAACTCCCTACCACCCTCCCGCCAGAAGCCCCCA
AGAAACCCCCTTTCTTCCAGTGACGCAGCACCCTCCCCAGAGCTTCAAGCCAACGGGACT
GGGACACAAGGTCTGGAGGCCACAGATACCAATGGCCTGTCCTCCTCAGCCAGGCCCCAG
GGCAGCAAGCTGGTCCCCTCCAAAGAAGACAAGAAGCAGGCAAACATCAAGAGGCAGCTG
ATGACCAACTTCATCCTGGGCTCTTTTGATGACTACTCCTCCGACGAGGACTCTGTTGCT
GGCTCATCTCGTGAGTCTACCCGGAAGGGCAGCCGGGCCAGCTTGGGGGCCCTGTCCCTG
GAGGCTTATCTGACCACAGGTGAAGCTGAGACCCGCGTCCCCACTATGAGGCCGAGCATG
TCGGGACTCCACCTGGTGAAGAGGGGACGGGAACACAAGAAGCTGGACCTGCACAGAGAC
TTTACCGTGGCTTCTCCCGCTGAGTTTGTCACACGCTTTGGGGGGGATCGGGTCATCGAG
AAGGTGCTTATTGCCAACAACGGGATTGCCGCTGTGAAGTGCATGCGCTCCATCCGCAGG
TGGGCCTATGAGATGTTCCGCAACGAGCGGGCCATCCGGTTTGTTCGCATGGTGACCCCC
GAGGACCTTAAGGCCAACGCAGAGTACATCAAGATGGCGGATCATTACGGGCCCGCCCCA
GGAGGGCCCAATAACAACAACTATGCCAACGTGGAGCTGATTGTGGACATTGCCAAGAGA
ATCCCGTTGCAGGCGGTGTGGGCTGGCTGGGGCCATGCTTTAGAAAACCCTAAACTTCCG
GAGCTGCTGTGCAAGAATGGAGTTGCTTTCTTAGGCCCTCCCAGGTTGAGGCCAATGGTG
GGTCTAGGAGATAAGATCGCCTCCACCGTTGTCGCCCAGACGCTACAGGTCCCAACCCTG
CCCAGGAGTGGAAGCGCCCTGACAGTGGAGTGGACAGAAGATGATCTGCAGCAGGGAAAA
AGAATCAGTGTCCCAGAAGATGTTTATGACAAGGGTTGCGTGAAAGACGTAGATGAGGGC
TTGGAGGCAGCAGAAAGAATTGGTTTTCCATTGATGATCAAAGCTTCTGAAGGTGGCGGA
GGGAAGGGAATCCGGGAAACTGAGAGTGCGGAGGACTTCCCGATCCTTTTCAGACAAGTA
CAGAGTGAGATCCCAGGCTCGCCCATCTTTCTCATGAAGCTGGCCCAGCACGCCCGTCAC
CTGGAAGTTCAGATCCTCGCTGACCAGTATGGGAATGCTGTGTCTCTGTTTGGTCGCGAC
TGCTCCATCCAGCGGCGGCATCAGAAGATCGTTGAGGAAGCACCGGCCACCATCGCGCCG
CTGGCCATATTCGAGTTCATGGAGCAGTGTGCCATTCGCCTGGCCAAGACCGTGGGCTAT
GTGAGTGCAGGGACAGTGGAATACCTCTATAGTCAGGATGGTAGCTTCCACTTCTTGGAG
CTGAATCCTCGCTTGCAGGTGGAACATCCCTGCACAGAAATGATTGCTGACGTTAATCTG
CCGGCCGCCCAGCTACAGATCGCCATGGGTGCCCCACTGCACCGGCTGAAAGATATCCGG
CTTCTGTATGGAGAGTCACCCTGGGGAGACTCCCCAATTTCTTTTGAAAACTCAGCTCAT
CTCCCCTGCCCCCGAGGCCACGTCATTGCCACCAGAATCACCAGCGAAAACCCAGACGAG
GGTTTTAAGCCGAGCTCCGGGACTGTCCAGGAACTGAATTTCCGGAGCAGCAAGAACGTC
TGGGGTTACTTCACGGTGGCCGCTACTGGAGGCCTGCACGAGTTTGCGATTTCCCAGTTT
GGGCACTGCTTCTCCTGGGGAGAGAACCGGAAAGAGGCCATTTCGAACATGGTGGTGGCT
TTGAAGGAACTGTCCCTCCGAGGCGACTTTAGGACTACCGTGGAATACCTCATTAACCTC
