226ContextCarnitine Palmitoyl Transferase Deficiency IICarnitine palmitoyltransferase II deficiency, which is also known as CPT II deficiency, is an inherited inborn error of metabolism (IEM) of fatty acid oxidation leading to muscle weakness. It is the most common inherited disorder of lipid metabolism affecting the skeletal muscle of adults. It is an autosomal recessive disorder associated with a mutation in the enzyme carnitine palmitoyltransferase II. Carnitine palmitoyltransferase II (CPT2) is a peripheral inner mitochondrial membrane protein found in all tissues that oxidize fatty acids. It catalyzes the transesterification of palmitoylcarnitine back into palmitoyl-CoA which is a substrate for beta-oxidation inside the mitochondrial matrix. CPT2 is responsible for the formation of acylcarnitines by catalyzing the transfer of the acyl group of a long-chain fatty acyl-CoA from CoA to carnitine. Carnitine, a natural substance acquired mostly through the diet, is used by cells to process fats and produce energy. Deficiencies or mutations in the CPT2 gene lead to disorders of long-chain fatty acid oxidation. There are three forms of CPT II deficiency: (1) lethal neonatal form, (2) severe infantile hepatocardiomuscular form, and (3) the myopathic form. More than 300 CPT II deficiency cases have been described with the myopathic form being the most common (myopathic form: 86%, severe infantile form: 8%, neonatal form: 6% of cases). The myopathic form is usually mild and can manifest from infancy to adulthood. The infantile and neonatal forms are severe multisystemic diseases characterized by liver failure with hypoketotic hypoglycemia, cardiomyopathy, seizures, and early death. The adult-onset myopathic form is characterized by exercise-induced muscle pain and weakness, sometimes associated with myoglobinuria. The most common cause of hereditary myoglobinuria is the myopathic form of CPT II deficiency and affects men more than women.DiseasePW000517CenterPathwayVisualizationContext55142507850#000099PathwayVisualization3110Fatty Acid MetabolismFatty acids constitute a large energy source for the body. The cellular membrane is also made up of fatty acids. During starvation times, fatty acids can provide energy to humans for numerous days. Fatty acid metabolism is also known as beta-oxidation. During metabolism, acetyl CoA is produced that can then enter the citric acid cycle. When ATP is needed, ATP may be generated by increasing fatty acid metabolism. Fatty acid metabolism is essentially the reverse reaction of fatty acid synthesis. Metabolic17932SubPathway148145Compound88083SubPathway149145Compound880981SubPathway1332145Compound8113Lehninger, A.L. Lehninger principles of biochemistry (4th ed.) (2005). New York: W.H Freeman.10Pathway114Lodish, H. et al. Molecular cell biology. (2004) New York: W.H Freeman.10Pathway115Salway, J.G. Metabolism at a glance (3rd ed.) (2004). Alden, Mass.: Blackwell Pub.10Pathway116Vance, D.E., and Vance, J.E. Biochemistry of lipids, lipoproteins, and membranes (4th ed.) (2002) Amsterdam; Boston: Elsevier.10Pathway27961819047759 Wakil SJ, Abu-Elheiga LA: Fatty acid metabolism: target for metabolic syndrome. J Lipid Res. 2009 Apr;50 Suppl:S138-43. doi: 10.1194/jlr.R800079-JLR200. Epub 2008 Dec 1.10Pathway1CellCL:00000005HepatocyteCL:00001824CardiomyocyteCL:00007463NeuronCL:00005407Epithelial CellCL:000006612AstrocyteCL:00001272Platelet CL:00002338Beta cellCL:000063911Colorectal Cancer CellCL:00010641Homo sapiens9606EukaryoteHuman3Escherichia coli562Prokaryote18Saccharomyces cerevisiae4932EukaryoteYeast12Mus musculus10090EukaryoteMouse5Bos taurus9913EukaryoteCattle17Rattus norvegicus10116EukaryoteRat10Drosophila melanogaster7227EukaryoteFruit fly6Caenorhabditis elegans6239EukaryoteRoundworm2Bacteria2ProkaryoteBacteria4Arabidopsis thaliana3702EukaryoteThale cress24Solanum lycopersicum4081EukaryoteTomato21Xenopus laevis8355EukaryoteAfrican clawed frog23Pseudomonas aeruginosa287Prokaryote60Nitzschia sp.0001EukaryoteNitzschia419Schizosaccharomyces pombe4896Eukaryote25Escherichia coli (strain K12)83333Prokaryote49Bathymodiolus platifrons220390EukaryoteDeep sea mussel202Spathaspora passalidarum340170EukaryoteSpathaspora passalidarum51Picea sitchensis3332EukaryoteSitka spruce55Yarrowia lipolytica4952Eukaryoteyli14Mitochondrial Outer MembraneGO:00057415CytoplasmGO:00057373Mitochondrial MatrixGO:00057592MitochondrionGO:000573912Mitochondrial Inner MembraneGO:000574310Cell MembraneGO:00058867Endoplasmic Reticulum MembraneGO:00057891CytosolGO:000582913Endoplasmic ReticulumGO:00057834PeroxisomeGO:000577727Peroxisome MembraneGO:00057788Smooth Endoplasmic Reticulum GO:00057906LysosomeGO:000576411Extracellular SpaceGO:000561516Lysosomal LumenGO:004320218Melanosome MembraneGO:003316225Golgi ApparatusGO:000579420Endoplasmic Reticulum LumenGO:000578821SynapseGO:004520215NucleusGO:000563431Periplasmic SpaceGO:000562035ChloroplastGO:000950736MembraneGO:001602053Endoplasmic Reticulum BodyGO:001016834Plant-Type VacuoleGO:000032540PeriplasmGO:004259724Mitochondrial Intermembrane SpaceGO:000575832Inner MembraneGO:007025826Golgi Apparatus MembraneGO:000013939Mitochondrial membraneGO:00319661LiverBTO:00007597294Adrenal MedullaBTO:000004971825IntestineBTO:000064828StomachBTO:0001307155267Nervous SystemBTO:00014848Blood VesselBTO:0001102741111HeartBTO:000056273106KidneyBTO:000067171824BrainBTO:000014289162Endothelium 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280231PW_BS0005485311015PW_BS0000535511215PW_BS00005511812551PW_BS0005883093911PW_BS0000247851521PW_BS000522147L-PalmitoylcarnitineHMDB0000222L-Palmitoylcarnitine is a long-chain acyl fatty acid derivative ester of carnitine which facilitates the transfer of long-chain fatty acids from cytoplasm into mitochondria during the oxidation of fatty acids. L-palmitoylcarnitine, due to its amphipatic character is, like detergents, a surface-active molecule and by changing the membrane fluidity and surface charge can change activity of several enzymes and transporters localized in the membrane. L-palmitoylcarnitine has been also reported to change the activity of certain proteins. On the contrary to carnitine, palmitoylcarnitine was shown to stimulate the activity of caspases 3, 7 and 8 and the level of this long-chain acylcarnitine increased during apoptosis. Palmitoylcarnitine was also reported to diminish completely binding of phorbol esters, the protein kinase C activators and to decrease the autophosphorylation of the enzyme. Apart from these isoform nonspecific phenomena, palmitoylcarnitine was also shown to be responsible for retardation in cytoplasm of protein kinase C isoforms β and δ and, in the case of the latter one, to decrease its interaction with GAP-43. Some of the physico-chemical properties of palmitoylcarnitine may help to explain the need for coenzyme A-carnitine-coenzyme A acyl exchange during mitochondrial fatty acid import. The amphiphilic character of palmitoylcarnitine may also explain its proposed involvement in the pathogenesis of myocardial ischemia. L-Palmitoylcarnitine accumulates in ischemic myocardium and potentially contribute to myocardial damage through alterations in membrane molecular dynamics , one mechanism through which could play an important role in ischemic injury. Palmitoylcarnitine is characteristically elevated in carnitine palmitoyltransferase II deficiency, late-onset (OMIM 255110). (PMID 2540838, 15363641, 8706815).2364-67-2C029901195381617490CPD-41910128117CCCCCCCCCCCCCCCC(=O)O[C@H](CC([O-])=O)C[N+](C)(C)CC23H45NO4InChI=1S/C23H45NO4/c1-5-6-7-8-9-10-11-12-13-14-15-16-17-18-23(27)28-21(19-22(25)26)20-24(2,3)4/h21H,5-20H2,1-4H3/t21-/m1/s1XOMRRQXKHMYMOC-OAQYLSRUSA-N(3R)-3-(hexadecanoyloxy)-4-(trimethylazaniumyl)butanoate399.6077399.334858933-7.580palmitoylcarnitine00FDB021910(+)-palmitoylcarnitine;(3s)-3-hexadecanoyloxy-4-(trimethylammonio)butanoate;(3s)-3-hexadecanoyloxy-4-(trimethylammonio)butanoic acid;(3s)-3-palmitoyloxy-4-(trimethylammonio)butanoate;(3s)-3-palmitoyloxy-4-(trimethylammonio)butanoic acid;3-carboxy-n,n,n-trimethyl-2-[(1-oxohexadecyl)oxy]-1-propanaminium;D-palmitylcarnitine;Hexadecanoyl-l-carnitine;Hexadecenoyl carnitine;L(-)-palmitylcarnitine;L-carnitine palmitoyl ester;L-palmitoyl-l-carnitine;Palmitoyl d-carnitine;Palmitoyl-(-)-carnitine;Palmitoyl-l-carnitine;Palmityl-l-carnitine;(3r)-3-palmitoyloxy-4-(trimethylammonio)butanoate;Hexadecanoylcarnitine;L-palmitoylcarnitine;O-hexadecanoyl-(r)-carnitine;O-hexadecanoyl-r-carnitine;Palmitoylcarnitine;(3r)-3-palmitoyloxy-4-(trimethylammonio)butanoic acidPW_C000147L-Plmtc886228888889452311035246101696016169721987722113377229111792603331202304061202421221229031201229161351255784791255912971271085011271202051407501851407661001031Palmitoyl-CoAHMDB0001338Palmitoyl-CoA, also known as palmityl CoA or CoA, palmitoyl, belongs to the class of organic compounds known as long-chain fatty acyl coas. These are acyl CoAs where the group acylated to the coenzyme A moiety is a long aliphatic chain of 13 to 21 carbon atoms. Palmityl-CoA is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa). Palmityl-CoA has been found throughout most human tissues, and has also been primarily detected in urine. Within the cell, palmityl-CoA is primarily located in the cytoplasm and mitochondria. In humans, palmityl-CoA is involved in cardiolipin biosynthesis CL(16:0/18:2(9Z,12Z)/22:6(4Z,7Z,10Z,13Z,16Z,19Z)/16:0) pathway, cardiolipin biosynthesis CL(16:0/22:5(4Z,7Z,10Z,13Z,16Z)/16:1(9Z)/22:5(4Z,7Z,10Z,13Z,16Z)) pathway, cardiolipin biosynthesis CL(16:0/18:0/16:0/22:5(4Z,7Z,10Z,13Z,16Z)) pathway, and cardiolipin biosynthesis CL(22:5(7Z,10Z,13Z,16Z,19Z)/16:0/22:5(7Z,10Z,13Z,16Z,19Z)/16:1(9Z)) pathway. Palmityl-CoA is also involved in several metabolic disorders, some of which include de novo triacylglycerol biosynthesis TG(14:1(9Z)/16:0/14:1(9Z)) pathway, de novo triacylglycerol biosynthesis TG(16:0/14:1(9Z)/14:1(9Z)) pathway, de novo triacylglycerol biosynthesis TG(a-25:0/i-14:0/16:0) pathway, and de novo triacylglycerol biosynthesis TG(20:3(5Z,8Z,11Z)/16:0/22:5(7Z,10Z,13Z,16Z,19Z)) pathway. Palmityl-CoA is a fatty acid coenzyme derivative which plays a key role in fatty acid oxidation and biosynthesis.1763-10-6C001541566715525PALMITYL-COA14902CCCCCCCCCCCCCCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC37H66N7O17P3SInChI=1S/C37H66N7O17P3S/c1-4-5-6-7-8-9-10-11-12-13-14-15-16-17-28(46)65-21-20-39-27(45)18-19-40-35(49)32(48)37(2,3)23-58-64(55,56)61-63(53,54)57-22-26-31(60-62(50,51)52)30(47)36(59-26)44-25-43-29-33(38)41-24-42-34(29)44/h24-26,30-32,36,47-48H,4-23H2,1-3H3,(H,39,45)(H,40,49)(H,53,54)(H,55,56)(H2,38,41,42)(H2,50,51,52)/t26-,30-,31-,32+,36-/m1/s1MNBKLUUYKPBKDU-BBECNAHFSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-[(2-{[2-(hexadecanoylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid1005.9431005.344873947-2.769palmitoyl-coa0-4FDB022562Hexadecanoyl coa;Hexadecanoyl coenzyme a;Palmitoyl coa;Palmitoyl coenzyme a;Palmitoyl-coa;Palmitoyl-coenzyme a;Palmityl-coa;Palmityl-coenzyme a;S-hexadecanoate;S-hexadecanoate coa;S-hexadecanoate coenzyme a;S-hexadecanoic acid;S-palmitoylcoenzyme a;CoA(16:0)PW_C001031COA16:087538802289017164714209010209625229102524410469581626970199712916372011609123170912918892141952550349772191347722732977893112780453327804913278549115792573338184433190767210957063839712038210859728811110338911420539012022838412066440712135640512140412312141112412290112112291439912327811912391537612396344712397011812557648012558948412602648112602847812620829912710639112747820612748020912777038812884739814074818614076489144L-CarnitineHMDB0000062Carnitine is not an essential amino acid; it can be synthesized in the body. However, it is so important in providing energy to muscles (including the heart) that some researchers are now recommending carnitine supplements in the diet, particularly for people who do not consume much red meat (the main food source for carnitine). Carnitine has been described as a vitamin, an amino acid, or a metabimin (i.e. an essential metabolite). Like the B vitamins, carnitine contains nitrogen and is very soluble in water, and to some researchers carnitine is a vitamin (Liebovitz 1984). It was found that an animal (yellow mealworm) could not grow without carnitine in its diet. However, as it turned out, almost all other