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Record Information
Version5.0
StatusExpected but not Quantified
Creation Date2006-08-13 07:46:24 UTC
Update Date2022-03-07 02:49:20 UTC
HMDB IDHMDB0003937
Secondary Accession Numbers
  • HMDB0006350
  • HMDB03937
  • HMDB06350
Metabolite Identification
Common Name3-Oxododecanoyl-CoA
Description3-oxododecanoyl-coa, also known as 3-oxolauroyl-CoA is an acyl-CoA or acyl-coenzyme A. More specifically, it is a 3-oxododecanoic acid thioester of coenzyme A. 3-oxododecanoyl-coa is an acyl-CoA with 12 fatty acid group as the acyl moiety attached to coenzyme A. Coenzyme A was discovered in 1946 by Fritz Lipmann (Journal of Biological Chemistry (1946) 162 (3): 743–744) and its structure was determined in the early 1950s at the Lister Institute in London. Coenzyme A is a complex, thiol-containing molecule that is naturally synthesized from pantothenate (vitamin B5), which is found in various foods such as meat, vegetables, cereal grains, legumes, eggs, and milk. More specifically, coenzyme A (CoASH or CoA) consists of a beta-mercaptoethylamine group linked to the vitamin pantothenic acid (B5) through an amide linkage and 3'-phosphorylated ADP. Coenzyme A is synthesized in a five-step process that requires four molecules of ATP, pantothenate and cysteine. It is believed that there are more than 1100 types of acyl-CoA’s in the human body, which also corresponds to the number of acylcarnitines in the human body. Acyl-CoAs exists in all living species, ranging from bacteria to plants to humans. The general role of acyl-CoA’s is to assist in transferring fatty acids from the cytoplasm to mitochondria. This process facilitates the production of fatty acids in cells, which are essential in cell membrane structure. Acyl-CoA's are also susceptible to beta oxidation, forming, ultimately, acetyl-CoA. Acetyl-CoA can enter the citric acid cycle, eventually forming several equivalents of ATP. In this way, fats are converted to ATP -- or biochemical energy. Acyl-CoAs can be classified into 9 different categories depending on the size of their acyl-group: 1) short-chain acyl-CoAs; 2) medium-chain acyl-CoAs; 3) long-chain acyl-CoAs; and 4) very long-chain acyl-CoAs; 5) hydroxy acyl-CoAs; 6) branched chain acyl-CoAs; 7) unsaturated acyl-CoAs; 8) dicarboxylic acyl-CoAs and 9) miscellaneous acyl-CoAs. Short-chain acyl-CoAs have acyl-groups with two to four carbons (C2-C4), medium-chain acyl-CoAs have acyl-groups with five to eleven carbons (C5-C11), long-chain acyl-CoAs have acyl-groups with twelve to twenty carbons (C12-C20) while very long-chain acyl-CoAs have acyl groups with more than 20 carbons. 3-oxododecanoyl-coa is therefore classified as a long chain acyl-CoA. The oxidative degradation of fatty acids is a two-step process, catalyzed by acyl-CoA synthetase/synthase. Fatty acids are first converted to their acyl phosphate, the precursor to acyl-CoA. The latter conversion is mediated by acyl-CoA synthase. Three types of acyl-CoA synthases are employed, depending on the chain length of the fatty acid. 3-oxododecanoyl-coa, being a long chain acyl-CoA is a substrate for long chain acyl-CoA synthase. The second step of fatty acid degradation is beta oxidation. Beta oxidation occurs in mitochondria and, in the case of very long chain acyl-CoAs, the peroxisome. After its formation in the cytosol, 3-Oxododecanoyl-CoA is transported into the mitochondria, the locus of beta oxidation. Transport of 3-Oxododecanoyl-CoA into the mitochondria requires carnitine palmitoyltransferase 1 (CPT1), which converts 3-Oxododecanoyl-CoA into 3-oxododecanoylcarnitine, which gets transported into the mitochondrial matrix. Once in the matrix, 3-oxododecanoylcarnitine is converted back to 3-Oxododecanoyl-CoA by CPT2, whereupon beta-oxidation can begin. Beta oxidation of 3-Oxododecanoyl-CoA occurs in four steps. First, since 3-Oxododecanoyl-CoA is a long chain acyl-CoA it is the substrate for a long chain acyl-CoA dehydrogenase, which catalyzes dehydrogenation of 3-Oxododecanoyl-CoA, creating a double bond between the alpha and beta carbons. FAD is the hydrogen acceptor, yielding FADH2. Second, Enoyl-CoA hydrase catalyzes the addition of water across the newly formed double bond to make an alcohol. Third, 3-hydroxyacyl-CoA dehydrogenase oxidizes the alcohol group to a ketone and NADH is produced from NAD+. Finally, Thiolase cleaves between the alpha carbon and ketone to release one molecule of acetyl-CoA and a new acyl-CoA which is now 2 carbons shorter. This four-step process repeats until 3-Oxododecanoyl-CoA has had all its carbons removed from the chain, leaving only acetyl-CoA. Beta oxidation, as well as alpha-oxidation, also occurs in the peroxisome. The peroxisome handles beta oxidation of fatty acids that have more than 20 carbons in their chain because the peroxisome contains