CTGGAGACCGAGAGCTTCCAGAACAACTACATCGACACCGGGTGGTTGGACTACCTCATT
GCTGAGAAAGTGCAAAAGAAACCGAATATCATGCTTGGGGTGGTATGCGGGGCCCTTGAA
CGTGGAGATGCGATGTTCAGAACGTGCATGACAGATTTCTTACACTCCCTGGAAAGGGGC
CAGGTCCTCCCAGCGGATTCACTACTGAACCTCGTAGATGTGGAATTAATTTACGAGGGT
GTAAAGTACATTCTAAAGGTGACCCGGCAGTCTCTGACCATGTTCGTTCTCATCATGAAT
GGCTGCCACATCGAGATTGATGCCCACCGGCTGAATGATGGGGGGCTCCTGCTCTCCTAC
AATGGGAACAGCTACACCACCTACATGAAGGAAGAGGTTGACAGTTACCGTACCATCGGC
AATAAGACGTGTGTTTTTGAGAAGGAGAACGATCCTACAGTCCTGAGATCCCCCTCGGCT
GGGAAGCTGACACAGATCACAGTGGAGGATGGGGGCCACGTTGAGGCTGGGAGACGCTAC
GCTGAGATGGAGGTGATGAAGATGATCATGACCCTGAACGTTCAGGAAAGAGGCCGGGTG
AAGTACATCAAGCGTCCAGGTGCGGTGCTGGAAGCAGGCTGCGTGGTGGCCAGGCTGGAG
CTCGATGACCCTTCTAAAGTCCACCCGGCTGAACCGTTCACAGGAGAACTCCCTGCCCAG
CAGAACACTGCCGACCTCGGAAAGAAACTGCACAGGGTCTTCCACAGCGTCCTGGGAAGC
CTCACCAACGTCATGAGTGGCTTTTGTCTGCCAGAGCCGTTTTTTAGCATAAAGCTGAAG
GAGTGGGTGCAGAAGCTCATGATGACCCTCCGGCACCCGTCACTGCTGCTGGACGTGCAG
GAGATCATGACCAGTCGTGCAGGCCGCATCCCCCCCCCTGTTGAGAAGTCTGTCCGCAAG
GTGATGGCCCAGTATGCCAGCAACATCACCTCGGTGCTGTGCCAGTTCCCCAGCCAGCAG
ATAGCCACCATCCTGGACTGCCATGCAGCCACCCTGCAGCGGAAGGCTGATCGAGAGGTC
TTCTTCATCAACACCCAGAGCATGGTGCAGTTGGTCCAGAGGTACCGAAGTGGAATCCGC
GGTCATATGAAAACAGTGGTGATCGATCTCTTGAGAAGATACTTGCGTGTTGAGACCATT
TTCGGCAAGGCAAGAGATGCTGATGCCAACTCCAGTGGGATGGTGGGGGGCGTGAGGAGC
CTGAGCTTTACCTCTGTGTGGGTGGTTTTGTCTCCCCCAGCCCACTACGACAAGTGTGTG
ATAAACCTCAGGGAACAGTTCAAGCCAGACATGTCCCAGGTGCTGGACTGCATCTTCTCC
CACGCACAGGTGACCAAGAAGAACCAGCTGGTGATCATGTTGATCGATGAGCTGTGTGGC
CCAGACCCTTCCCTGTCGGACGAGCTGATCTCCATCCTCAACGAGCTCACTCAGCTGAGC
AAAAGCGAGCACTGCAAAGTGGCCCTCAGAGCCCGGCAGATCCTGATCGCCTCCCCCTCC
TACGAGCTGCGGCATAACCAGGTGGAGTCCATTTTCCTGTCTGCCATTGACATGTACGGC
CACCAGTTCTGCCCCGAGAACCTCCAGAAATTAATACTTTCGGAAACAACCATCTTCGAC
GTCCTGAATACTTTCTTCTATCACGCAAACAAAGTCGTGTGCATGGCGTCCTTGGAGGTT
TACGTGGGGGGGGCTTACATCGCCTATGTGTTAAACAGCCTGCAGCACCGGCAGCTCCCG
GACGGCACCTGCGTGGTAGAATTCCAGTTCATGCTGCCGTCCTCCCACCCAAACCGGATG
ACCGTGCCCATCAGCATCACCAACCCTGACCTGCTGAGGCACACGACAGAGCTCTTCATG