animals, including humans, do make their own carnitine; thus, it is no longer considered a vitamin. Nevertheless, in certain circumstances, such as deficiencies of methionine, lysine, or vitamin C or kidney dialysis, carnitine shortages develop. Under these conditions, carnitine must be absorbed from food, and for this reason it is sometimes referred to as a "metabimin" or a conditionally essential metabolite. Like the other amino acids used or manufactured by the body, carnitine is an amine. But like choline, which is sometimes considered to be a B vitamin, carnitine is also an alcohol (specifically, a trimethylated carboxy-alcohol). Thus, carnitine is an unusual amino acid and has different functions than most other amino acids, which are usually employed by the body in the construction of protein. Carnitine is an essential factor in fatty acid metabolism in mammals. Its most important known metabolic function is to transport fat into the mitochondria of muscle cells, including those in the heart, for oxidation. This is how the heart gets most of its energy. In humans, about 25% of carnitine is synthesized in the liver, kidney, and brain from the amino acids lysine and methionine. Most of the carnitine in the body comes from dietary sources such as red meat and dairy products. Inborn errors of carnitine metabolism can lead to brain deterioration like that of Reye's syndrome, gradually worsening muscle weakness, Duchenne-like muscular dystrophy, and extreme muscle weakness with fat accumulation in muscles. Borum et al. (1979) describe carnitine as an essential nutrient for pre-term babies and individuals who are unable to eat a normal diet (e.g. non-ketotic hypoglycemics, kidney dialysis patients) (PMID: 115309). In conditions such as kwashiorkor, cirrhosis, and heart muscle disease (cardiomyopathy) as well as in inborn errors of metabolism such as type IV hyperlipidemia and propionic or organic aciduria (acid urine resulting from genetic or other anomalies), carnitine is essential to life and carnitine supplements are valuable. Carnitine therapy may also be useful in a wide variety of clinical conditions. Carnitine supplementation has improved some patients who have angina secondary to coronary artery disease. It may also be worth a trial for patients with any form of hyperlipidemia or muscle weakness. Carnitine supplements may also be useful in many forms of toxic or metabolic liver disease and in cases of heart muscle disease. Hearts undergoing severe arrhythmia quickly deplete their stores of carnitine. Athletes, particularly in Europe, have used carnitine supplements for improved endurance. Carnitine may improve muscle building by improving fat utilization and may even be useful in treating obesity. Carnitine joins a long list of nutrients which may be of value in treating pregnant women, hypothyroid individuals, and male infertility due to the low motility of sperm. Carnitine deficiency is noted in abnormal liver function, renal dialysis patients, and severe to moderate muscular weakness with associated anorexia (http://www.dcnutrition.com). Carnitine is a biomarker for the consumption of meat.541-15-1C003181091716347CARNITINE10455DB00583C[N+](C)(C)C[C@H](O)CC([O-])=OC7H15NO3InChI=1S/C7H15NO3/c1-8(2,3)5-6(9)4-7(10)11/h6,9H,4-5H2,1-3H3/t6-/m1/s1PHIQHXFUZVPYII-ZCFIWIBFSA-N(3R)-3-hydroxy-4-(trimethylazaniumyl)butanoate161.1989161.105193351-1.601L-carnitine00FDB000572(-)-(r)-3-hydroxy-4-(trimethylammonio)butyrate;(-)-carnitine;(r)-(3-carboxy-2-hydroxypropyl)trimethylammonium hydroxide;(r)-carnitine;(s)-carnitine;1-carnitine;3-carboxy-2-hydroxy-n,n,n-trimethyl-1-propanaminium;3-hydroxy-4-trimethylammoniobutanoate;3-hydroxy-4-trimethylammoniobutanoic acid;Bicarnesine;Carniking;Carniking 50;Carnilean;Carnipass;Carnipass 20;Carnitene;Carnitine;Carnitor;D-carnitine;Dl-carnitine;Karnitin;L-(-)-carnitine;L-carnitine;L-gamma-trimethyl-beta-hydroxybutyrobetaine;Levocarnitina;Levocarnitine;Levocarnitinum;R-(-)-3-hydroxy-4-trimethylaminobutyrate;Vitamin bt;Delta-carnitine;Gamma-trimethyl-ammonium-beta-hydroxybutirate;Gamma-trimethyl-beta-hydroxybutyrobetaine;Gamma-trimethyl-hydroxybutyrobetaine;(-)-l-carnitine;3-carboxy-2-hydroxy-n,n,n-trimethyl-1-propanaminium hydroxide, inner salt;CarnicorPW_C000044L-Carnt675318852289117245752519326752288582887452301025245104695916269711997722013477228329775583347756111277567132777481297833911178345133792583338063037480633119806391181202293841202413821205544141224124081224214071225221241226171221226214061229021211229153991231884501251911351251951201255774801255904841265584821265694811266752991267692971267734791271073911271193891281315021281422061282553881283642051283685011407491861407658911099Coenzyme AHMDB0001423Coenzyme A (CoA, CoASH, or HSCoA) is a coenzyme notable for its role in the synthesis and oxidization of fatty acids and the oxidation of pyruvate in the citric acid cycle. It is adapted from beta-mercaptoethylamine, panthothenate, and adenosine triphosphate. It is also a parent compound for other transformation products, including but not limited to, phenylglyoxylyl-CoA, tetracosanoyl-CoA, and 6-hydroxyhex-3-enoyl-CoA. Coenzyme A is synthesized in a five-step process from pantothenate and cysteine. In the first step pantothenate (vitamin B5) is phosphorylated to 4'-phosphopantothenate by the enzyme pantothenate kinase (PanK, CoaA, CoaX). In the second step, a cysteine is added to 4'-phosphopantothenate by the enzyme phosphopantothenoylcysteine synthetase (PPC-DC, CoaB) to form 4'-phospho-N-pantothenoylcysteine (PPC). In the third step, PPC is decarboxylated to 4'-phosphopantetheine by phosphopantothenoylcysteine decarboxylase (CoaC). In the fourth step, 4'-phosphopantetheine is adenylylated to form dephospho-CoA by the enzyme phosphopantetheine adenylyl transferase (CoaD). Finally, dephospho-CoA is phosphorylated using ATP to coenzyme A by the enzyme dephosphocoenzyme A kinase (CoaE). Since coenzyme A is, in chemical terms, a thiol, it can react with carboxylic acids to form thioesters, thus functioning as an acyl group carrier. CoA assists in transferring fatty acids from the cytoplasm to the mitochondria. A molecule of coenzyme A carrying an acetyl group is also referred to as acetyl-CoA. When it is not attached to an acyl group, it is usually referred to as 'CoASH' or 'HSCoA'. Coenzyme A is also the source of the phosphopantetheine group that is added as a prosthetic group to proteins such as acyl carrier proteins and formyltetrahydrofolate dehydrogenase. Acetyl-CoA is an important molecule itself. It is the precursor to HMG CoA which is a vital component in cholesterol and ketone synthesis. Furthermore, it contributes an acetyl group to choline to produce acetylcholine in a reaction catalysed by choline acetyltransferase. Its main task is conveying the carbon atoms within the acetyl group to the citric acid cycle to be oxidized for energy production (Wikipedia).85-61-0C0001068161146900CO-A6557CC(C)(COP(O)(=O)OP(O)(=O)OC[C@H]1O[C@H]([C@H](O)[C@@H]1OP(O)(O)=O)N1C=NC2=C1N=CN=C2N)[C@@H](O)C(=O)NCCC(=O)NCCSC21H36N7O16P3SInChI=1S/C21H36N7O16P3S/c1-21(2,16(31)19(32)24-4-3-12(29)23-5-6-48)8-41-47(38,39)44-46(36,37)40-7-11-15(43-45(33,34)35)14(30)20(42-11)28-10-27-13-17(22)25-9-26-18(13)28/h9-11,14-16,20,30-31,48H,3-8H2,1-2H3,(H,23,29)(H,24,32)(H,36,37)(H,38,39)(H2,22,25,26)(H2,33,34,35)/t11-,14-,15-,16+,20-/m1/s1RGJOEKWQDUBAIZ-IBOSZNHHSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-({2-[(2-sulfanylethyl)carbamoyl]ethyl}carbamoyl)propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid767.534767.115208365-2.2210coenzyme A0-4FDB022614Acetoacetyl coenzyme a sodium salt;Coa;Coa hydrate;Coa-sh;Coash;Coenzyme a;Coenzyme a hydrate;Coenzyme a-sh;Coenzyme ash;Coenzymes a;Depot-zeel;Propionyl coa;Propionyl coenzyme a;S-propanoate;S-propanoate coa;S-propanoate coenzyme a;S-propanoic acid;S-propionate coa;S-propionate coenzyme a;Zeel;[(2r,3s,4r,5r)-5-(6-amino-9h-purin-9-yl)-4-hydroxy-3-(phosphonooxy)tetrahydrofuran-2-yl]methyl 3-hydroxy-4-({3-oxo-3-[(2-sulfanylethyl)amino]propyl}amino)-2,2-dimethyl-4-oxobutyl dihydrogen diphosphatePW_C001099CoA21143868845387922892172407592414224595281329286231334211335118461810462958484214486554487965232102524710452801035477124573410857771016023155607516163841646817869301606961162697319970831887108163729319873472107458222822915190812269090224912417092151951301329915318249254884942616315769072937711913377222134772303297729211177550132775553347756311277633336776721297799611578047332780563507841333578567130792593337997433180005368806201188062737480635119806653769382838293834383986742881105553891105613901158423991158473981199514061201474051202313841203051221206344071207621171214061231214214331215211251216664291216824081217144141224044221227411201229041211229601351239654471239794681240791361242204641242654501249743751253414791255094781255794801255924841256342971260844811265494911265604821267463001268845011270462091271093911273012051275402061276673881281215081281335021283403951407511861407631851407678912009(2E)-Hexadecenoyl-CoAHMDB0003945(2E)-Hexadecenoyl-CoA is an intermediate in fatty acid metabolism, the substrate of the enzyme enoyl-CoA hydratase [EC:4.2.1.17]; (2E)-Hexadecenoyl-CoA is also the substrate of the enzyme trans-2-enoyl-CoA reductase [EC:1.3.1.38], in the fatty acid elongation pathway in mitochondria. (PMID: 1278159, KEGG).4460-95-1C05272461731766152626332261CCCCCCCCCCCCC\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC37H64N7O17P3SInChI=1S/C37H64N7O17P3S/c1-4-5-6-7-8-9-10-11-12-13-14-15-16-17-28(46)65-21-20-39-27(45)18-19-40-35(49)32(48)37(2,3)23-58-64(55,56)61-63(53,54)57-22-26-31(60-62(50,51)52)30(47)36(59-26)44-25-43-29-33(38)41-24-42-34(29)44/h16-17,24-26,30-32,36,47-48H,4-15,18-23H2,1-3H3,(H,39,45)(H,40,49)(H,53,54)(H,55,56)(H2,38,41,42)(H2,50,51,52)/b17-16+/t26-,30-,31-,32+,36-/m1/s1JUPAQFRKPHPXLD-MSHHSVQMSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-{[2-({2-[(2E)-hexadec-2-enoylsulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid1003.931003.329225797-2.889(E)-2-hexadecenoyl-coa0-4FDB023264(2e)-hexadecenoyl-coa;(2e)-hexadecenoyl-coenzyme a;Trans-2-hexadecenoyl-coa;Trans-2-hexadecenoyl-coenzyme a;(e)-c16:1 n-14-coa;(e)-hexadec-2-enoyl-coa tetraanion;(e)-hexadec-2-enoyl-coenzyme a tetraanion;(e)-hexadec-2-enoyl-coenzyme a(4-);Trans-2-hexadecenoyl-coa(4-);Trans-2-hexadecenoyl-coenzyme a tetraanion;Trans-2-hexadecenoyl-coenzyme a(4-);Trans-c16:1 n-14-coa;Trans-hexadec-2-enoyl-coa(4-)PW_C002009(E)-C168743894179044523510369641617128163772241337789211212023440612066340712290712012327711912558247912711250114075418519963-Hydroxyhexadecanoyl-CoAHMDB0003932(S)-3-Hydroxyhexadecanoyl-CoA is a beta-oxidation intermediate derivative of palmitoyl-CoA and the substrate of the enzyme peroxisomal acyl-CoA thioesterase 2 (PTE-2, EC 3.1.2.2), which is localized in the peroxisome. The peroxisomal beta-oxidation system contains two sets of enzymes, one of which is involved in the oxidation of branched chain fatty acids and intermediates in the hepatic bile acid biosynthetic pathway and consists of one or two branched-chain acyl-CoA oxidase(s), a D-specific bifunctional protein and the sterol carrier-like protein x (SCPx). Peroxisomes are cellular organelles present in all eukaryotic cells. They play an indispensable role in the metabolism of a variety of lipids including very long-chain fatty acids, dicarboxylic fatty acids, bile acids, prostaglandins, leukotrienes, thromboxanes, pristanic acid, and xenobiotic fatty acids. (S)-3-Hydroxyhexadecanoyl-CoA may accumulate intracellularly in certain long-chain fatty acid/j-oxidation deficiencies. Succinate-driven synthesis of ATP from ADP and phosphate is progressively inhibited by increasing concentrations of (S)-3-Hydroxyhexadecanoyl-CoA. (PMID: 11673457, 8739955, 7662716).35106-50-4C0525844060027402389498CCCCCCCCCCCCC[C@H](O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC37H66N7O18P3SInChI=1S/C37H66N7O18P3S/c1-4-5-6-7-8-9-10-11-12-13-14-15-25(45)20-28(47)66-19-18-39-27(46)16-17-40-35(50)32(49)37(2,3)22-59-65(56,57)62-64(54,55)58-21-26-31(61-63(51,52)53)30(48)36(60-26)44-24-43-29-33(38)41-23-42-34(29)44/h23-26,30-32,36,45,48-49H,4-22H2,1-3H3,(H,39,46)(H,40,50)(H,54,55)(H,56,57)(H2,38,41,42)(H2,51,52,53)/t25-,26+,30+,31+,32-,36+/m0/s1DEHLMTDDPWDRDR-BCIKBWLNSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxyhexadecanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid1021.9421021.339788569-2.6810β-hydroxypalmitoyl-coa0-4FDB023251(s)-3-hydroxyhexadecanoyl-coenzyme