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PredicateValue (sorted: none)
ns1:description
" experimental This compound belongs to the phosphatidylglycerols. These are glycerophosphoglycerols in which two fatty acids are bonded to the 1-glycerol moiety through ester linkages. Phosphatidylglycerols Organic Compounds Lipids Glycerophospholipids Glycerophosphoglycerols Monosaccharide Phosphates Fatty Acid Esters Trioses Dicarboxylic Acids and Derivatives Organophosphate Esters Organic Phosphoric Acids Carboxylic Acid Esters 1,2-Diols Secondary Alcohols Enolates Ethers Primary Alcohols Polyamines monosaccharide phosphate fatty acid ester monosaccharide dicarboxylic acid derivative triose monosaccharide saccharide organic phosphate phosphoric acid ester 1,2-diol carboxylic acid ester secondary alcohol ether enolate polyamine carboxylic acid derivative primary alcohol alcohol logP 1.87 ALOGPS logS -2.5 ALOGPS Water Solubility 1.59e+00 g/l ALOGPS logP 2.49 ChemAxon IUPAC Name (2R)-1-{[(R)-((2S)-2,3-dihydroxypropyl phosphonato)]oxy}-3-(pentanoyloxy)propan-2-yl octanoate ChemAxon Traditional IUPAC Name (2R)-1-{[(R)-((2S)-2,3-dihydroxypropyl phosphonato)]oxy}-3-(pentanoyloxy)propan-2-yl octanoate ChemAxon Molecular Weight 455.4569 ChemAxon Monoisotopic Weight 455.204608884 ChemAxon SMILES [H][C@](O)(CO)CO[P@@]([O-])(=O)OC[C@@]([H])(COC(=O)CCCC)OC(=O)CCCCCCC ChemAxon Molecular Formula C19H36O10P ChemAxon InChI InChI=1S/C19H37O10P/c1-3-5-7-8-9-11-19(23)29-17(14-26-18(22)10-6-4-2)15-28-30(24,25)27-13-16(21)12-20/h16-17,20-21H,3-15H2,1-2H3,(H,24,25)/p-1/t16-,17+/m0/s1 ChemAxon InChIKey InChIKey=UQSXQYRZHMGKIE-DLBZAZTESA-M ChemAxon Polar Surface Area (PSA) 151.65 ChemAxon Refractivity 106.77 ChemAxon Polarizability 46.57 ChemAxon Rotatable Bond Count 21 ChemAxon H Bond Acceptor Count 6 ChemAxon H Bond Donor Count 2 ChemAxon pKa (strongest acidic) 1.89 ChemAxon pKa (strongest basic) -3 ChemAxon Physiological Charge -1 ChemAxon Number of Rings 0 ChemAxon Bioavailability 1 ChemAxon Rule of Five true ChemAxon Ghose Filter true ChemAxon PubChem Compound 5287637 PubChem Substance 99443820 ChemSpider 4449965 PDB AGA BE0003815 Respiratory nitrate reductase 1 alpha chain Escherichia coli (strain K12) # 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 Respiratory nitrate reductase 1 alpha chain Energy production and conversion The nitrate reductase enzyme complex allows E.coli to use nitrate as an electron acceptor during anaerobic