very-long-chain Acyl-CoA synthetases and dehydrogenases. The heart primarily metabolizes fat for energy and Acyl-CoA metabolism has been identified as a critical molecule in early-stage heart muscle pump failure. Cellular acyl-CoA content also correlates with insulin resistance, suggesting that it can mediate lipotoxicity in non-adipose tissues. Acyl-CoA: diacylglycerol acyltransferase (DGAT) plays an important role in energy metabolism on account of key enzyme in triglyceride biosynthesis. The study of acyl-CoAs is an active area of research and it is likely that many novel acyl-CoAs will be discovered in the coming years. It is also likely that many novel roles in health and disease will be uncovered for these molecules.
Structure
Data?1582752291
Synonyms
ValueSource
3-Oxododecanoyl-coenzyme AHMDB
3-Oxolauroyl-CoAHMDB
Chemical FormulaC33H56N7O18P3S
Average Molecular Weight963.82
Monoisotopic Molecular Weight963.261538249
IUPAC Name{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({[hydroxy(3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxododecanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy)phosphoryl]oxy})phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid
Traditional Name[(2R,3S,4R,5R)-5-(6-aminopurin-9-yl)-4-hydroxy-2-[({hydroxy[hydroxy(3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxododecanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy)phosphoryl]oxyphosphoryl}oxy)methyl]oxolan-3-yl]oxyphosphonic acid
CAS Registry Number78303-19-2
SMILES
CCCCCCCCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)C(O)C(C)(C)COP(O)(=O)OP(O)(=O)OC[C@H]1O[C@H]([C@H](O)[C@@H]1OP(O)(O)=O)N1C=NC2=C(N)N=CN=C12
InChI Identifier
InChI=1S/C33H56N7O18P3S/c1-4-5-6-7-8-9-10-11-21(41)16-24(43)62-15-14-35-23(42)12-13-36-31(46)28(45)33(2,3)18-55-61(52,53)58-60(50,51)54-17-22-27(57-59(47,48)49)26(44)32(56-22)40-20-39-25-29(34)37-19-38-30(25)40/h19-20,22,26-28,32,44-45H,4-18H2,1-3H3,(H,35,42)(H,36,46)(H,50,51)(H,52,53)(H2,34,37,38)(H2,47,48,49)/t22-,26-,27-,28?,32-/m1/s1
InChI KeyHQANBZHVWIDNQZ-IIZVUBDFSA-N
Chemical Taxonomy
Description Belongs to the class of organic compounds known as 3-oxo-acyl coas. These are organic compounds containing a 3-oxo acylated coenzyme A derivative.
KingdomOrganic compounds
Super ClassLipids and lipid-like molecules
ClassFatty Acyls
Sub ClassFatty acyl thioesters
Direct Parent3-oxo-acyl CoAs
Alternative Parents
Substituents
  • Coenzyme a or derivatives
  • Purine ribonucleoside 3',5'-bisphosphate
  • Purine ribonucleoside bisphosphate
  • Purine ribonucleoside diphosphate
  • Ribonucleoside 3'-phosphate
  • Pentose phosphate
  • Pentose-5-phosphate
  • Beta amino acid or derivatives
  • Glycosyl compound
  • N-glycosyl compound
  • 6-aminopurine
  • Monosaccharide phosphate
  • Organic pyrophosphate
  • Pentose monosaccharide
  • Imidazopyrimidine
  • Purine
  • Monoalkyl phosphate
  • Aminopyrimidine
  • 1,3-dicarbonyl compound
  • Imidolactam
  • Monosaccharide
  • N-acyl-amine
  • N-substituted imidazole
  • Organic phosphoric acid derivative
  • Pyrimidine
  • Alkyl phosphate
  • Fatty amide
  • Phosphoric acid ester
  • Tetrahydrofuran
  • Imidazole
  • Azole
  • Heteroaromatic compound
  • Carbothioic s-ester
  • Secondary alcohol
  • Ketone
  • Thiocarboxylic acid ester
  • Carboxamide group
  • Secondary carboxylic acid amide
  • Amino acid or derivatives
  • Sulfenyl compound
  • Thiocarboxylic acid or derivatives
  • Organoheterocyclic compound
  • Azacycle
  • Oxacycle
  • Carboxylic acid derivative
  • Organosulfur compound
  • Organic oxygen compound
  • Hydrocarbon derivative
  • Carbonyl group
  • Organic nitrogen compound
  • Primary amine
  • Organopnictogen compound
  • Organic oxide
  • Organooxygen compound
  • Organonitrogen compound
  • Amine
  • Alcohol
  • Aromatic heteropolycyclic compound
Molecular FrameworkAromatic heteropolycyclic compounds
External Descriptors
Ontology
Physiological effectNot Available
Disposition
Process
Role
Physical Properties
StateSolid
Experimental Molecular Properties
PropertyValueReference
Melting PointNot AvailableNot Available
Boiling PointNot AvailableNot Available
Water SolubilityNot AvailableNot Available
LogP-0.364Not Available
Experimental Chromatographic PropertiesNot Available
Predicted Molecular Properties
PropertyValueSource
Water Solubility2.82 g/LALOGPS
logP0.98ALOGPS
logP-2.9ChemAxon
logS-2.5ALOGPS
pKa (Strongest Acidic)0.83ChemAxon
pKa (Strongest Basic)4.95ChemAxon
Physiological Charge-4ChemAxon
Hydrogen Acceptor Count18ChemAxon
Hydrogen Donor Count9ChemAxon
Polar Surface Area380.7 ŲChemAxon
Rotatable Bond Count30ChemAxon
Refractivity218.94 m³·mol⁻¹ChemAxon
Polarizability89.72 ųChemAxon
Number of Rings3ChemAxon
BioavailabilityNoChemAxon
Rule of FiveNoChemAxon
Ghose FilterNoChemAxon
Veber's RuleNoChemAxon
MDDR-like RuleYesChemAxon
Predicted Chromatographic Properties