a;(s)-3-hydroxypalmitoyl-coenzyme a;Dl-3-hydroxyhexadecanoyl-s-coenzyme a;Dl-3-hydroxyhexadecanoyl-scoa;Dl-3-hydroxyhexadecanoyl-scoenzyme a;S-(3-hydroxyhexadecanoate;S-(3-hydroxyhexadecanoate)coenzyme a;S-(3-hydroxyhexadecanoic acid;S-dl-3-hydroxyhexadecanoate;S-dl-3-hydroxyhexadecanoic acid;B-hydroxypalmitoyl-coa;B-hydroxypalmitoyl-coenzyme a;Beta-hydroxypalmitoyl-coa;Beta-hydroxypalmitoyl-coenzyme aPW_C001996BHC8733898452341036963161712716377223133778911121202334061206624071229061201232761191255814791271115011407531851420WaterHMDB0002111Water is a chemical substance that is essential to all known forms of life. It appears colorless to the naked eye in small quantities, though it is actually slightly blue in color. It covers 71% of Earth's surface. Current estimates suggest that there are 1.4 billion cubic kilometers (330 million m3) of it available on Earth, and it exists in many forms. It appears mostly in the oceans (saltwater) and polar ice caps, but it is also present as clouds, rain water, rivers, freshwater aquifers, lakes, and sea ice. Water in these bodies perpetually moves through a cycle of evaporation, precipitation, and runoff to the sea. Clean water is essential to human life. In many parts of the world, it is in short supply. From a biological standpoint, water has many distinct properties that are critical for the proliferation of life that set it apart from other substances. It carries out this role by allowing organic compounds to react in ways that ultimately allow replication. All known forms of life depend on water. Water is vital both as a solvent in which many of the body's solutes dissolve and as an essential part of many metabolic processes within the body. Metabolism is the sum total of anabolism and catabolism. In anabolism, water is removed from molecules (through energy requiring enzymatic chemical reactions) in order to grow larger molecules (e.g. starches, triglycerides and proteins for storage of fuels and information). In catabolism, water is used to break bonds in order to generate smaller molecules (e.g. glucose, fatty acids and amino acids to be used for fuels for energy use or other purposes). Water is thus essential and central to these metabolic processes. Water is also central to photosynthesis and respiration. Photosynthetic cells use the sun's energy to split off water's hydrogen from oxygen. Hydrogen is combined with CO2 (absorbed from air or water) to form glucose and release oxygen. All living cells use such fuels and oxidize the hydrogen and carbon to capture the sun's energy and reform water and CO2 in the process (cellular respiration). Water is also central to acid-base neutrality and enzyme function. An acid, a hydrogen ion (H+, that is, a proton) donor, can be neutralized by a base, a proton acceptor such as hydroxide ion (OH-) to form water. Water is considered to be neutral, with a pH (the negative log of the hydrogen ion concentration) of 7. Acids have pH values less than 7 while bases have values greater than 7. Stomach acid (HCl) is useful to digestion. However, its corrosive effect on the esophagus during reflux can temporarily be neutralized by ingestion of a base such as aluminum hydroxide to produce the neutral molecules water and the salt aluminum chloride. Human biochemistry that involves enzymes usually performs optimally around a biologically neutral pH of 7.4. (Wikipedia).7732-18-5C0000196215377937OH2OInChI=1S/H2O/h1H2XLYOFNOQVPJJNP-UHFFFAOYSA-Nwater18.015318.0105646861water00FDB013390Dihydrogen oxide;Steam;[oh2];Acqua;Agua;Aqua;Bound water;Dihydridooxygen;Eau;H2o;Hoh;Hydrogen hydroxide;WasserPW_C001420H2O5589491095139415131621448113526156242865210691207703382318838210943113774914655415904320182425322226786027274627781728052931437031647236346145983647273749419350302751567519597521410052279452361035297105531911153431135355112540211054701235483125549212655071275534130553711455411295591135560811856221085691657591405778101584114358531465877107589095591014759401516032155605915760871616123163613315962151621816664771786507180660015267131176840188688816071622057181207719320672112117228213723821472432157295198735021673882107401212746722274922247500190758817082012258237226841416292652611850277119221641201128112213285122502861226428712327249125202271263265126932901270529112715292130072981301930013025301130373021326122313327294153403084232731542695318436913227691429377019253771021327713113377215134773783317739733277471333775161157753633477628336777223377775934177816343779823477807132978235352782423537827035679113360800143688003937080591228806561199383038394794384110557390110639391115844398119879232119915122119963406120008407120046408120113124120365412120430405120438409120606415120794414121158425121240429121351121121381419121607434122118382122384436122753120122797374122804443123012446123064376123072137123131447123142136123162448123231451123384450123730460123810464123940455124165469124670399124938471124945472125305297125353479125386481125424482125480299125682483125707478125745487126054490126238495126273484126764480126896501126963502127017388127177208127199209127227504127506507127576515127836389128082395128176513140674790140675834140755185721NADHMDB0000902NAD (or Nicotinamide adenine dinucleotide) is used extensively in glycolysis and the citric acid cycle of cellular respiration. The reducing potential stored in NADH can be converted to ATP through the electron transport chain or used for anabolic metabolism. ATP "energy" is necessary for an organism to live. Green plants obtain ATP through photosynthesis, while other organisms obtain it by cellular respiration. (wikipedia). Nicotinamide adenine dinucleotide is a A coenzyme composed of ribosylnicotinamide 5'-diphosphate coupled to adenosine 5'-phosphate by pyrophosphate linkage. It is found widely in nature and is involved in numerous enzymatic reactions in which it serves as an electron carrier by being alternately oxidized (NAD+) and reduced (NADH). (Dorland, 27th ed).53-84-9C00003589315846NAD5682NC(=O)C1=C[N+](=CC=C1)[C@@H]1O[C@H](COP([O-])(=O)OP(O)(=O)OC[C@H]2O[C@H]([C@H](O)[C@@H]2O)N2C=NC3=C2N=CN=C3N)[C@@H](O)[C@H]1OC21H27N7O14P2InChI=1S/C21H27N7O14P2/c22-17-12-19(25-7-24-17)28(8-26-12)21-16(32)14(30)11(41-21)6-39-44(36,37)42-43(34,35)38-5-10-13(29)15(31)20(40-10)27-3-1-2-9(4-27)18(23)33/h1-4,7-8,10-11,13-16,20-21,29-32H,5-6H2,(H5-,22,23,24,25,33,34,35,36,37)/t10-,11-,13-,14-,15-,16-,20-,21-/m1/s1BAWFJGJZGIEFAR-NNYOXOHSSA-N1-[(2R,3R,4S,5R)-5-({[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methyl phosphono}oxy)(hydroxy)phosphoryl]oxy}methyl)-3,4-dihydroxyoxolan-2-yl]-3-(C-hydroxycarbonimidoyl)-1lambda5-pyridin-1-ylium663.4251663.109121631-2.5281-[(2R,3R,4S,5R)-5-{[({[(2R,3S,4R,5R)-5-(6-aminopurin-9-yl)-3,4-dihydroxyoxolan-2-yl]methyl phosphono}oxy(hydroxy)phosphoryl)oxy]methyl}-3,4-dihydroxyoxolan-2-yl]-3-(C-hydroxycarbonimidoyl)-1lambda5-pyridin-1-ylium0-1FDB0223093-carbamoyl-1-d-ribofuranosylpyridinium hydroxide 5'-ester with adenosine 5'-pyrophosphate;3-carbamoyl-1-beta-d-ribofuranosylpyridinium hydroxide 5'-ester with adenosine 5'-pyrophosphate inner salt;3-carbamoyl-1-beta-delta-ribofuranosylpyridinium hydroxide 5'-ester with adenosine 5'-pyrophosphate inner salt;3-carbamoyl-1-delta-ribofuranosylpyridinium hydroxide 5'-ester with adenosine 5'-pyrophosphate;Adenine-nicotinamide dinucleotide;Co-i;Codehydrase i;Codehydrogenase i;Coenzyme i;Cozymase;Cozymase i;Diphosphopyridine nucleotide;Diphosphopyridine nucleotide oxidized;Endopride;Nad trihydrate;Nad-oxidized;Nicotinamide adenine dinucleotide;Nicotinamide adenine dinucleotide oxidized;Nicotinamide dinucleotide;Nicotineamide adenine dinucleotide;Oxidized diphosphopyridine nucleotide;Pyridine nucleotide diphosphate;[(3s,2r,4r,5r)-5-(6-aminopurin-9-yl)-3,4-dihydroxyoxolan-2-yl]methyl {[(3s,2r,4r,5r)-5-(3-carbamoylpyridyl)-3,4-dihydroxyoxolan-2-yl]methoxy}(hydroxyphosphoryl) hydrogen phosphate;[adenylate-32-p]-nad;Beta-diphosphopyridine nucleotide;Beta-nad;Beta-nicotinamide adenine dinucleotide;Beta-nicotinamide adenine dinucleotide trihydrate;Dpn;Nad;Nad+;Nadide;B-nad;β-nadPW_C000721NAD1404150335386511011142113443127351466542229492779172835293107948071848131848192849026496031516795523810353341115360112546912354821255590135561011856961005738108582714159121475942151602415560721576076161638516469178677211768901607012188709716371742057197206740519874592228241226835922590852241181921612322249130062981301830013256223424043224261931577104132771201337720913477370331776503367766733477702332777091307791511377983347784063568000636880690119938251241105523881127501661128539411992912211995240612017140712083441912098440812115942512124212612125942912181738312261438412274212012313044712314113612341945512354937412373146012381244312382946412437039812518712112531929712534247912553048112580629912582549012592448212651549512676548012688550112727850712738350212808939012836039112842839514075718527403-oxohexadecanoyl-CoAHMDB00064023-Oxohexadecanoyl-CoA has a role in the synthesis and oxidation of fatty acid. It is involved in the pathway, fatty acid elongation in mitochondria. In this pathway Acetyl-CoA is acted upon by the enzyme, acetyl-CoA C-acyltransferase to produce 3-Oxohexadecanoyl-CoA. Since coenzyme A is chemically a thiol, it can react with carboxylic acids to form thioesters, thus functioning as an acyl group carrier. It assists in transferring fatty acids from the cytoplasm to the mitochondria. A molecule of coenzyme A carrying an acetyl group is also referred to as acetyl-CoA. When it is not attached to an acyl group it is usually referred to as 'CoASH' or 'HSCoA'.34619-89-1C05259440601154913-OXOPALMITOYL-COA389499CCCCCCCCCCCCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC37H64N7O18P3SInChI=1S/C37H64N7O18P3S/c1-4-5-6-7-8-9-10-11-12-13-14-15-25(45)20-28(47)66-19-18-39-27(46)16-17-40-35(50)32(49)37(2,3)22-59-65(56,57)62-64(54,55)58-21-26-31(61-63(51,52)53)30(48)36(60-26)44-24-43-29-33(38)41-23-42-34(29)44/h23-24,26,30-32,36,48-49H,4-22H2,1-3H3,(H,39,46)(H,40,50)(H,54,55)(H,56,57)(H2,38,41,42)(H2,51,52,53)/t26-,30-,31-,32+,36-/m1/s1NQMPLXPCRJOSHL-BBECNAHFSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxohexadecanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid1019.9261019.324138505-2.7093-oxopalmitoyl-coa0-4FDB0239083-ketopalmitoleoyl-coa;3-ketopalmitoleoyl-coenzyme a;3-ketopalmitoyl-coa;3-ketopalmitoyl-coenzyme a;3-oxo-cis-9-hexadecenoyl-coa;3-oxo-cis-9-hexadecenoyl-coenzyme a;3-oxohexadec-9z-enoyl-coa;3-oxohexadec-9z-enoyl-coenzyme a;3-oxohexadec-cis-9-enoyl-coa;3-oxohexadec-cis-9-enoyl-coenzyme a;3-oxopalmitoleoyl-coa;3-oxopalmitoleoyl-coenzyme a;3-oxopalmitoyl-coa;3-oxopalmitoyl-coenzyme aPW_C0027403OHDCoA8723899452391036966161712616377225133778901121202364061206614071229091201232751191255844791271145011407581851144NADHHMDB0001487NADH is the reduced form of NAD+, and NAD+ is the oxidized form of NADH, A coenzyme composed of ribosylnicotinamide 5'-diphosphate coupled to adenosine 5'-phosphate by pyrophosphate linkage. It is found widely in nature and is involved in numerous enzymatic reactions in which it serves as an electron carrier by being alternately oxidized (NAD+) and reduced (NADH). It forms NADP with the addition of a phosphate group to the 2' position of the adenosyl nucleotide through an ester linkage.