GACAGCGGCTTCTCCCCACTGTGCCAGCGCATGGGAGCCATGGTAGCCTTCAGGAGATTC
GAGGACTTCACCAGAAATTTTGATGAAGTCATCTCTTGCTTCGCCAACGTGCCGAAAGAC
CCCCCCCTCTTCAGCGAGGCCCGCACCTCCCTATACTCCGAGGATGACTGCAAGAGCCTC
AGAGAAGAGCCCATCCACATTCTGAATGTGTCCATCCAGTGTGCGGACCACCTGGAGGAT
GAGGCACTGGTGCCGATTTTACGTACATTCGTACAGTCCAAGAAAAATATCCTTGTGGAT
TATGGACTCCGACGAATCCCATTCTTGATTGCCCAAGAGAAAGAATTTCCCAAGTTTTTC
ACATTCAGAGCAAGAGATGAGTTTGCAGAAGATCGCATTTACCGTCACTTGGAACCTGCC
CTGGCTTTCCAGCTGGAACTCAACCGGATGCGTAACTTCGATCTGACCGCCGTGCCCTGT
GCCAACCACAAGATGCACCTTTACCTGGGTGCTGCCAAGGTGGAAGGAAGGTATGAAGTG
ACGGACCATAGGTTCTTCATCCGTGCCATCATCAGGCACTCTGACCTGATCACAAAGGAA
GCCTCCTTCGAATACCTGCAGAACGAGGGTGAGCGGCTGCTCCTGGAGGCCATGGACGAG
CTGGAGGTGGCGTTCAATAACACCAACGTGCGCACCGACTGCAACCACATCTTCCTCAAC
TTCGTGCCCACTGTCATCATGGACCCCAACAAGATCGAGGAGTCCGTGCGCTACATGGTT
ATGCGCTACGGCAGCCGGCTGTGGAAACTCCGTGTGCTACAGGCTGAGGTCAAGATCAAC
ATCCGCCAGACCACCACCGGCAGTGCCGTTCCCATCCGCCTGTTCATCACCAATGAGTCG
GGCTACTACCTGGACATCAGCCTCTACAAAGAAGTGACTGACTCCAGATCTGGAAATATC
ATGTTTCACTCCTTCGGCAACAAGCAAGGGCCCCAGCACGGGATGCTGATCAATACTCCC
TACGTCACCAAGGATCTGCTCCAGGCCAAGCGATTCCAGGCCCAGACCCTGGGAACCACC
TACATCTATGACTTCCCGGAAATGTTCAGGCAGGCTCTCTTTAAACTGTGGGGCTCCCCA
GACAAGTATCCCAAAGACATCCTGACATACACTGAATTAGTGTTGGACTCTCAGGGCCAG
CTGGTGGAGATGAACCGACTTCCTGGTGGAAATGAGGTGGGCATGGTGGCCTTCAAAATG
AGGTTTAAGACCCAGGAGTACCCGGAAGGACGGGATGTGATCGTCATCGGCAATGACATC
ACCTTTCGCATTGGATCCTTTGGCCCTGGAGAGGACCTTCTGTACCTGCGGGCATCCGAG
ATGGCCCGGGCAGAGGCGATTCCCAAAATTTACGTGGCAGCCAACAGTGGCGCCCGTATT
GGCATGGCAGAGGAGATCAAACACATGTTCCACGTGGCTTGGGTGGACCCAGAAGACCCC
CACAAAGGATTTAAATACCTGTACCTGACTCCCCAAGACTACACCAGAATCAGCTCCCTG
AACTCCGTCCACTGTAAACACATCGAGGAAGGAGGAGAGTCCAGATACATGATCACGGAT
ATCATCGGGAAGGATGATGGCTTGGGCGTGGAGAATCTGAGGGGCTCAGGCATGATTGCT
GGGGAGTCCTCTCTGGCTTACGAAGAGATCGTCACCATTAGCTTGGTGACCTGCCGAGCC
ATTGGGATTGGGGCCTACTTGGTGAGGCTGGGCCAGCGAGTGATCCAGGTGGAGAATTCC
CACATCATCCTCACAGGAGCAAGTGCTCTCAACAAGGTCCTGGGAAGAGAGGTCTACACA
TCCAACAACCAGCTGGGTGGCGTTCAGATCATGCATTACAATGGTGTCTCCCACATCACC