growth. The alpha chain is the actual site of nitrate reduction narG Cell membrane None 6.47 140488.5 Escherichia coli (strain K12) GeneCards narG GenBank Gene Database X16181 GenBank Protein Database 42086 UniProtKB P09152 UniProt Accession NARG_ECOLI Nitrate reductase A subunit alpha Quinol-nitrate oxidoreductase subunit alpha >Respiratory nitrate reductase 1 alpha chain MSKFLDRFRYFKQKGETFADGHGQLLNTNRDWEDGYRQRWQHDKIVRSTHGVNCTGSCSW KIYVKNGLVTWETQQTDYPRTRPDLPNHEPRGCPRGASYSWYLYSANRLKYPMMRKRLMK MWREAKALHSDPVEAWASIIEDADKAKSFKQARGRGGFVRSSWQEVNELIAASNVYTIKN YGPDRVAGFSPIPAMSMVSYASGARYLSLIGGTCLSFYDWYCDLPPASPQTWGEQTDVPE SADWYNSSYIIAWGSNVPQTRTPDAHFFTEVRYKGTKTVAVTPDYAEIAKLCDLWLAPKQ GTDAAMALAMGHVMLREFHLDNPSQYFTDYVRRYTDMPMLVMLEERDGYYAAGRMLRAAD LVDALGQENNPEWKTVAFNTNGEMVAPNGSIGFRWGEKGKWNLEQRDGKTGEETELQLSL LGSQDEIAEVGFPYFGGDGTEHFNKVELENVLLHKLPVKRLQLADGSTALVTTVYDLTLA NYGLERGLNDVNCATSYDDVKAYTPAWAEQITGVSRSQIIRIAREFADNADKTHGRSMII VGAGLNHWYHLDMNYRGLINMLIFCGCVGQSGGGWAHYVGQEKLRPQTGWQPLAFALDWQ RPARHMNSTSYFYNHSSQWRYETVTAEELLSPMADKSRYTGHLIDFNVRAERMGWLPSAP QLGTNPLTIAGEAEKAGMNPVDYTVKSLKEGSIRFAAEQPENGKNHPRNLFIWRSNLLGS SGKGHEFMLKYLLGTEHGIQGKDLGQQGGVKPEEVDWQDNGLEGKLDLVVTLDFRLSSTC LYSDIILPTATWYEKDDMNTSDMHPFIHPLSAAVDPAWEAKSDWEIYKAIAKKFSEVCVG HLGKETDIVTLPIQHDSAAELAQPLDVKDWKKGECDLIPGKTAPHIMVVERDYPATYERF TSIGPLMEKIGNGGKGIAWNTQSEMDLLRKLNYTKAEGPAKGQPMLNTAIDAAEMILTLA PETNGQVAVKAWAALSEFTGRDHTHLALNKEDEKIRFRDIQAQPRKIISSPTWSGLEDEH VSYNAGYTNVHELIPWRTLSGRQQLYQDHQWMRDFGESLLVYRPPIDTRSVKEVIGQKSN GNQEKALNFLTPHQKWGIHSTYSDNLLMLTLGRGGPVVWLSEADAKDLGIADNDWIEVFN SNGALTARAVVSQRVPAGMTMMYHAQERIVNLPGSEITQQRGGIHNSVTRITPKPTHMIG GYAHLAYGFNYYGTVGSNRDEFVVVRKMKNIDWLDGEGNDQVQESVK >3744 bp ATGAGTAAATTCCTGGACCGGTTTCGCTACTTCAAACAGAAGGGTGAAACCTTTGCCGAT GGGCATGGCCAGCTTCTCAATACCAACCGTGACTGGGAGGATGGATATCGCCAGCGTTGG CAGCATGACAAAATCGTCCGCTCTACCCACGGGGTAAACTGCACCGGCTCCTGCAGCTGG AAAATCTACGTCAAAAACGGTCTGGTCACCTGGGAAACCCAGCAGACTGACTATCCGCGT ACCCGTCCGGATCTGCCAAACCATGAACCTCGCGGCTGCCCGCGCGGTGCCAGCTACTCC TGGTATCTTTACAGTGCCAACCGCCTGAAATACCCGATGATGCGCAAACGCCTGATGAAA ATGTGGCGTGAAGCGAAGGCGCTGCATAGCGATCCGGTTGAGGCATGGGCTTCTATCATT GAAGACGCCGATAAAGCGAAAAGCTTTAAGCAGGCGCGTGGACGCGGTGGATTTGTTCGT TCTTCCTGGCAGGAGGTGAACGAACTGATCGCCGCATCTAACGTTTACACCATCAAAAAC TACGGCCCGGACCGTGTTGCTGGTTTCTCGCCAATTCCGGCAATGTCGATGGTTTCTTAC GCATCGGGTGCACGCTATCTCTCGCTGATTGGCGGTACTTGCTTAAGCTTCTACGACTGG TACTGCGACTTGCCTCCTGCGTCTCCGCAAACCTGGGGCGAGCAAACTGACGTACCGGAA TCTGCTGACTGGTACAACTCCAGCTACATCATCGCCTGGGGGTCAAACGTGCCGCAGACG