(Dorland, 27th ed).58-68-4C0000443915316908NADH388299DB00157NC(=O)C1=CN(C=CC1)[C@@H]1O[C@H](CO[P@](O)(=O)O[P@](O)(=O)OC[C@H]2O[C@H]([C@H](O)[C@@H]2O)N2C=NC3=C(N)N=CN=C23)[C@@H](O)[C@H]1OC21H29N7O14P2InChI=1S/C21H29N7O14P2/c22-17-12-19(25-7-24-17)28(8-26-12)21-16(32)14(30)11(41-21)6-39-44(36,37)42-43(34,35)38-5-10-13(29)15(31)20(40-10)27-3-1-2-9(4-27)18(23)33/h1,3-4,7-8,10-11,13-16,20-21,29-32H,2,5-6H2,(H2,23,33)(H,34,35)(H,36,37)(H2,22,24,25)/t10-,11-,13-,14-,15-,16-,20-,21-/m1/s1BOPGDPNILDQYTO-NNYOXOHSSA-N[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy]({[(2R,3S,4R,5R)-5-(3-carbamoyl-1,4-dihydropyridin-1-yl)-3,4-dihydroxyoxolan-2-yl]methoxy})phosphinic acid665.441665.124771695-2.358NADH0-2FDB0226491,4-dihydronicotinamide adenine dinucleotide;Dpnh;Dihydrocodehydrogenase i;Dihydrocozymase;Dihydronicotinamide adenine dinucleotide;Dihydronicotinamide mononucleotide;Enada;Nadh;Nadh2;Reduced codehydrogenase i;Reduced diphosphopyridine nucleotide;Reduced nicotinamide adenine diphosphate;Reduced nicotinamide-adenine dinucleotide;B-dpnh;B-nadh;Beta-dpnh;Beta-nadh;Nicotinamide adenine dinucleotide (reduced);Reduced nicotinamide adenine dinucleotidePW_C001144NADH1434153349086481011152127551469542230492781172836293109948061848121848212849046495931516995524010353321115358112546612354791255593135569810057371085829141591514759451516027155607916163871647217867711176893160701118870991637172205719520674622228244226836022590862241180919811821216123202491300329813015300132552234240332242618315771071327712313377208134773713317765133677668334777003327770713077917113779863478000936880691119938221241105493881128549411583811811995540612017240712037812212098640812116242512124412612169342912181838312261638412274512012312744712313813612355137412373446012381444312424246412437139812518912112534547912553148112576229712580829912592648212651649512676748012688850112738550212809039012836239112842939514075918540034Hydrogen IonHMDB0059597Hydrogen ion is recommended by IUPAC as a general term for all ions of hydrogen and its isotopes. Depending on the charge of the ion, two different classes can be distinguished: positively charged ions and negatively charged ions. Under aqueous conditions found in biochemistry, hydrogen ions exist as the hydrated form hydronium, H3O+, but these are often still referred to as hydrogen ions or even protons by biochemists. [WikiPedia])C000801038153781010[H+]HInChI=1S/p+1GPRLSGONYQIRFK-UHFFFAOYSA-Nhydron1.00791.0078250320hydron10H+;H(+);Hydrogen cation;Hydron;ProtonPW_C040034H+215467087531578831848311162146326146454223149278017425022425442454710457618469470524110353271115353112562610856391075699100572010557421175963147603715560701576093161613015962321666483178660115266921016843188691018771001637168205719120674532197454220747222275252137532210755821275721607590170819522582181518243226841316284202249139195915524911915164120152811218128512246286122662871252122713257223133252941533030842329315423543184240132242405312424543207691229377136133772101347737233177804114779551327799032777991347783793457992913080019368803873108038830480722119938231249482338311055038811285594113280390115537398115539118115856336116205109119973406120193407120549122120593409121170424121171425122569418122615384122687125122758120123183135123218137123742459123743460125141454125188121125273136125359479125550481125730483125736297125809299126517495126717489126766480126823300126902501127213208128308506128361391128430395140692882140693883140699167140707168140715141407427881407435971407601851171Tetradecanoyl-CoA HMDB0001521Tetradecanoyl-CoA (or myristoyl-CoA) is an intermediate in fatty acid biosynthesis, fatty acid elongation and the beta oxidation of fatty acids. It is also used in the myristoylation of proteins. The first pass through the beta-oxidation process starts with the saturated fatty acid palmitoyl-CoA and produces myristoyl-CoA. A total of four enzymatic steps are required, starting with VLCAD CoA dehydrogenase (Very Long Chain) activity, followed by three enzymatic steps catalyzed by enoyl-CoA hydratase, 3-hydroxyacyl-CoA dehydrogenase, and ketoacyl-CoA thiolase, all present in the mitochondria. Myristoylation of proteins is also catalyzed by the presence of myristoyl-CoA along with Myristoyl-CoA:protein N-myristoyltransferase (NMT). Myristoylation is an irreversible, co-translational (during translation) protein modification found in animals, plants, fungi and viruses. In this protein modification a myristoyl group (derived from myristioyl CoA) is covalently attached via an amide bond to the alpha-amino group of an N-terminal amino acid of a nascent polypeptide. It is more common on glycine residues but also occurs on other amino acids. Myristoylation also occurs post-translationally, for example when previously internal glycine residues become exposed by caspase cleavage during apoptosis. Myristoylation plays a vital role in membrane targeting and signal transduction in plant responses to environmental stress. Compared to other species that possess a single functional myristoyl-CoA: protein N-myristoyltransferase (NMT) gene copy, human, mouse and cow possess 2 NMT genes, and more than 2 protein isoforms.3130-72-1C025936511315532TETRADECANOYL-COA58623CCCCCCCCCCCCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC35H62N7O17P3SInChI=1S/C35H62N7O17P3S/c1-4-5-6-7-8-9-10-11-12-13-14-15-26(44)63-19-18-37-25(43)16-17-38-33(47)30(46)35(2,3)21-56-62(53,54)59-61(51,52)55-20-24-29(58-60(48,49)50)28(45)34(57-24)42-23-41-27-31(36)39-22-40-32(27)42/h22-24,28-30,34,45-46H,4-21H2,1-3H3,(H,37,43)(H,38,47)(H,51,52)(H,53,54)(H2,36,39,40)(H2,48,49,50)/t24-,28-,29-,30+,34-/m1/s1DUAFKXOFBZQTQE-QSGBVPJFSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-[(2-{[2-(tetradecanoylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid977.89977.313573819-2.659S-tetradecanoyl-coenzyme A0-4FDB022670Myristoyl-coa;Myristoyl-coenzyme a;N-c14:0coa;N-c14:0coenzyme a;S-tetradecanoyl-coenzyme a;Tetradecanoyl coa;Tetradecanoyl coenzyme a;Tetradecanoyl-coenzyme a;CoA(14:0)PW_C001171COA14:08713902426235528710369681617125163756821025685492595222772261337788911281816329818193319569538295698383110852389114199390120239406120660407122912120123274119125587479127117501128837399128840398140761185940Acetyl-CoAHMDB0001206The main function of coenzyme A is to carry acyl groups (such as the acetyl group) or thioesters. Acetyl-CoA is an important molecule itself. It is the precursor to HMG CoA, which is a vital component in cholesterol and ketone synthesis. (wikipedia). acetyl CoA participates in the biosynthesis of fatty acids and sterols, in the oxidation of fatty acids and in the metabolism of many amino acids. It also acts as a biological acetylating agent.72-89-9C0002444449315351ACETYL-COA392413CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC23H38N7O17P3SInChI=1S/C23H38N7O17P3S/c1-12(31)51-7-6-25-14(32)4-5-26-21(35)18(34)23(2,3)9-44-50(41,42)47-49(39,40)43-8-13-17(46-48(36,37)38)16(33)22(45-13)30-11-29-15-19(24)27-10-28-20(15)30/h10-11,13,16-18,22,33-34H,4-9H2,1-3H3,(H,25,32)(H,26,35)(H,39,40)(H,41,42)(H2,24,27,28)(H2,36,37,38)/t13-,16-,17-,18+,22-/m1/s1ZSLZBFCDCINBPY-ZSJPKINUSA-N{[(2R,3S,4R,5R)-2-({[({[(3R)-3-[(2-{[2-(acetylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-5-(6-amino-9H-purin-9-yl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid809.571809.125773051-2.279acetyl-CoA0-4FDB022491Ac-coa;Ac-coenzyme a;Ac-s-coa;Ac-s-coenzyme a;Acetyl coenzyme-a;Acetyl-coa;Acetyl-coenzyme a;Acetyl-s-coa;Acetyl-s-coenzyme a;Acetylcoenzyme-a;S-acetate coa;S-acetate coenzyme a;S-acetyl coenzyme a;Accoa;Acetyl coenzyme a;S-acetyl-coa;S-acetyl-coenzyme a;Acetylcoenzyme aPW_C000940Ac-CoA2134385884232416224465289617334011484014527810354761245733108602515560771616386164701786923160710616372911987460222824515182772101258222613012299426153157712113377291111775621127770613277994115783551347843333480007368806341198066337690124170119953406120145405120304122120632407122417408122626384122743120122959135123137118124986374125200121125343479125507478125633297126564482126572481126778480126886501127044209127394205127665388128137502128145206128374391140762185145Palmitic acidHMDB0000220Palmitic acid, or hexadecanoic acid, is one of the most common saturated fatty acids found in animals, plants, and microorganisms. As its name indicates, it is a major component of the oil from the fruit of oil palms (palm oil). Excess carbohydrates in the body are converted to palmitic acid. Palmitic acid is the first fatty acid produced during fatty acid synthesis and is the precursor to longer fatty acids. As a consequence, palmitic acid is a major body component of animals. In humans, one analysis found it to make up 21–30% (molar) of human depot fat (PMID: 13756126), and it is a major, but highly variable, lipid component of human breast milk (PMID: 352132). Palmitic acid is used to produce soaps, cosmetics, and industrial mould release agents. These applications use sodium palmitate, which is commonly obtained by saponification of palm oil. To this end, palm oil, rendered from palm tree (species Elaeis guineensis), is treated with sodium hydroxide (in the form of caustic soda or lye), which causes hydrolysis of the ester groups, yielding glycerol and sodium palmitate. Aluminium salts of palmitic acid and naphthenic acid were combined during World War II to produce napalm. The word "napalm" is derived from the words naphthenic acid and palmitic acid (Wikipedia). Palmitic acid is also used in the determination of water hardness and is a surfactant of Levovist, an intravenous ultrasonic contrast agent.57-10-3C0024998515756CPD-8475960DB03796CCCCCCCCCCCCCCCC(O)=OC16H32O2InChI=1S/C16H32O2/c1-2-3-4-5-6-7-8-9-10-11-12-13-14-15-16(17)18/h2-15H2,1H3,(H,17,18)IPCSVZSSVZVIGE-UHFFFAOYSA-Nhexadecanoic acid256.4241256.240230268-5.801palmitic acid0-1FDB0116791-hexyldecanoate;1-hexyldecanoic acid;1-pentadecanecarboxylic acid;C16 fatty acid;Cetylic acid;Edenor c16;Emersol 140;Emersol 143;Glycon p-45;Hexadecanoate;Hexadecanoic acid;Hexadecanoic acid palmitic acid;Hexadecoate;Hexadecoic acid;Hexadecylic acid;Hexaectylic acid;Hydrofol;Hydrofol acid 1690;Hystrene 8016;Hystrene 9016;Industrene 4516;Kortacid 1698;Loxiol ep 278;Lunac p 95;Lunac p 95kc;Lunac p 98;N-hexadecanoate;N-hexadecanoic acid;N-hexadecoate;N-hexadecoic acid;Pam;Plm;Palmitate;Palmitic acid;Palmitinate;Palmitinic acid;Palmitinsaeure;Palmitoate;Palmitoic acid;Pentadecanecarboxylate;Pentadecanecarboxylic acid;Prifac 2960;Prifrac 2960;Pristerene 4934;Univol u332;C16:0;Ch3-[ch2]14-cooh;1-pentadecanecarboxylate;Cetylate;Hexadecylate;Hexaectylate;Hexadecanoate (n-c16:0);FA(16:0)PW_C00014516:087638782221771421812218515284329289885249104644710564481076515108695716069751997130163831121092231701291615112918226425233204252431842525315772323297765533677861132778941127806011578061114120244382120665407121427405121429409121431124121699429122918399123279119123985376123987137123989118124249464125594484126637299127122389128213388140769891414Adenosine triphosphateHMDB0000538Adenosine triphosphate (ATP) is a nucleotide consisting of a purine base (adenine) attached to the first carbon atom of ribose (a pentose sugar). Three phosphate groups are esterified at the fifth carbon atom of the ribose. ATP is incorporated into nucleic acids by polymerases in the processes of DNA replication and transcription. ATP contributes to cellular energy charge and participates in overall energy balance, maintaining cellular homeostasis. ATP can act as an extracellular signaling molecule via interactions with specific purinergic receptors to mediate a wide variety of processes as diverse as neurotransmission, inflammation, apoptosis, and bone remodelling. Extracellular ATP and its metabolite adenosine have also been shown to exert a variety of effects on nearly every cell type in human skin, and ATP seems to play a direct role in triggering skin inflammatory, regenerative, and fibrotic responses to mechanical injury, an indirect role in melanocyte proliferation and apoptosis, and a complex role in Langerhans cell-directed adaptive immunity. During exercise, intracellular homeostasis depends on the matching of adenosine triphosphate (ATP) supply and ATP demand. Metabolites play a useful role in communicating the extent of ATP demand to the metabolic supply pathways. Effects as different as proliferation or differentiation, chemotaxis, release of cytokines or lysosomal constituents, and generation of reactive oxygen or nitrogen species are elicited upon stimulation of blood cells with extracellular ATP. The increased concentration of adenosine triphosphate (ATP) in erythrocytes from patients with chronic renal failure (CRF) has been observed in many studies but the mechanism leading to these abnormalities still is controversial. (PMID: 15490415, 15129319, 14707763, 14696970, 11157473).56-65-5C00002595715422ATP5742DB00171NC1=NC=NC2=C1N=CN2[C@@H]1O[C@H](COP(O)(=O)OP(O)(=O)OP(O)(O)=O)[C@@H](O)[C@H]1OC10H16N5O13P3InChI=1S/C10H16N5O13P3/c11-8-5-9(13-2-12-8)15(3-14-5)10-7(17)6(16)4(26-10)1-25-30(21,22)28-31(23,24)27-29(18,19)20/h2-4,6-7,10,16-17H,1H2,(H,21,22)(H,23,24)(H2,11,12,13)(H2,18,19,20)/t4-,6-,7-,10-/m1/s1ZKHQWZAMYRWXGA-KQYNXXCUSA-N({[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)phosphonic