Predicted Collision Cross Sections

PredictorAdduct TypeCCS Value (Å2)Reference
DeepCCS[M-2H]-278.98730932474
DeepCCS[M+Na]+252.73230932474
AllCCS[M+H]+280.932859911
AllCCS[M+H-H2O]+281.532859911
AllCCS[M+NH4]+280.232859911
AllCCS[M+Na]+280.132859911
AllCCS[M-H]-285.132859911
AllCCS[M+Na-2H]-290.532859911
AllCCS[M+HCOO]-296.432859911

Predicted Kovats Retention Indices

Not Available
Spectra

GC-MS Spectra

Spectrum TypeDescriptionSplash KeyDeposition DateSourceView
MSMass Spectrum (Electron Ionization)Not Available2022-08-06Not AvailableView Spectrum

MS/MS Spectra

Spectrum TypeDescriptionSplash KeyDeposition DateSourceView
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 10V, Positive-QTOFsplash10-000i-1911101102-28c1a77e39e689b9d6ec2015-09-15Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 20V, Positive-QTOFsplash10-000i-0920300000-fe0fcd490fad648c21fd2015-09-15Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 40V, Positive-QTOFsplash10-000i-1900001000-b14c48fd7f94587c46c52015-09-15Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 10V, Negative-QTOFsplash10-02cs-2921121203-f382e032b417ee8f5e342015-09-15Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 20V, Negative-QTOFsplash10-001i-2910100001-796e51294930a7b170772015-09-15Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 40V, Negative-QTOFsplash10-057i-6900000000-cd1cef9797873819f2542015-09-15Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 10V, Positive-QTOFsplash10-03dj-0000000009-9e0d753ed4e9cdf2ccd22021-09-22Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 20V, Positive-QTOFsplash10-01ta-0000100169-558f24771bf9d4460e242021-09-22Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 40V, Positive-QTOFsplash10-0a4i-0002900000-99e2a0a8c5a0c89bda612021-09-22Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 10V, Negative-QTOFsplash10-03di-0000000009-0903d17cf8900802a9742021-09-22Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 20V, Negative-QTOFsplash10-03fu-4100201219-5158c1816903dcb83f162021-09-22Wishart LabView Spectrum
Predicted LC-MS/MSPredicted LC-MS/MS Spectrum - 3-Oxododecanoyl-CoA 40V, Negative-QTOFsplash10-00mw-8205511829-87bcdd149e37f6683ffb2021-09-22Wishart LabView Spectrum