CGTACCCCGGATGCTCACTTCTTTACTGAAGTGCGTTACAAAGGGACCAAAACTGTTGCC GTCACACCAGACTACGCTGAAATCGCCAAACTGTGCGATCTGTGGCTGGCACCGAAACAG GGCACCGATGCGGCAATGGCGCTGGCGATGGGCCACGTAATGCTGCGTGAATTCCACCTC GACAACCCAAGCCAGTATTTCACCGACTATGTGCGTCGCTACACCGACATGCCGATGCTG GTGATGCTGGAAGAACGCGACGGTTACTACGCTGCAGGTCGTATGCTGCGCGCTGCTGAT CTGGTTGATGCGCTGGGCCAGGAAAACAATCCGGAATGGAAAACTGTCGCCTTTAATACC AATGGCGAAATGGTTGCGCCGAACGGTTCTATTGGCTTCCGCTGGGGCGAGAAGGGCAAA TGGAATCTTGAGCAGCGCGACGGCAAAACTGGCGAAGAAACCGAGCTGCAACTGAGCCTG CTGGGTAGCCAGGATGAGATCGCTGAGGTAGGCTTCCCGTACTTTGGTGGCGACGGCACG GAACACTTCAACAAAGTGGAACTGGAAAACGTGCTGCTGCACAAACTGCCGGTGAAACGC CTGCAACTGGCTGATGGCAGCACCGCCCTGGTGACCACCGTTTATGATCTGACGCTGGCA AACTACGGTCTGGAACGTGGCCTGAACGACGTTAACTGTGCAACCAGCTATGACGATGTG AAAGCTTATACCCCGGCCTGGGCCGAGCAGATTACCGGCGTTTCTCGCAGCCAGATTATT CGCATCGCCCGTGAATTTGCCGATAACGCTGATAAAACGCACGGTCGTTCGATGATTATC GTCGGTGCGGGGCTGAACCACTGGTATCACCTCGATATGAACTATCGTGGTCTGATCAAC ATGCTGATTTTCTGCGGCTGTGTCGGTCAGAGCGGGGGCGGCTGGGCGCACTATGTAGGT CAGGAAAAACTGCGTCCGCAAACCGGCTGGCAGCCGCTGGCGTTTGCCCTTGACTGGCAG CGTCCGGCGCGTCACATGAACAGCACTTCTTATTTCTATAACCACTCCAGCCAGTGGCGT TATGAAACCGTCACGGCGGAAGAGTTGCTGTCACCGATGGCGGACAAATCCCGCTATACC GGACACTTGATCGACTTTAACGTCCGTGCGGAACGCATGGGCTGGCTGCCGTCTGCACCG CAGTTAGGCACTAACCCGCTGACTATCGCTGGCGAAGCGGAAAAAGCCGGGATGAATCCG GTGGACTATACGGTGAAATCCCTGAAAGAGGGTTCCATCCGTTTTGCGGCAGAACAACCA GAAAACGGTAAAAACCACCCGCGCAACCTGTTCATCTGGCGTTCTAACCTGCTCGGTTCT TCCGGTAAAGGTCATGAGTTTATGCTCAAGTACCTGCTGGGGACGGAGCACGGTATCCAG GGTAAAGATCTGGGGCAACAGGGCGGCGTGAAGCCGGAAGAAGTGGACTGGCAGGACAAT GGTCTGGAAGGCAAGCTGGATCTGGTGGTTACGCTGGACTTCCGTCTGTCGAGCACCTGT CTCTATTCCGACATCATTTTGCCGACGGCGACCTGGTACGAAAAAGACGACATGAATACT TCGGATATGCATCCGTTTATTCACCCGCTGTCTGCGGCGGTCGATCCGGCCTGGGAAGCG AAAAGCGACTGGGAAATCTACAAAGCCATCGCGAAGAAATTCTCCGAAGTGTGCGTCGGC CATCTGGGTAAAGAAACCGACATCGTCACGCTGCCTATCCAGCATGACTCTGCCGCTGAA CTGGCGCAGCCGCTGGATGTGAAAGACTGGAAAAAAGGCGAGTGCGACCTGATCCCAGGT AAAACCGCGCCACACATTATGGTCGTAGAGCGCGATTATCCGGCGACTTACGAACGCTTT ACCTCTATCGGCCCGCTGATGGAGAAAATCGGTAATGGCGGTAAAGGGATTGCCTGGAAC ACCCAGAGCGAGATGGATCTGCTGCGTAAGCTCAACTACACCAAAGCGGAAGGTCCGGCG AAAGGCCAGCCGATGCTGAACACCGCAATTGATGCGGCAGAGATGATCCTGACACTGGCA CCGGAAACCAACGGTCAGGTAGCCGTGAAAGCCTGGGCTGCCCTGAGCGAATTTACCGGT CGTGACCATACGCATCTGGCGCTGAATAAAGAAGACGAGAAGATCCGCTTCCGCGATATT CAGGCACAGCCGCGCAAAATTATCTCCAGCCCGACCTGGTCTGGTCTGGAAGATGAACAC GTTTCTTACAACGCCGGTTACACCAACGTTCACGAGCTGATCCCATGGCGTACGCTCTCT GGTCGTCAGCAACTGTATCAGGATCACCAGTGGATGCGTGATTTCGGTGAAAGCCTGCTG GTTTATCGTCCGCCGATCGACACCCGTTCGGTGAAAGAAGTGATAGGCCAGAAATCCAAC