acid507.181506.995745159-2.057adenosine triphosphate0-3FDB0218135'-(tetrahydrogen triphosphate) adenosine;5'-atp;Atp;Adenosine 5'-triphosphate;Adenosine 5'-triphosphorate;Adenosine 5'-triphosphoric acid;Adenosine triphosphate;Adenylpyrophosphorate;Adenylpyrophosphoric acid;Adephos;Adetol;Adynol;Atipi;Atriphos;Cardenosine;Fosfobion;Glucobasin;Myotriphos;Phosphobion;Striadyne;Triadenyl;Triphosphaden;Triphosphoric acid adenosine ester;Adenosine-5'-triphosphate;H4atp;Adenosine triphosphoric acid;Adenosine-5'-triphosphoric acidPW_C000414ATP9221460826616414224781373332799593439976321051821121021464921561421605824055924342727264628122930296631637236166136175143992344743147689148645450328950352651557520597521510052501045291101531311153461125390103540611754301185443120554212955561325569133560313556211085846143585414658761075897147592415160481556109161623016664931786839188687016069761997157205718420672092107225213722921172981987302216739021774082187432163748122274991908186225118472771190317012010281120391641217828512578226126912901326422315327308423263154262132242694318770282537721813477233329774683337763233678037332780413507816812878214351782403537841133578494115788501307886533178919334800283688004618480674119856291948261241132349411328238811628010911991412211999240612015440712024538212036241212124642912139212312139743312147140812197441012206512512207938312208340512240242212244443512291939912300944612381646412395144712395646812402937412452744412461613612463039812463437612494347212497237512501147012530429712537147912539229912551548112559548412612348512622030012623449512624047812654749112659649912691350112712338912773151612778139512779639012780120912811950812816751714077089132Adenosine monophosphateHMDB0000045Adenosine monophosphate, also known as 5'-adenylic acid and abbreviated AMP, is a nucleotide that is found in RNA. It is an ester of phosphoric acid with the nucleoside adenosine. AMP consists of the phosphate group, the pentose sugar ribose, and the nucleobase adenine. AMP can be produced during ATP synthesis by the enzyme adenylate kinase. AMP has recently been approved as a 'Bitter Blocker' additive to foodstuffs. When AMP is added to bitter foods or foods with a bitter aftertaste it makes them seem 'sweeter'. This potentially makes lower calorie food products more palatable.61-19-8C00020608316027AMP5858DB00131NC1=C2N=CN([C@@H]3O[C@H](COP(O)(O)=O)[C@@H](O)[C@H]3O)C2=NC=N1C10H14N5O7PInChI=1S/C10H14N5O7P/c11-8-5-9(13-2-12-8)15(3-14-5)10-7(17)6(16)4(22-10)1-21-23(18,19)20/h2-4,6-7,10,16-17H,1H2,(H2,11,12,13)(H2,18,19,20)/t4-,6-,7-,10-/m1/s1UDMBCSSLTHHNCD-KQYNXXCUSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}phosphonic acid347.2212347.063084339-2.025adenylate0-2DBMET00485FDB0218065'-amp;5'-adenosine monophosphate;5'-adenylate;5'-adenylic acid;Amp;Adenosine 5'-monophosphate;Adenosine 5'-phosphate;Adenosine 5'-phosphorate;Adenosine 5'-phosphoric acid;Adenosine phosphate;Adenosine-5'-monophosphorate;Adenosine-5'-monophosphoric acid;Adenosine-5-monophosphorate;Adenosine-5-monophosphoric acid;Adenosine-monophosphate;Adenosine-phosphate;Adenovite;Adenylate;Adenylic acid;Cardiomone;Lycedan;Muscle adenylate;Muscle adenylic acid;My-b-den;My-beta-den;Phosaden;Phosphaden;Phosphentaside;5'-o-phosphonoadenosine;Adenosine 5'-(dihydrogen phosphate);Adenosine monophosphate;Adenosine-5'p;Adenosini phosphas;Ado5'p;Fosfato de adenosina;Pa;Pado;Phosphate d'adenosine;5'-adenosine monophosphoric acid;Adenosine phosphoric acid;Adenosine 5'-(dihydrogen phosphoric acid);Adenosine 5'-monophosphoric acid;Adenosine monophosphoric acid;Adenosine-5'-monophosphate;Phosphoric acid d'adenosinePW_C000032AMP112344628270167343288122118914457254867545033895251104540811754231035432118545712055581325583133577910157951086977199707218811789198118681611198815112003222125802261263631126942901333122542266342646315772343297732511178392334788091157932011280399180684135809007119916122120016124120031406120246382120888405121954408122920399123464376124507374125306297125394299125409479125596484126853205126934388126949501127124389127311209127711502140771891170PyrophosphateHMDB0000250The anion, the salts, and the esters of pyrophosphoric acid are called pyrophosphates. The pyrophosphate anion is abbreviated PPi and is formed by the hydrolysis of ATP into AMP in cells. This hydrolysis is called pyrophosphorolysis. The pyrophosphate anion has the structure P2O74-, and is an acid anhydride of phosphate. It is unstable in aqueous solution and rapidly hydrolyzes into inorganic phosphate. Pyrophosphate is an osteotoxin (arrests bone development) and an arthritogen (promotes arthritis). It is also a metabotoxin (an endogenously produced metabolite that causes adverse health affects at chronically high levels). Chronically high levels of pyrophosphate are associated with hypophosphatasia. Hypophosphatasia (also called deficiency of alkaline phosphatase or phosphoethanolaminuria) is a rare, and sometimes fatal, metabolic bone disease. Hypophosphatasia is associated with a molecular defect in the gene encoding tissue non-specific alkaline phosphatase (TNSALP). TNSALP is an enzyme that is tethered to the outer surface of osteoblasts and chondrocytes. TNSALP hydrolyzes several substances, including inorganic pyrophosphate (PPi) and pyridoxal 5'-phosphate (PLP), a major form of vitamin B6. When TSNALP is low, inorganic pyrophosphate (PPi) accumulates outside of cells and inhibits the formation of hydroxyapatite, one of the main components of bone, causing rickets in infants and children and osteomalacia (soft bones) in adults. Vitamin B6 must be dephosphorylated by TNSALP before it can cross the cell membrane. Vitamin B6 deficiency in the brain impairs synthesis of neurotransmitters which can cause seizures. In some cases, a build-up of calcium pyrophosphate dihydrate crystals in the joints can cause pseudogout.14000-31-8C0001364410218361PPI559142DB04160OP(O)(=O)OP(O)(O)=OH4O7P2InChI=1S/H4O7P2/c1-8(2,3)7-9(4,5)6/h(H2,1,2,3)(H2,4,5,6)XPPKVPWEQAFLFU-UHFFFAOYSA-N(phosphonooxy)phosphonic acid177.9751177.9432255064pyrophosphoric acid0-3FDB021918(4-)diphosphoric acid ion;(p2o74-)diphosphate;Diphosphate;Diphosphoric acid;Ppi;Pyrometaphosphate;Pyrophosphate;Pyrophosphate tetraanion;Pyrophosphate(4-) ion;[o3popo3](4-);Diphosphat;P2o7(4-);Pyrophosphat;Pyrophosphate ion;Phosphonato phosphoric acid;Pyrophosphoric acid;Pyrophosphoric acid ionPW_C000170Ppi122354638429237353288222121731620492410592815294175144868545034895252104529410154091175424103543311854581205548111555913255841335606135565510858791076239166697819970731887134163727216073121987318213827515182832101186916112002222120411641231522512323249125122881257922612695290152193061537518347601742561315426973187723532977317128776353367841633578928331791531127995013479958130800473728041717085630194786384948141259481938298678223110634391113270395113275389115527136115532399119934122120017124120032406120330410120936407121261429121341121121486383122407422122985444123502119123831464124044398124977375125324297125395299125410479125597484125656485125876481126552491126869205126935388126950501127337206128124508140772891423MagnesiumHMDB0000547Magnesium salts are essential in nutrition, being required for the activity of many enzymes, especially those concerned with oxidative phosphorylation. Physiologically, it exists as an ion in the body. It is a component of both intra- and extracellular fluids and is excreted in the urine and feces. Deficiency causes irritability of the nervous system with tetany, vasodilatation, convulsions, tremors, depression, and psychotic behavior. Magnesium ion in large amounts is an ionic laxative, and magnesium sulfate (Epsom salts) is sometimes used for this purpose. So-called "milk of magnesia" is a water suspension of one of the few insoluble magnesium compounds, magnesium hydroxide; the undissolved particles give rise to its appearance and name. Milk of magnesia is a mild base, and is commonly used as an antacid.22537-22-0C003058881842013-HYDROXY-MAGNESIUM-PROTOPORP865DB01378[Mg++]MgInChI=1S/Mg/q+2JLVVSXFLKOJNIY-UHFFFAOYSA-Nmagnesium(2+) ion24.30523.9850418980magnesium(2+) ion22FDB003518Magnesium;Magnesium ions;Magnesium ion;Magnesium, doubly charged positive ion;Magnesium, ion (mg(2+));Mg(2+);Mg2+PW_C000423Mg2+868227426816476272726811581918883229363998339922111674614834915294317641421241024115929422331262933737454031477491486954497456525310453291115356112537610359061475934151603815560941616250166648417865941646881160697919971702057194206722721372332117250214731021673131987473222117631321184321012312225123242491251328812581226127292901527528515337308771371337723632977937336783933347841733578489115785223317853635678574130800203688004518480048372806231188065413580865158096525381841519383238394900271085962231105593901156873981199744061200701221202473821207024071209814081211811241212654291213194191219241251220864051224084221227591201229213991233071191235463741238354641238894551244771361246373761249783751254472971255984841256694791257774811259214821259472991259734951260004901262434781265534911267533001271253891271645011273805021274073881274515071278042091281255081283473951407738912010(2E)-Tetradecenoyl-CoAHMDB0003946(2E)-Tetradecenoyl-CoA is an intermediate in fatty acid metabolism, the substrate of the enzymes acyl-CoA oxidase and Oxidoreductases [EC 1.3.3.6-1.3.99.-] and enzymes acyl-CoA dehydrogenase, long-chain-acyl-CoA dehydrogenase [EC 1.3.99.3-1.3.99.13]; (2E)-Tetradecenoyl-CoA is an intermediate in fatty acid elongation in mitochondria, being the substrate of the enzyme trans-2-enoyl-CoA reductase (NADPH) [EC 1.3.1.38]. (KEGG).38795-33-4C052735280767277214444333CCCCCCCCCCC\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC35H60N7O17P3SInChI=1S/C35H60N7O17P3S/c1-4-5-6-7-8-9-10-11-12-13-14-15-26(44)63-19-18-37-25(43)16-17-38-33(47)30(46)35(2,3)21-56-62(53,54)59-61(51,52)55-20-24-29(58-60(48,49)50)28(45)34(57-24)42-23-41-27-31(36)39-22-40-32(27)42/h14-15,22-24,28-30,34,45-46H,4-13,16-21H2,1-3H3,(H,37,43)(H,38,47)(H,51,52)(H,53,54)(H2,36,39,40)(H2,48,49,50)/b15-14+/t24-,28-,29-,30+,34-/m1/s1MBCVYCOKMMMWLX-YYMFEJJQSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(2E)-tetradec-2-enoylsulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid975.874975.297923755-2.709trans-tetradec-2-enoyl-coa0-4FDB023265(2e)-tetradecenoyl-coa;(2e)-tetradecenoyl-coenzyme a;Trans-tetra-dec-2-enoyl-coa;Trans-tetra-dec-2-enoyl-coa.;Trans-tetra-dec-2-enoyl-coenzyme a;Trans-tetra-dec-2-enoyl-coenzyme a.;Trans-tetradec-2-enoyl-coa;Trans-tetradec-2-enoyl-coenzyme aPW_C0020102TCoA87039054525610369821617124163772381337788811212025040612065940712292412012327311912560147912712850114077518519983-Hydroxytetradecanoyl-CoAHMDB0003934(S)-3-Hydroxytetradecanoyl-CoA is an intermediate in Fatty acid elongation in mitochondria. (S)-3-Hydroxytetradecanoyl-CoA is the 7th to last step in the synthesis of Hexadecanoic acid and is converted from 3-Oxotetradecanoyl-CoA via the enzyme long-chain 3-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.211). It is then converted to trans-Tetradec-2-enoyl-CoA via the enzyme enoyl-CoA hydratase (EC 4.2.1.17).C0526044060227466389500CCCCCCCCCCC[C@H](O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC35H62N7O18P3SInChI=1S/C35H62N7O18P3S/c1-4-5-6-7-8-9-10-11-12-13-23(43)18-26(45)64-17-16-37-25(44)14-15-38-33(48)30(47)35(2,3)20-57-63(54,55)60-62(52,53)56-19-24-29(59-61(49,50)51)28(46)34(58-24)42-22-41-27-31(36)39-21-40-32(27)42/h21-24,28-30,34,43,46-47H,4-20H2,1-3H3,(H,37,44)(H,38,48)(H,52,53)(H,54,55)(H2,36,39,40)(H2,49,50,51)/t23-,24+,28+,29+,30-,34+/m0/s1OXBHKMHNDGRDCZ-STLSENOWSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxytetradecanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid993.889993.308488441-2.6310(S)-3-hydroxytetradecanoyl-coa0-4FDB023253(s)-3-hydroxytetradecanoyl-coa.;(s)-3-hydroxytetradecanoyl-coenzyme a.PW_C001998S3HTCoA86939064525510369811617123163772371337788711212024940612065840712292312012327211912560047912712750114077418519993-oxotetradecanoyl-CoAHMDB00039353-Oxotetradecanoyl-CoA is a product of the peroxisomal beta oxidation of hexadenoic acid by the enzyme acyl-CoA oxidase which results in long-chain 3-oxoacyl-CoA-esters. (PMID: 7548202). Myristoyl-CoA:protein N-myristoyltransferase (E.C. 2.3.1.97) is