NMR Spectra

Spectrum TypeDescriptionDeposition DateSourceView
Predicted 1D NMR13C NMR Spectrum (1D, 100 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 100 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 1000 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 1000 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 200 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 200 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 300 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 300 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 400 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 400 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 500 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 500 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 600 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 600 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 700 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 700 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 800 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 800 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR13C NMR Spectrum (1D, 900 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Predicted 1D NMR1H NMR Spectrum (1D, 900 MHz, H2O, predicted)2022-08-20Wishart LabView Spectrum
Biological Properties
Cellular Locations
  • Extracellular
  • Membrane
Biospecimen LocationsNot Available
Tissue LocationsNot Available
Pathways
Normal Concentrations
Not Available
Abnormal Concentrations
Not Available
Associated Disorders and Diseases
Disease ReferencesNone
Associated OMIM IDsNone
DrugBank IDNot Available
Phenol Explorer Compound IDNot Available
FooDB IDFDB023256
KNApSAcK IDNot Available
Chemspider ID389502
KEGG Compound IDC05263
BioCyc IDNot Available
BiGG ID45453
Wikipedia LinkNot Available
METLIN IDNot Available
PubChem Compound440604
PDB IDNot Available
ChEBI ID27868
Food Biomarker OntologyNot Available
VMH ID3ODDCOA
MarkerDB IDNot Available
Good Scents IDNot Available
References
Synthesis ReferenceKrahling, Jeffrey B.; Tolbert, N. E. Peroxisomal b-ketothiolase. Archives of Biochemistry and Biophysics (1981), 209(1), 100-10. CODEN: ABBIA4 ISSN:0003-9861. CAN 95:37869 AN 1981:437869
Material Safety Data Sheet (MSDS)Not Available
General ReferencesNot Available

Enzymes

General function:
Involved in transferase activity, transferring acyl groups other than amino-acyl groups
Specific function:
Abolishes BNIP3-mediated apoptosis and mitochondrial damage.
Gene Name:
ACAA2
Uniprot ID:
P42765
Molecular weight:
41923.82
Reactions
Decanoyl-CoA (n-C10:0CoA) + Acetyl-CoA → Coenzyme A + 3-Oxododecanoyl-CoAdetails
General function:
Involved in transferase activity, transferring acyl groups other than amino-acyl groups
Specific function:
Not Available
Gene Name:
ACAA1
Uniprot ID:
P09110
Molecular weight:
34664.46
Reactions
Decanoyl-CoA (n-C10:0CoA) + Acetyl-CoA → Coenzyme A + 3-Oxododecanoyl-CoAdetails
General function:
Involved in transferase activity, transferring acyl groups other than amino-acyl groups
Specific function:
Not Available
Gene Name:
HADHB
Uniprot ID:
P55084
Molecular weight:
51293.955
Reactions
Decanoyl-CoA (n-C10:0CoA) + Acetyl-CoA → Coenzyme A + 3-Oxododecanoyl-CoAdetails
General function:
Involved in oxidoreductase activity
Specific function:
Functions in mitochondrial tRNA maturation. Part of mitochondrial ribonuclease P, an enzyme composed of MRPP1/TRMT10C, MRPP2/HSD17B10 and MRPP3/KIAA0391, which cleaves tRNA molecules in their 5'-ends. By interacting with intracellular amyloid-beta, it may contribute to the neuronal dysfunction associated with Alzheimer disease (AD).
Gene Name:
HSD17B10
Uniprot ID:
Q99714
Molecular weight:
25983.695
General function:
Involved in oxidoreductase activity
Specific function:
Not Available
Gene Name:
EHHADH
Uniprot ID:
Q08426
Molecular weight:
69153.26
Reactions
(S)-3-Hydroxydodecanoyl-CoA + NAD → 3-Oxododecanoyl-CoA + NADH + Hydrogen Iondetails
General function:
Involved in 3-hydroxyacyl-CoA dehydrogenase activity
Specific function:
Plays an essential role in the mitochondrial beta-oxidation of short chain fatty acids. Exerts it highest activity toward 3-hydroxybutyryl-CoA.
Gene Name:
HADH
Uniprot ID:
Q16836
Molecular weight:
36035.11
Reactions
(S)-3-Hydroxydodecanoyl-CoA + NAD → 3-Oxododecanoyl-CoA + NADH + Hydrogen Iondetails
General function:
Involved in oxidoreductase activity
Specific function:
Bifunctional subunit.
Gene Name:
HADHA
Uniprot ID:
P40939
Molecular weight:
82998.97
Reactions
(S)-3-Hydroxydodecanoyl-CoA + NAD → 3-Oxododecanoyl-CoA + NADH + Hydrogen Iondetails
General function:
Involved in oxidoreductase activity
Specific function:
Bifunctional enzyme acting on the peroxisomal beta-oxidation pathway for fatty acids. Catalyzes the formation of 3-ketoacyl-CoA intermediates from both straight-chain and 2-methyl-branched-chain fatty acids.
Gene Name:
HSD17B4
Uniprot ID:
P51659
Molecular weight:
79685.715