GGCAACCAGGAAAAAGCGCTCAACTTCCTGACGCCGCACCAGAAGTGGGGTATCCACTCC ACCTACAGCGACAACCTGCTGATGCTGACTTTAGGTCGCGGTGGTCCGGTGGTCTGGTTG AGTGAAGCCGATGCCAAAGATCTGGGTATCGCCGATAACGACTGGATTGAAGTCTTCAAC AGCAACGGTGCTCTGACTGCCCGTGCGGTTGTCAGCCAGCGTGTTCCGGCAGGGATGACC ATGATGTACCACGCGCAGGAACGTATCGTTAACCTGCCTGGTTCGGAAATTACCCAACAG CGTGGTGGTATCCATAACTCGGTCACCCGTATCACGCCGAAACCGACGCATATGATCGGC GGCTATGCCCATCTGGCATACGGCTTTAACTACTATGGCACCGTAGGTTCTAACCGCGAT GAGTTTGTTGTAGTGCGTAAGATGAAGAACATTGACTGGTTAGATGGCGAAGGCAATGAC CAGGTACAGGAGAGCGTAAAATGA PF00384 Molybdopterin PF01568 Molydop_binding component unlocalized protein complex component nitrate reductase complex component protein complex function catalytic activity function oxidoreductase activity, acting on other nitrogenous compounds as donors function molybdenum ion binding function oxidoreductase activity function ion binding function nitrate reductase activity function cation binding function transition metal ion binding function binding process physiological process process nitrogen compound metabolism process metabolism process cellular metabolism process nitrate metabolism process generation of precursor metabolites and energy process electron transport BE0003816 Respiratory nitrate reductase 1 beta chain Escherichia coli (strain K12) # 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 Respiratory nitrate reductase 1 beta chain Energy production and conversion The nitrate reductase enzyme complex allows E.coli to use nitrate as an electron acceptor during anaerobic growth. The beta chain is an electron transfer unit containing four cysteine clusters involved in the formation of iron-sulfur centers. Electrons are transferred from the gamma chain to the molybdenum cofactor of the alpha subunit narH Cell membrane None 6.76 58065.9 Escherichia coli (strain K12) GeneCards narH GenBank Gene Database M20147 GenBank Protein Database 146919 UniProtKB P11349 UniProt Accession NARH_ECOLI Nitrate reductase A subunit beta Quinol-nitrate oxidoreductase subunit beta >Respiratory nitrate reductase 1 beta chain MKIRSQVGMVLNLDKCIGCHTCSVTCKNVWTSREGVEYAWFNNVETKPGQGFPTDWENQE KYKGGWIRKINGKLQPRMGNRAMLLGKIFANPHLPGIDDYYEPFDFDYQNLHTAPEGSKS QPIARPRSLITGERMAKIEKGPNWEDDLGGEFDKLAKDKNFDNIQKAMYSQFENTFMMYL PRLCEHCLNPACVATCPSGAIYKREEDGIVLIDQDKCRGWRMCITGCPYKKIYFNWKSGK SEKCIFCYPRIEAGQPTVCSETCVGRIRYLGVLLYDADAIERAASTENEKDLYQRQLDVF LDPNDPKVIEQAIKDGIPLSVIEAAQQSPVYKMAMEWKLALPLHPEYRTLPMVWYVPPLS PIQSAADAGELGSNGILPDVESLRIPVQYLANLLTAGDTKPVLRALKRMLAMRHYKRAET