a eukaryotic enzyme that catalyzes the transfer of myristate (C14:O) from myristoyl-CoA to the amino nitrogen of glycine. This covalent protein modification occurs cotranslationally, is apparently irreversible, and affects proteins with diverse functions. (PMID: 2818568).122364-86-7C05261119661972872610140190CCCCCCCCCCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC35H60N7O18P3SInChI=1S/C35H60N7O18P3S/c1-4-5-6-7-8-9-10-11-12-13-23(43)18-26(45)64-17-16-37-25(44)14-15-38-33(48)30(47)35(2,3)20-57-63(54,55)60-62(52,53)56-19-24-29(59-61(49,50)51)28(46)34(58-24)42-22-41-27-31(36)39-21-40-32(27)42/h21-22,24,28-30,34,46-47H,4-20H2,1-3H3,(H,37,44)(H,38,48)(H,52,53)(H,54,55)(H2,36,39,40)(H2,49,50,51)/t24-,28-,29-,30+,34-/m1/s1IQNFBGHLIVBNOU-QSGBVPJFSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxotetradecanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid991.873991.292838377-2.6293-oxotetradecanoyl-coa0-4FDB0232543-oxomyristoyl-coa;3-oxomyristoyl-coenzyme a;5'-{3-[(3r)-3-hydroxy-2,2-dimethyl-4-oxo-4-{[3-oxo-3-({2-[(3-oxotetradecanoyl)sulfanyl]ethyl}amino)propyl]amino}butyl] dihydrogen diphosphate}3'-phosphoadenosine;S-(3-oxotetradecanoate;S-(3-oxotetradecanoate) coa;S-(3-oxotetradecanoate) coenzyme a;S-(3-oxotetradecanoic acidPW_C0019993OTDCoA8683907452571036983161712216377239133778861121202514061206574071229251201232711191256024791271295011407761851928Lauroyl-CoAHMDB0003571Lauroyl-CoA, also known as dodecanoyl-CoA or C12:0-CoA, belongs to the class of organic compounds known as 2,3,4-saturated fatty acyl coas. These are acyl-CoAs carrying a 2,3,4-saturated fatty acyl chain. Thus, lauroyl-CoA is considered to be a fatty ester lipid molecule. Lauroyl-CoA is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa). Lauroyl-CoA has been primarily detected in urine. Within the cell, lauroyl-CoA is primarily located in the cytoplasm and peroxisome. Lauroyl-CoA exists in all living organisms, ranging from bacteria to humans. Lauroyl-CoA participates in a number of enzymatic reactions. In particular, Acetyl-CoA and lauroyl-CoA can be biosynthesized from 3-oxodecanoyl-CoA; which is mediated by the enzyme acetyl-CoA C-acyltransferase. In addition, Lauroyl-CoA can be biosynthesized from dodecanoic acid through the action of the enzyme short chain acyl-CoA synthetase. In humans, lauroyl-CoA is involved in the Beta oxidation OF very long chain fatty acids pathway, the fatty acid metabolism pathway, and the adrenoleukodystrophy, X-linked pathway. Lauroyl-CoA is also involved in several metabolic disorders, some of which include de novo triacylglycerol biosynthesis TG(i-22:0/12:0/i-17:0) pathway, de novo triacylglycerol biosynthesis TG(i-24:0/i-24:0/12:0) pathway, de novo triacylglycerol biosynthesis TG(i-22:0/13:0/12:0) pathway, and de novo triacylglycerol biosynthesis TG(22:0/a-13:0/12:0) pathway. Lauroyl-CoA is a substrate for Protein FAM34A.6244-92-4C0183216543615521LAUROYLCOA-CPD145018CCCCCCCCCCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC33H58N7O17P3SInChI=1S/C33H58N7O17P3S/c1-4-5-6-7-8-9-10-11-12-13-24(42)61-17-16-35-23(41)14-15-36-31(45)28(44)33(2,3)19-54-60(51,52)57-59(49,50)53-18-22-27(56-58(46,47)48)26(43)32(55-22)40-21-39-25-29(34)37-20-38-30(25)40/h20-22,26-28,32,43-44H,4-19H2,1-3H3,(H,35,41)(H,36,45)(H,49,50)(H,51,52)(H2,34,37,38)(H2,46,47,48)/t22-,26-,27-,28+,32-/m1/s1YMCXGHLSVALICC-GMHMEAMDSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-[(2-{[2-(dodecanoylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid949.837949.282273691-2.569lauroyl-coa0-4FDB023198Dodecanoyl-coa;Dodecanoyl-coenzyme a;Lauroyl coenzyme a;C12:0-coa;Coenzyme a, s-dodecanoate;Lauroyl-coenzyme a;CoA(12:0)PW_C001928COA12:086739084262252674252881036984161712116325921222592449772401337756613277885112806381189080821012025240612065640712252112412292612012327011912560347912667429912713050112825438814077718520003-Hydroxydodecanoyl-CoAHMDB0003936(S)-3-Hydroxydodecanoyl-CoA, also known as (S)-3-hydroxylauroyl-coa, belongs to the class of organic compounds known as (s)-3-hydroxyacyl coas. These are organic compounds containing a (S)-3-hydroxyl acylated coenzyme A derivative (S)-3-Hydroxydodecanoyl-CoA is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa) (S)-3-Hydroxydodecanoyl-CoA has been primarily detected in urine. Within the cell, (S)-3-hydroxydodecanoyl-CoA is primarily located in the cytoplasm (S)-3-Hydroxydodecanoyl-CoA exists in all living organisms, ranging from bacteria to humans. In humans, (S)-3-hydroxydodecanoyl-CoA is involved in the fatty acid metabolism pathway (S)-3-Hydroxydodecanoyl-CoA is also involved in several metabolic disorders, some of which include the fatty acid elongation in mitochondria pathway, long-chain-3-hydroxyacyl-CoA dehydrogenase deficiency (lchad), short chain acyl CoA dehydrogenase deficiency (scad deficiency), and the mitochondrial Beta-oxidation OF medium chain saturated fatty acids pathway. (S)-3-Hydroxydodecanoyl-CoA is a human metabolite involved in the fatty acid elongation in mitochondria pathway. The enzyme long-chain-3-hydroxyacyl-CoA dehydrogenase catalyzes the conversion of 3-Oxododecanoyl-CoA to (S)-3-Hydroxydodecanoyl-CoA.72059-49-5C0526244060327668389501CCCCCCCCC[C@H](O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC33H58N7O18P3SInChI=1S/C33H58N7O18P3S/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/h19-22,26-28,32,41,44-45H,4-18H2,1-3H3,(H,35,42)(H,36,46)(H,50,51)(H,52,53)(H2,34,37,38)(H2,47,48,49)/t21-,22+,26+,27+,28-,32+/m0/s1IJFLXRCJWPKGKJ-LXIXEQKWSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxydodecanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid965.836965.277188313-2.5210(S)-3-hydroxylauroyl-coa0-4FDB023255(s)-3-hydroxydodecanoyl-coenzyme a;(s)-3-hydroxylauroyl-coa;(s)-3-hydroxylauroyl-coenzyme aPW_C002000S3HDCoA86539144525810369851617119163772411337788311212025340612065240712292712012326811912560447912713150114077818520013-oxododecanoyl-CoAHMDB00039373-Oxododecanoyl-CoA, also known as 3-oxolauroyl-coa, 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. 3-Oxododecanoyl-CoA is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa). 3-Oxododecanoyl-CoA has been primarily detected in urine. Within the cell, 3-oxododecanoyl-CoA is primarily located in the cytoplasm. 3-Oxododecanoyl-CoA exists in all living organisms, ranging from bacteria to humans. 3-Oxododecanoyl-CoA participates in a number of enzymatic reactions. In particular, 3-Oxododecanoyl-CoA can be biosynthesized from (S)-3-hydroxydodecanoyl-CoA through its interaction with the enzyme enoyl-CoA hydratase. In addition, 3-Oxododecanoyl-CoA can be converted into acetyl-CoA and tetradecanoyl-CoA; which is catalyzed by the enzyme acetyl-CoA C-acyltransferase. In humans, 3-oxododecanoyl-CoA is involved in the fatty acid metabolism pathway. 3-Oxododecanoyl-CoA is also involved in several metabolic disorders, some of which include the glutaric aciduria type I pathway, long chain acyl-CoA dehydrogenase deficiency (lcad), short chain acyl CoA dehydrogenase deficiency (scad deficiency), and carnitine palmitoyl transferase deficiency (I). 3-Oxododecanoyl-CoA is a human metabolite involved in the fatty acid elongation in mitochondria pathway. The enzyme acetyl-CoA C-acyltransferase catalyzes the formation of this metabolite from Acetyl-CoA.78303-19-2C0526344060427868389502CCCCCCCCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC33H56N7O18P3SInChI=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/s1HQANBZHVWIDNQZ-GMHMEAMDSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-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 acid963.82963.261538249-2.5393-ketododecanoyl-coa0-4FDB0232563-oxododecanoyl-coenzyme a;3-oxolauroyl-coaPW_C0020013ODDCoA8643915452591036986161711816377242133778821121202544061206514071229281201232671191256054791271325011407791852742Decanoyl-CoAHMDB0006404Decanoyl CoA is a human liver acyl-CoA ester. It is selected to determine apparent kinetic constants for human liver acyl-CoA due to its relevance to the human diseases with cellular accumulation of this esters, especially to metabolic defects in the acyl-CoA dehydrogenation steps of the branched-chain amino acids, lysine, 5-hydroxy lysine, tryptophan, and fatty acid oxidation pathways. It is concluded that the substrate concentration is decisive for the glycine conjugate formation and that the occurrence in urine of acylglycines reflects an intramitochondrial accumulation of the corresponding acyl-CoA ester. (PMID: 3707752).1264-57-9C0527444061528493389510CCCCCCCCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC31H54N7O17P3SInChI=1S/C31H54N7O17P3S/c1-4-5-6-7-8-9-10-11-22(40)59-15-14-33-21(39)12-13-34-29(43)26(42)31(2,3)17-52-58(49,50)55-57(47,48)51-16-20-25(54-56(44,45)46)24(41)30(53-20)38-19-37-23-27(32)35-18-36-28(23)38/h18-20,24-26,30,41-42H,4-17H2,1-3H3,(H,33,39)(H,34,43)(H,47,48)(H,49,50)(H2,32,35,36)(H2,44,45,46)/t20-,24-,25-,26+,30-/m1/s1CNKJPHSEFDPYDB-HSJNEKGZSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-[(2-{[2-(decanoylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid921.783921.250973563-2.509decanoyl-coa0-4FDB023910Decanoyl coenzyme a monohydrate;Decanoyl-coa;Decanoyl-coenzyme a;S-decanoate;S-decanoate coenzyme a;S-decanoic acid;CoA(10:0)PW_C002742Decanoy863391645289103698716171171632549622254994977243133778811121202554061206494071229291201232661191256064791271335011407801852012(2E)-Decenoyl-CoAHMDB0003948(2E)-Decenoyl-CoA is a beta-oxidation intermediate, the substrate of the enzyme peroxisomal acyl-CoA thioesterase 2 (PTE-2, 3.1.2.2), which is localized in the peroxisome. The peroxisomal beta-oxidation system contains two sets of enzymes, one of which is involved in the oxidation of branched chain fatty acids and intermediates in the hepatic bile acid biosynthetic pathway and consists of one or two branched-chain acyl-CoA oxidase(s), a D-specific bifunctional protein and the sterol carrier-like protein x (SCPx). Peroxisomes are cellular organelles present in all eukaryotic cells. They play an indispensable role in the metabolism of a variety of lipids including very long-chain fatty acids, dicarboxylic fatty acids, bile acids, prostaglandins, leukotrienes, thromboxanes, pristanic acid, and xenobiotic fatty acids. (PMID: 11673457).10018-95-8C05275528076810723T2-DECENOYL-COA4444334CCCCCCC\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC31H52N7O17P3SInChI=1S/C31H52N7O17P3S/c1-4-5-6-7-8-9-10-11-22(40)59-15-14-33-21(39)12-13-34-29(43)26(42)31(2,3)17-52-58(49,50)55-57(47,48)51-16-20-25(54-56(44,45)46)24(41)30(53-20)38-19-37-23-27(32)35-18-36-28(23)38/h10-11,18-20,24-26,30,41-42H,4-9,12-17H2,1-3H3,(H,33,39)(H,34,43)(H,47,48)(H,49,50)(H2,32,35,36)(H2,44,45,46)/b11-10+/t20-,24-,25-,26+,30-/m1/s1MGNBGCRQQFMNBM-YJHHLLFWSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-{[2-({2-[(2E)-dec-2-enoylsulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid919.768919.235323499-2.5392E-decenoyl-coa0-4FDB023267(e)-s-2-decenoate;(e)-s-2-decenoate coa;(e)-s-2-decenoate coenzyme a;(e)-s-2-decenoic acid;2-trans-decenoyl-coa;2-trans-decenoyl-coenzyme a;S-(2e)-2-decenoate;S-(2e)-2-decenoate coa;S-(2e)-2-decenoate coenzyme a;S-(2e)-2-decenoic acid;Trans-2-decenoylcoenzyme a;Trans-d2,3-decenoyl-coa;Trans-d2,3-decenoyl-coenzyme a;Trans-dec-2-enoyl-coa;Trans-dec-2-enoyl-coenzyme aPW_C0020122DCoA86239174526110369891617116163772451337788011212025740612064840712293112012326511912560847912713550114078218520023-Hydroxydecanoyl-CoAHMDB0003938(S)-Hydroxydecanoyl-CoA has a role in the synthesis and oxidation of fatty acids. It is involved in fatty acid elongation in mitochondria. In this pathway 3-Oxodecanoyl-CoA is acted upon by two enzymes, 3-hydroxyacyl-CoA dehydrogenase and long-chain-3-hydroxyacyl-CoA dehydrogenase to produce (S)-Hydroxydecanoyl-CoA. Since coenzyme A is chemically a thiol, it can react with carboxylic acids to form thioesters, thus functioning as an acyl group carrier. It assists in transferring fatty acids from the cytoplasm to mitochondria. A molecule of coenzyme A carrying an acetyl group is also referred to as acetyl-CoA. When it is not attached to an acyl group it is usually referred to as CoASH or