GTGCCAGATGACTTTGAGGGGGTTTATACCATCCTGGAGTGGCTGTCCTATATGCCAAAG
GATAATCACAGCCCTGTCCCTATCATCACACCCACTGACCCCATTGACAGAGAAATTGAA
TTCCTCCCATCCAGAGCTCCCTACGACCCCCGGTGGATGCTTGCAGGAAGGCCTCACCCA
ACTCTGAAGGGAACGTGGCAGAGCGGATTCTTTGACCACGGCAGTTTCAAGGAAATCATG
GCACCCTGGGCGCAGACCGTGGTGACAGGACGAGCAAGGCTTGGGGGGATTCCCGTGGGA
GTGATTGCTGTGGAGACACGGACTGTGGAGGTGGCAGTCCCTGCAGACCCTGCCAACCTG
GATTCTGAGGCCAAGATAATTCAGCAGGCAGGACAGGTGTGGTTCCCAGACTCAGCCTAC
AAAACCGCCCAGGCCATCAAGGACTTCAACCGGGAGAAGTTGCCCCTGATGATCTTTGCC
AACTGGAGGGGGTTCTCCGGTGGCATGAAAGACATGTATGACCAGGTGCTGAAGTTTGGA
GCCTACATCGTGGACGGCCTTAGACAATACAAACAGCCCATCCTGATCTATATCCGCCCT
ATGCGGGAGCTCCGGGGAGGCTCCTGGGTGGTCATAGATGCCACCATCAACCCGCTGTGC
ATAGAAATGTATGCAGACAAAGAGAGCAGGGGTGGTGTTCTGGAACCAGAGGGGACAGTG
GAGATTAAGTTCCGAAAGGAAGATCTGATAAAGTCCATGAGAAGGATCGATCCAGCTTAC
AAGAAGCTCATGGAACAGCTAGGGGAACCTGATCTCTCCGACAAGGACCGAAAGGACCTG
GAGGGCCGGCTAAAGGCTCGCGAGGACCTGCTGCTCCCCATCTACCACCAGGTGGCGGTG
CAGTTCGCCGACTTCCATGACACACCCGGCCGGATGCTGGAGAAGGGCGTCATATCTGAC
ATCCTGGAGTGGAAGACCGCACGCACCTTCCTGTATTGGCGTCTGCGCCGCCTCCTCCTG
GAGGACCAGGTCAAGCAGGAGATCCTGCAGGCCAGCGGGGAGCTGAGTCACGTGCATATC
CAGTCCATGCTGCGTCGCTGGTTCGTGGAGACGGAGGGGGCTGTCAAGGCCTACTTGTGG
GACAACAACCAGGTGGTTGTGCAGTGGCTGGAACAGCACTGGCAGGCAGGGGATGGCCCG
CGCTCCACCATCCGTGAGAACATCACGTACCTGAAGCACGACTCTGTCCTCAAGACCATC
CGAGGCCTGGTTGAAGAAAACCCCGAGGTGGCCGTGGACTGTGTGATATACCTGAGCCAG
CACATCAGCCCAGCTGAGCGGGCGCAGGTCGTTCACCTGCTGTCTACCATGGACAGCCCG
GCCTCCACCTGA
PF00364
Biotin_lipoyl
PF01039
Carboxyl_trans
PF02785
Biotin_carb_C
PF00289
CPSase_L_chain
PF02786
CPSase_L_D2
PF08326
ACC_central
function
catalytic activity
function
nucleotide binding
function
purine nucleotide binding
function
adenyl nucleotide binding
function
vitamin binding
function
ATP binding
function
ligase activity
function
biotin binding
function
binding
process
physiological process
process
metabolism
"
|
All properties reside in the graph file:///home/swish/src/ClioPatria/guidelines3/drugbank_small.nt
The resource does not appear as an object