VDGKVDTRALEEVGLTEAQAQEMYRYLAIANYEDRFVVPSSHRELAREAFPEKNGCGFTF GDGCHGSDTKFNLFNSRRIDAIDVTSKTEPHP >711 bp GACCAGCAAAACGGAGCCGCATCCATGATCGAACTCGTGATTGTATCGCGTCTCCTTGAA TATCCGGATGCTGCCTTATGGCAGCATCAACAAGAGATGTTTGAGGCGATTGCCGCGTCG AAAAATCTGCCAAAAGAGGATGCCCATGCGCTGGGCATTTTCCTGCGCGATTTAACGACG ATGGATCCGCTCGATGCCCAGGCGCAGTACAGCGAACTGTTCGACCGTGGCCGCGCCACG TCACTGTTGCTGTTTGAACATGTGCACGGCGAATCCCGCGACCGCGGCCAGGCGATGGTG GACCTGCTGGCGCAGTACGAGCAGCACGGCTTGCAGTTAAACAGCCGCGAATTGCCGGAC CATCTGCCGCTGTATCTGGAGTACCTGGCGCAGCTGCCGCAAAGCGAAGCCGTGGAAGGT TTGAAAGATATCGCGCCGATTCTGGCATTGCTGAGCGCGCGTCTGCAACAGCGTGAAAGC CGTTATGCCGTGCTGTTTGATCTGCTGCTGAAACTGGCGAATACCGCTATCGACAGCGAC AAAGTGGCGGAAAAAATTGCCGACGAAGCGCGCGATGATACGCCGCAGGCGCTGGATGCT GTCTGGGAAGAAGAGCAGGTTAAATTCTTTGCTGACAAAGGCTGCGGTGATTCAGCAATC ACTGCGCATCAGCGTCGCTTTGCCGGTGCCGTCGCGCCGCAATATCTGAAT component protein complex component unlocalized protein complex component nitrate reductase complex function oxidoreductase activity function oxidoreductase activity, acting on other nitrogenous compounds as donors function nitrate reductase activity function catalytic activity process metabolism process nitrogen compound metabolism process nitrate metabolism process physiological process BE0003817 Respiratory nitrate reductase 1 gamma chain Escherichia coli (strain K12) # 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 Respiratory nitrate reductase 1 gamma chain Energy production and conversion The nitrate reductase enzyme complex allows E.coli to use nitrate as an electron acceptor during anaerobic growth. The gamma chain is a membrane-embedded heme-iron unit resembling cytochrome b, which transfers electrons from quinones to the beta subunit narI Cell inner membrane 4-29 48-70 83-112 125-148 183-198 10.11 25497.2 Escherichia coli (strain K12) GeneCards narI GenBank Gene Database M20147 GenBank Protein Database 146919 UniProtKB P11350 UniProt Accession NARI_ECOLI Cytochrome B-NR Nitrate reductase A subunit gamma Quinol-nitrate oxidoreductase subunit gamma >Respiratory nitrate reductase 1 gamma chain MQFLNMFFFDIYPYIAGAVFLIGSWLRYDYGQYTWRAASSQMLDRKGMNLASNLFHIGIL GIFVGHFFGMLTPHWMYEAWLPIEVKQKMAMFAGGASGVLCLIGGVLLLKRRLFSPRVRA TTTGADILILSLLVIQCALGLLTIPFSAQHMDGSEMMKLVGWAQSVVTFHGGASQHLDGV AFIFRLHLVLGMTLFLLFPFSRLIHIWSVPVEYLTRKYQLVRARH >711 bp GACCAGCAAAACGGAGCCGCATCCATGATCGAACTCGTGATTGTATCGCGTCTCCTTGAA TATCCGGATGCTGCCTTATGGCAGCATCAACAAGAGATGTTTGAGGCGATTGCCGCGTCG