HSCoA.6245-70-1C05264160611592832517220838CCCCCCC[C@H](O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC31H54N7O18P3SInChI=1S/C31H54N7O18P3S/c1-4-5-6-7-8-9-19(39)14-22(41)60-13-12-33-21(40)10-11-34-29(44)26(43)31(2,3)16-53-59(50,51)56-58(48,49)52-15-20-25(55-57(45,46)47)24(42)30(54-20)38-18-37-23-27(32)35-17-36-28(23)38/h17-20,24-26,30,39,42-43H,4-16H2,1-3H3,(H,33,40)(H,34,44)(H,48,49)(H,50,51)(H2,32,35,36)(H2,45,46,47)/t19-,20+,24+,25+,26-,30+/m0/s1HIVSMYZAMUNFKZ-PNPVFPMQSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxydecanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid937.783937.245888185-2.4610(S)-3-hydroxydecanoyl-coa0-4FDB023257(s)-3-hydroxydecanoyl-coa;(s)-3-hydroxydecanoyl-coenzyme a;3-hydroxydecanoyl-coa;3-hydroxydecanoyl-coenzyme a;3s-hydroxy-decanoyl-coa;3s-hydroxy-decanoyl-coenzyme a;Dl-b-hydroxydecanoyl coenzyme a;Dl-beta-hydroxydecanoyl coenzyme a;S-(3-hydroxydecanoate;S-(3-hydroxydecanoate) coa;S-(3-hydroxydecanoate) coenzyme a;S-(3-hydroxydecanoate)coa;S-(3-hydroxydecanoate)coenzyme a;S-(3-hydroxydecanoic acid;B-hydroxydecanoyl coenzyme a;Beta-hydroxydecanoyl coenzyme aPW_C002002SHD-CoA86139184526010369881617115163772441337787911212025640612064640712293012012326411912560747912713450114078118520033-oxodecanoyl-CoAHMDB00039393-Oxodecanoyl-CoA is an intermediate in fatty acid metabolism, the substrate of the enzyme acetyl-Coenzyme A acetyltransferase 1 and 2 [EC:2.3.1.16-2.3.1.9]; 3-Oxodecanoyl-CoA is an intermediate in fatty acid elongation in mitochondria, being the substrate of the enzymes beta-hydroxyacyl-CoA dehydrogenase and 3-hydroxyacyl-CoA dehydrogenase [EC 1.1.1.211-1.1.1.35]. (KEGG).50411-91-1C0526544060628528389504CCCCCCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC31H52N7O18P3SInChI=1S/C31H52N7O18P3S/c1-4-5-6-7-8-9-19(39)14-22(41)60-13-12-33-21(40)10-11-34-29(44)26(43)31(2,3)16-53-59(50,51)56-58(48,49)52-15-20-25(55-57(45,46)47)24(42)30(54-20)38-18-37-23-27(32)35-17-36-28(23)38/h17-18,20,24-26,30,42-43H,4-16H2,1-3H3,(H,33,40)(H,34,44)(H,48,49)(H,50,51)(H2,32,35,36)(H2,45,46,47)/t20-,24-,25-,26+,30-/m1/s1AZCVXMAPLHSIKY-HSJNEKGZSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxodecanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid935.767935.230238121-2.4993-oxodecanoyl-coa0-4FDB0232583-ketodecanoyl-coa;3-ketodecanoyl-coenzyme a;3-oxodecanoyl-coenzyme aPW_C0020033ODCCoA860391945262103699016171141637724613377878112120258406120645407122932120123263119125609479127136501140783185845Octanoyl-CoAHMDB0001070Octanoyl-CoA is a substrate for Trifunctional enzyme beta subunit (mitochondrial), Acyl-coenzyme A oxidase 1 (peroxisomal), 3-ketoacyl-CoA thiolase (mitochondrial), 3-ketoacyl-CoA thiolase (peroxisomal), Nuclear receptor-binding factor 1, Acyl-CoA dehydrogenase (long-chain specific, mitochondrial), Acyl-coenzyme A oxidase 3 (peroxisomal), HPDHase, Acyl-CoA dehydrogenase (medium-chain specific, mitochondrial), Acyl-coenzyme A oxidase 2 (peroxisomal) and Peroxisomal carnitine O-octanoyltransferase.1264-52-4C0194438015533CPD-196371CCCCCCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC29H50N7O17P3SInChI=1S/C29H50N7O17P3S/c1-4-5-6-7-8-9-20(38)57-13-12-31-19(37)10-11-32-27(41)24(40)29(2,3)15-50-56(47,48)53-55(45,46)49-14-18-23(52-54(42,43)44)22(39)28(51-18)36-17-35-21-25(30)33-16-34-26(21)36/h16-18,22-24,28,39-40H,4-15H2,1-3H3,(H,31,37)(H,32,41)(H,45,46)(H,47,48)(H2,30,33,34)(H2,42,43,44)/t18-,22-,23-,24+,28-/m1/s1KQMZYOXOBSXMII-CECATXLMSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-[(2-{[2-(octanoylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid893.73893.219673435-2.419octanoyl-coa0-4FDB022409Capryloyl-coa;Capryloyl-coenzyme a;Octanoyl-coa;Octanoyl-coenzyme a;CoA(8:0)PW_C000845COA8:0859392045290103699116171131632591422259174977247133778771121202594061206444071229331201232621191256104791271375011407841852013(2E)-Octenoyl-CoAHMDB0003949(2E)-Octenoyl-CoA is the main metabolite produced in medium-chain acyl-CoA dehydrogenase (EC 1.3.99.3, MCAD) deficiency; however the product of the enzymatic reaction is not directly detected in several methods for screening of inborn errors of fatty acid oxidation. In order to aid the timely follow-up of screening results that suggest abnormalities in MCAD, rapid and simple confirmatory tests for the enzyme activity and/or gene mutation analysis should be available. Medium-chain fatty acyl-CoA dehydrogenase (MCAD) catalyzes the conversion of different chain length fatty acyl- CoAs into their corresponding trans-enoyl-CoA moieties via two consecutive sequences of steps. The first step involves the concerted abstraction of a proton and a hydride ion from the a- and 8-carbon chains of the fatty acyl-CoA substrates, concomitant with the reduction of the enzyme (E)-bound FAD to FADH2. The reoxidation of EFADH2, to propagate further rounds of catalysis, is accomplished via transfer of electrons to a variety of organic electron acceptors; the natural electron acceptor for this process, under physiological conditions, is the electron-transferring flavoprotein. Of the different chain length fatty acyl-CoA substrates, octanoyl-CoA/octenoyl-CoA have been known as the most efficient (and physiological) substrates for the medium-chain fatty acyl-CoA dehydrogenase (MCAD)-catalyzed reaction. (PMID: 16046200, 1390638, 8038175).10018-94-7C052765280769275374444335CCCCC\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC29H48N7O17P3SInChI=1S/C29H48N7O17P3S/c1-4-5-6-7-8-9-20(38)57-13-12-31-19(37)10-11-32-27(41)24(40)29(2,3)15-50-56(47,48)53-55(45,46)49-14-18-23(52-54(42,43)44)22(39)28(51-18)36-17-35-21-25(30)33-16-34-26(21)36/h8-9,16-18,22-24,28,39-40H,4-7,10-15H2,1-3H3,(H,31,37)(H,32,41)(H,45,46)(H,47,48)(H2,30,33,34)(H2,42,43,44)/b9-8+/t18-,22-,23-,24+,28-/m1/s1CPSDNAXXKWVYIY-NTLMCJQISA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(2E)-oct-2-enoylsulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid891.714891.204023371-2.4592E-octenoyl-coa0-4FDB023268(e)-s-2-octenoate;(e)-s-2-octenoate coa;(e)-s-2-octenoate coenzyme a;(e)-s-2-octenoic acid;2,3-trans-octenoyl coenzyme a;Oct-2-trans-enoyl-coa;Oct-2-trans-enoyl-coenzyme a;Oct-trans-2-enoyl coenzyme a;S-(2e)-2-octenoate;S-(2e)-2-octenoate coa;S-(2e)-2-octenoate coenzyme a;S-(2e)-2-octenoic acid;Trans-d2,3-octenoyl-coa;Trans-d2,3-octenoyl-coenzyme a;Trans-oct-2-enoyl-coa;Trans-oct-2-enoyl-coenzyme aPW_C0020132OCoA85839214526410369931617112163772491337787611212026540612064340712293512012326111912561247912713950114078618520043-hydroxyoctanoyl-CoAHMDB0003940Coenzyme A is notable for its role in the synthesis and oxidation of fatty acids. Since coenzyme A is chemically a thiol, it can react with carboxylic acids to form thioesters, thus functioning as an acyl group carrier. It assists in transferring fatty acids from the cytoplasm to mitochondria. Specifically (S)-Hydroxyoctanoyl-CoA is involved in fatty acid metabolism. It is the product of a reaction between 3-Oxooctanoyl-CoA and two enzymes; 3-hydroxyacyl-CoA Dehydrogenase and long-chain- 3-hydroxyacyl-CoA dehydrogenase.79171-48-5C052665347750828632[H][C@](O)(CCCCC)CC(=O)SCCNC(=O)CCNC(=O)[C@]([H])(O)C(C)(C)COP(O)(=O)OP(O)(=O)OC[C@H]1O[C@H](C(O)[C@H]1OP(O)(O)=O)N1C=NC2=C1N=CN=C2NC29H50N7O18P3SInChI=1S/C29H50N7O18P3S/c1-4-5-6-7-17(37)12-20(39)58-11-10-31-19(38)8-9-32-27(42)24(41)29(2,3)14-51-57(48,49)54-56(46,47)50-13-18-23(53-55(43,44)45)22(40)28(52-18)36-16-35-21-25(30)33-15-34-26(21)36/h15-18,22-24,28,37,40-41H,4-14H2,1-3H3,(H,31,38)(H,32,42)(H,46,47)(H,48,49)(H2,30,33,34)(H2,43,44,45)/t17-,18+,22?,23-,24-,28+/m0/s1ATVGTMKWKDUCMS-FZQVHTIWSA-N{[(2R,3R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxyoctanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid909.73909.214588057-2.4210[(2R,3R,5R)-5-(6-aminopurin-9-yl)-4-hydroxy-2-({[hydroxy([hydroxy((3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxyoctanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy)phosphoryl]oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxyphosphonic acid0-4FDB023259(s)-3-hydroxyoctanoyl-coa;(s)-3-hydroxyoctanoyl-coenzyme aPW_C002004S-HOCoA85739224526310369921617111163772481337787511212026440612064140712293412012326011912561147912713850114078518520053-oxooctanoyl-CoAHMDB00039413-Oxooctanoyl-CoA is the substrate of the acetyl-CoA C-acyltransferase/oxoacyl-CoA thiolase A (EC 2.3.1.16, SCP2/3-oxoacyl-CoA thiolase) present in peroxisomes from normal liver. Peroxisomes beta -oxidize a wide variety of substrates including straight chain fatty acids, 2-methyl-branched fatty acids, and the side chain of the bile acid intermediates di- and trihydroxycoprostanic acids. Peroxisomes contain several beta -oxidation pathways with different substrate specificities; or example, straight chain acyl-CoAs are desaturated by palmitoyl-CoA oxidase, and their enoyl-CoAs are then converted to 3-oxoacyl-CoAs by MFP-1, which forms (hydration) and dehydrogenates L-3(3S)-hydroxyacyl-CoAs; for example, straight chain acyl-CoAs are desaturated by palmitoyl-CoA oxidase (23), and their enoyl-CoAs are then converted to 3-oxoacyl-CoAs by 3-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.35), which forms (hydration) and dehydrogenates L-3(3S)-hydroxyacyl-CoAs and their enoyl-CoAs are then converted to the corresponding 3-oxoacyl-CoAs by long-chain-enoyl-CoA hydratase(EC 4.2.1.74), which forms and dehydrogenates D-3(3R)-hydroxyacyl-CoAs. (PMID: 9325339).54684-64-9C05267440608282647-METHYL-3-OXOOCTANOYL-COA389506CCCCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC29H48N7O18P3SInChI=1S/C29H48N7O18P3S/c1-4-5-6-7-17(37)12-20(39)58-11-10-31-19(38)8-9-32-27(42)24(41)29(2,3)14-51-57(48,49)54-56(46,47)50-13-18-23(53-55(43,44)45)22(40)28(52-18)36-16-35-21-25(30)33-15-34-26(21)36/h15-16,18,22-24,28,40-41H,4-14H2,1-3H3,(H,31,38)(H,32,42)(H,46,47)(H,48,49)(H2,30,33,34)(H2,43,44,45)/t18-,22-,23-,24+,28-/m1/s1WPIVBCGRGVNDDT-CECATXLMSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxooctanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid907.72907.198939902-2.4793-ketooctanoyl-coa0-4FDB0232603-ketooctanoyl-coa;3-ketooctanoyl-coenzyme a;3-oxooctanoyl coenzyme a;3-oxooctanoyl-coenzyme a;S-(3-oxooctanoate;S-(3-oxooctanoate) coa;S-(3-oxooctanoate) coenzyme a;S-(3-oxooctanoic acidPW_C0020053OOACoA8563923452651036994161711016377250133778741121202664061206364071229361201232591191256134791271405011407871851719Hexanoyl-CoAHMDB0002845Hexanoyl-CoA, also known as hexanoyl-coenzyme A or caproyl-CoA, is a medium-chain fatty acyl-CoA having hexanoyl as the acyl group. Hexanoyl-CoA is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa). Within the cell, hexanoyl-CoA is primarily located in the membrane (predicted from logP). It can also be found in the extracellular space. Hexanoyl-CoA exists in all living organisms, ranging from bacteria to humans. In humans, hexanoyl-CoA is involved in the biosynthesis and oxidation of fatty acids as well as in ceramide formation. Hexanoyl-CoA is also involved in few metabolic disorders, such as fatty acid elongation in mitochondria, mitochondrial beta-oxidation of medium chain saturated fatty acids, and mitochondrial beta-oxidation of short chain saturated fatty acids.5060-32-2C0527044911827540395736CCCCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC27H46N7O17P3SInChI=1S/C27H46N7O17P3S/c1-4-5-6-7-18(36)55-11-10-29-17(35)8-9-30-25(39)22(38)27(2,3)13-48-54(45,46)51-53(43,44)47-12-16-21(50-52(40,41)42)20(37)26(49-16)34-15-33-19-23(28)31-14-32-24(19)34/h14-16,20-22,26,37-38H,4-13H2,1-3H3,(H,29,35)(H,30,39)(H,43,44)(H,45,46)(H2,28,31,32)(H2,40,41,42)/t16-,20-,21-,22+,26-/m1/s1OEXFMSFODMQEPE-HDRQGHTBSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-[(2-{[2-(hexanoylsulfanyl)ethyl]carbamoyl}ethyl)carbamoyl]-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid865.677865.188373307-2.379hexanoyl-coa0-4FDB023074Caproyl-CoA;Caproyl coenzyme A;Caproyl-coenzyme A;Hexanoyl coenzyme A;Hexanoyl-coenzyme A;CoA(6:0)PW_C001719COA6:08543924452661036995161710416377251133778691121202684061206304071229371201232551191256144791271415011407881852008(2E)-Hexenoyl-CoAHMDB0003944trans-Hexenoyl-CoA is an intermediate in fatty acid metabolism. Beta-oxidation occurs in both mitochondria and peroxisomes. Mitochondria catalyze the beta-oxidation of the bulk of short-, medium-, and long-chain fatty acids derived from diet, and this pathway constitutes the major process by which fatty acids are oxidized to generate energy. Peroxisomes are involved in the beta-oxidation chain shortening of long-chain and very-long-chain fatty acyl-coenzyme (CoAs), long-chain dicarboxylyl-CoAs, the CoA esters of eicosanoids, 2-methyl-branched fatty acyl-CoAs, and the CoA esters of the bile acid intermediates di- and trihydroxycoprostanoic acids, and in the process they generate H2O2. Long-chain and very-long-chain fatty acids (VLCFAs) are also metabolized by the cytochrome P450 CYP4A omega-oxidation system to dicarboxylic acids that serve as substrates for peroxisomal beta-oxidation. The peroxisomal beta-oxidation system consists of (a) a classical peroxisome proliferator-inducible pathway capable of catalyzing straight-chain acyl-CoAs by fatty acyl-CoA oxidase, L-bifunctional protein, and thiolase, and (b) a second noninducible pathway catalyzing the oxidation of 2-methyl-branched fatty acyl-CoAs by branched-chain acyl-CoA oxidase (pristanoyl-CoA oxidase/trihydroxycoprostanoyl-CoA oxidase), D-bifunctional protein, and sterol carrier protein (SCP)x. trans-Hexenoyl-CoA is the substrate of the enzymes enoyl-coenzyme A reductase, acyl-CoA oxidase [EC 1.3.99.2-1.3.3.6], acyl-CoA dehydrogenase, long-chain-acyl-CoA dehydrogenase [EC 1.3.99.3-1.3.99.13], and Oxidoreductases [EC 1.3.99.