AAAAATCTGCCAAAAGAGGATGCCCATGCGCTGGGCATTTTCCTGCGCGATTTAACGACG ATGGATCCGCTCGATGCCCAGGCGCAGTACAGCGAACTGTTCGACCGTGGCCGCGCCACG TCACTGTTGCTGTTTGAACATGTGCACGGCGAATCCCGCGACCGCGGCCAGGCGATGGTG GACCTGCTGGCGCAGTACGAGCAGCACGGCTTGCAGTTAAACAGCCGCGAATTGCCGGAC CATCTGCCGCTGTATCTGGAGTACCTGGCGCAGCTGCCGCAAAGCGAAGCCGTGGAAGGT TTGAAAGATATCGCGCCGATTCTGGCATTGCTGAGCGCGCGTCTGCAACAGCGTGAAAGC CGTTATGCCGTGCTGTTTGATCTGCTGCTGAAACTGGCGAATACCGCTATCGACAGCGAC AAAGTGGCGGAAAAAATTGCCGACGAAGCGCGCGATGATACGCCGCAGGCGCTGGATGCT GTCTGGGAAGAAGAGCAGGTTAAATTCTTTGCTGACAAAGGCTGCGGTGATTCAGCAATC ACTGCGCATCAGCGTCGCTTTGCCGGTGCCGTCGCGCCGCAATATCTGAAT PF02665 Nitrate_red_gam component protein complex component unlocalized protein complex component nitrate reductase complex function oxidoreductase activity, acting on other nitrogenous compounds as donors function nitrate reductase activity function catalytic activity function oxidoreductase activity process generation of precursor metabolites and energy process electron transport process physiological process process metabolism process cellular metabolism BE0003818 Aquaporin Z Escherichia coli (strain K12) # 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 Aquaporin Z Carbohydrate transport and metabolism Channel that permits osmotically driven movement of water in both directions. It is involved in the osmoregulation and in the maintenance of cell turgor during volume expansion in rapidly growing cells. It mediates rapid entry or exit of water in response to abrupt changes in osmolarity aqpZ Cell inner membrane 9-29 34-54 82-102 131-151 156-176 202-222 7.63 23702.6 Escherichia coli (strain K12) GeneCards aqpZ GenBank Gene Database U38664 GenBank Protein Database 1051283 UniProtKB P60844 UniProt Accession AQPZ_ECOLI Bacterial nodulin-like intrinsic protein >Aquaporin Z MFRKLAAECFGTFWLVFGGCGSAVLAAGFPELGIGFAGVALAFGLTVLTMAFAVGHISGG HFNPAVTIGLWAGGRFPAKEVVGYVIAQVVGGIVAAALLYLIASGKTGFDAAASGFASNG YGEHSPGGYSMLSALVVELVLSAGFLLVIHGATDKFAPAGFAPIAIGLALTLIHLISIPV TNTSVNPARSTAVAIFQGGWALEQLWFFWVVPIVGGIIGGLIYRTLLEKRD PF00230 MIP component cell component intrinsic to membrane component integral to membrane component membrane function transporter activity process cellular physiological process process transport process physiological process "
rdfs:label
"(1S)-2-{[{[(2S)-2,3-DIHYDROXYPROPYL]OXY}(HYDROXY)PHOSPHORYL]OXY}-1-[(PENTANOYLOXY)METHYL]ETHYL OCTANOATE"
rdf:type

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

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