-]; trans-Hexenoyl-CoA is an intermediate in fatty acid elongation in mitochondria, being the substrate of the enzymes enoyl-CoA hydratase and long-chain-enoyl-CoA hydratase [EC 4.2.1.17-4.2.1.74]. (PMID: 11375435).10018-93-6C052715280765287064444331CCC\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC27H44N7O17P3SInChI=1S/C27H44N7O17P3S/c1-4-5-6-7-18(36)55-11-10-29-17(35)8-9-30-25(39)22(38)27(2,3)13-48-54(45,46)51-53(43,44)47-12-16-21(50-52(40,41)42)20(37)26(49-16)34-15-33-19-23(28)31-14-32-24(19)34/h6-7,14-16,20-22,26,37-38H,4-5,8-13H2,1-3H3,(H,29,35)(H,30,39)(H,43,44)(H,45,46)(H2,28,31,32)(H2,40,41,42)/b7-6+/t16-,20-,21-,22+,26-/m1/s1OINXHIBNZUUIMR-IXUYQXAASA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-2-({[({[(3R)-3-{[2-({2-[(2E)-hex-2-enoylsulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}-3-hydroxy-2,2-dimethylpropoxy](hydroxy)phosphoryl}oxy)(hydroxy)phosphoryl]oxy}methyl)-4-hydroxyoxolan-3-yl]oxy}phosphonic acid863.66863.172725153-2.399trans-hex-2-enoyl-coa0-4FDB023263(2e)-hexenoyl-coa;(2e)-hexenoyl-coenzyme a;Trans-2,3-dehydrohexanoyl-coa;Trans-2,3-dehydrohexanoyl-coenzyme a;Trans-hex-2-enoyl-coa;Trans-hex-2-enoyl-coenzyme aPW_C002008T2HCoA852392545267103699616171021637725213377867112120269406120628407122938120123253119125615479127142501140789185964FADHMDB0001248FAD, also known as flavitan or adeflavin, belongs to the class of organic compounds known as flavin nucleotides. These are nucleotides containing a flavin moiety. Flavin is a compound that contains the tricyclic isoalloxazine ring system, which bears 2 oxo groups at the 2- and 4-positions. FAD is a drug which is used to treat eye diseases caused by vitamin b2 deficiency, such as keratitis and blepharitis. FAD is slightly soluble (in water) and a moderately acidic compound (based on its pKa). FAD has been found in human liver and muscle tissues, and has also been detected in multiple biofluids, such as feces and blood. Within the cell, FAD is primarily located in the cytoplasm, mitochondria, endoplasmic reticulum and peroxisome. FAD exists in all living organisms, ranging from bacteria to humans. In humans, FAD is involved in the risedronate action pathway, the ibandronate action pathway, the valine, leucine and isoleucine degradation pathway, and the pyrimidine metabolism pathway. FAD is also involved in several metabolic disorders, some of which include the oncogenic action OF L-2-hydroxyglutarate in hydroxygluaricaciduria pathway, gaba-transaminase deficiency, 4-hydroxybutyric aciduria/succinic semialdehyde dehydrogenase deficiency, and the saccharopinuria/hyperlysinemia II pathway. FAD is a condensation product of riboflavin and adenosine diphosphate. The coenzyme of various aerobic dehydrogenases, e.g., D-amino acid oxidase and L-amino acid oxidase. (Lehninger, Principles of Biochemistry, 1982, p972).146-14-5C0001664397516238FAD559059DB03147CC1=CC2=C(C=C1C)N(C[C@H](O)[C@H](O)[C@H](O)COP(O)(=O)OP(O)(=O)OC[C@H]1O[C@H]([C@H](O)[C@@H]1O)N1C=NC3=C1N=CN=C3N)C1=NC(=O)NC(=O)C1=N2C27H33N9O15P2InChI=1S/C27H33N9O15P2/c1-10-3-12-13(4-11(10)2)35(24-18(32-12)25(42)34-27(43)33-24)5-14(37)19(39)15(38)6-48-52(44,45)51-53(46,47)49-7-16-20(40)21(41)26(50-16)36-9-31-17-22(28)29-8-30-23(17)36/h3-4,8-9,14-16,19-21,26,37-41H,5-7H2,1-2H3,(H,44,45)(H,46,47)(H2,28,29,30)(H,34,42,43)/t14-,15+,16+,19-,20+,21+,26+/m0/s1VWWQXMAJTJZDQX-UYBVJOGSSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-3,4-dihydroxyoxolan-2-yl]methoxy}[({[(2R,3S,4S)-5-{7,8-dimethyl-2,4-dioxo-2H,3H,4H,10H-benzo[g]pteridin-10-yl}-2,3,4-trihydroxypentyl]oxy}(hydroxy)phosphoryl)oxy]phosphinic acid785.5497785.157134455-2.279flavine-adenine dinucleotide0-3FDB0225111h-purin-6-amine flavin dinucleotide;1h-purin-6-amine flavine dinucleotide;Adenine-flavin dinucleotide;Adenine-flavine dinucleotide;Adenine-riboflavin dinuceotide;Adenine-riboflavin dinucleotide;Adenine-riboflavine dinucleotide;Fad;Flamitajin b;Flanin f;Flavin adenine dinucleotide;Flavin adenine dinucleotide oxidized;Flavin-adenine dinucleotide;Flavine adenosine diphosphate;Flavine-adenine dinucleotide;Flavitan;Flaziren;Isoalloxazine-adenine dinucleotide;Riboflavin 5'-adenosine diphosphate;Riboflavin-adenine dinucleotide;Riboflavine-adenine dinucleotide;AdeflavinPW_C000964FAD999114518681923216425317628288251884021188141489421612291622492133582536223723264602364688314741134758104881652681035285102533511154961265511127561311860301556054156608216161161626390164751786499179666610770391637175205732121374652227487223907622411818216118872151189921112296225123282491244315112519227125952261271029112720292130293011304130243623318770802937712613377152134775011137750711277518115775413347761513277726337780543297837534578930331792223367927235880012368800343698071411911995840611999938412005140812010740712043240512045312212049012412127842912129841812141738212148938312274812012277612112280237412282344312306637612308713512316644812384946412386845412397639912404739812534847912537848012542948212547448112569729712597948912610729912627748412689150112692039112696850212698720712701120612731020912743250612760238812784038914079018514079918620063-Hydroxyhexanoyl-CoAHMDB0003942(S)-Hydroxyhexanoyl-CoA is an intermediate in fatty acid metabolism, being the substrate of the enzymes beta-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.211) and 3-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.35). (S)-Hydroxyhexanoyl-CoA is also an intermediate in fatty acid elongation in mitochondria, the substrate of the enzymes enoyl-CoA hydratase (EC 4.2.1.17) and long-chain-enoyl-CoA hydratase (EC 4.2.1.74) (KEGG).79171-47-4C05268119661602827610140154CCC[C@H](O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC27H46N7O18P3SInChI=1S/C27H46N7O18P3S/c1-4-5-15(35)10-18(37)56-9-8-29-17(36)6-7-30-25(40)22(39)27(2,3)12-49-55(46,47)52-54(44,45)48-11-16-21(51-53(41,42)43)20(38)26(50-16)34-14-33-19-23(28)31-13-32-24(19)34/h13-16,20-22,26,35,38-39H,4-12H2,1-3H3,(H,29,36)(H,30,40)(H,44,45)(H,46,47)(H2,28,31,32)(H2,41,42,43)/t15-,16+,20+,21+,22-,26+/m0/s1VAAHKRMGOFIORX-IKTBLOROSA-N4-({[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)-2-hydroxy-N-{2-[(2-{[(3S)-3-hydroxyhexanoyl]sulfanyl}ethyl)-C-hydroxycarbonimidoyl]ethyl}-3,3-dimethylbutanimidic acid881.68881.183289837-2.3810(S)-hydroxyhexanoyl-coa0-4FDB023261(s)-3-hydroxyhexanoyl-coa;(s)-3-hydroxyhexanoyl-coenzyme a;S-(3-hydroxyhexanoate;S-(3-hydroxyhexanoate)coa;S-(3-hydroxyhexanoate)coenzyme a;S-(3-hydroxyhexanoic acid;[r,s]-lactyl coa;[r,s]-lactyl coenzyme aPW_C002006S-HHxCA84739274527310369971617096163772531337786211212027640612062340712294312012324811912561747912714450114079118520073-oxohexanoyl-CoAHMDB00039433-Oxohexanoyl-CoA is an intermediate in Fatty acid elongation in mitochondria. 3-Oxohexanoyl-CoA is the 3rd to last step in the synthesis of Hexanoyl-CoA and is converted from Butanoyl-CoA via the enzyme acetyl-CoA acyltransferase 2 (EC 2.3.1.16). It is then converted to (S)-Hydroxyhexanoyl-CoA via the 3-hydroxyacyl-CoA dehydrogenase (EC 1.1.1.35).19774-86-8C0526944061027648K-HEXANOYL-COA389508CCCC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC27H44N7O18P3SInChI=1S/C27H44N7O18P3S/c1-4-5-15(35)10-18(37)56-9-8-29-17(36)6-7-30-25(40)22(39)27(2,3)12-49-55(46,47)52-54(44,45)48-11-16-21(51-53(41,42)43)20(38)26(50-16)34-14-33-19-23(28)31-13-32-24(19)34/h13-14,16,20-22,26,38-39H,4-12H2,1-3H3,(H,29,36)(H,30,40)(H,44,45)(H,46,47)(H2,28,31,32)(H2,41,42,43)/t16-,20-,21-,22+,26-/m1/s1NFOYYXQAVVYWKV-HDRQGHTBSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxohexanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid879.66879.167639773-2.4193-oxohexanoyl-coa0-4FDB0232623-ketohexanoyl coa.;3-ketohexanoyl coenzyme a.;3-oxohexanoyl-coa;3-oxohexanoyl-coenzyme a;Ketohexanoyl-coa;Ketohexanoyl-coenzyme aPW_C0020073OHOCoA844392845274103699816170981637725413377863112120277406120624407122944120123249119125618479127145501140792185856Butyryl-CoAHMDB0001088Butyryl-CoA is an intermediate in the metabolism of Butanoate. It is a substrate for Acyl-coenzyme A oxidase 3 (peroxisomal), 3-ketoacyl-CoA thiolase (mitochondrial), 3-ketoacyl-CoA thiolase (peroxisomal), Acyl-coenzyme A oxidase 1 (peroxisomal), Acyl-CoA dehydrogenase (medium-chain specific, mitochondrial), Acyl-CoA dehydrogenase (long-chain specific, mitochondrial), Acyl-coenzyme A oxidase 2 (peroxisomal), Acetyl-CoA acetyltransferase (mitochondrial), Acetyl-CoA acetyltransferase (cytosolic), Acyl-CoA dehydrogenase (short-chain specific, mitochondrial) and Trifunctional enzyme beta subunit (mitochondrial).2140-48-9C0013626557371CPD-12174260CCCC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC25H42N7O17P3SInChI=1S/C25H42N7O17P3S/c1-4-5-16(34)53-9-8-27-15(33)6-7-28-23(37)20(36)25(2,3)11-46-52(43,44)49-51(41,42)45-10-14-19(48-50(38,39)40)18(35)24(47-14)32-13-31-17-21(26)29-12-30-22(17)32/h12-14,18-20,24,35-36H,4-11H2,1-3H3,(H,27,33)(H,28,37)(H,41,42)(H,43,44)(H2,26,29,30)(H2,38,39,40)/t14-,18-,19-,20+,24-/m1/s1CRFNGMNYKDXRTN-CITAKDKDSA-N(2R)-4-({[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)-N-(2-{[2-(butanoylsulfanyl)ethyl]-C-hydroxycarbonimidoyl}ethyl)-2-hydroxy-3,3-dimethylbutanimidic acid837.624837.157073179-2.329(2R)-4-[({[(2R,3S,4R,5R)-5-(6-aminopurin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy(hydroxy)phosphoryl}oxy(hydroxy)phosphoryl)oxy]-N-(2-{[2-(butanoylsulfanyl)ethyl]-C-hydroxycarbonimidoyl}ethyl)-2-hydroxy-3,3-dimethylbutanimidic acid0-4FDB022419Butanoyl-coa;Butanoyl-coenzyme a;Butyryl-coa;Butyryl-coenzyme a;CoA(4:0)PW_C000856Btyl-CA5874843352751036999161710716377255133778721121202804061206334071229451201232571191256194791271465011407931851345Crotonoyl-CoAHMDB0002009Crotonoyl-CoA is an important component in several metabolic pathways, notably fatty acid and amino acid metabolism. It is the substrate of a group of enzymes acyl-Coenzyme A oxidases 1, 2, 3 (E.C.: 1.3.3.6) corresponding to palmitoyl, branched chain, and pristanoyl, respectively, in the peroxisomal fatty acid beta-oxidation, producing hydrogen peroxide. Abnormality of this group of enzymes is linked to coma, dehydration, diabetes, fatty liver, hyperinsulinemia, hyperlipidemia, and leukodystrophy. It is also a substrate of a group of enzymes called acyl-Coenzyme A dehydrogenase (E.C.:1.3.99-, including 1.3.99.2, 1.3.99.3) in the metabolism of fatty acids or branched chain amino acids in the mitochondria (Rozen et al., 1994). Acyl-Coenzyme A dehydrogenase (1.3.99.3) has shown to contribute to kidney-associated diseases, such as adrenogential syndrome, kidney failure, kidney tubular necrosis, homocystinuria, as well as other diseases including cretinism, encephalopathy, hypoglycemia, medium chain acyl-CoA dehydrogenase deficiency. The gene (ACADS) also plays a role in theta oscillation during sleep. In addition, crotonoyl-CoA is the substrate of enoyl coenzyme A hydratase (E.C.4.2.1.17) in the mitochondria during lysine degradation and tryptophan metabolism, benzoate degradation via CoA ligation; in contrast it is the product of this enzyme in the butanoate metabolism. Moreover, it is produced from multiple enzymes in the butanoate metabolism pathway, including 3-Hydroxybutyryl-CoA dehydratase (E.C.:4.2.1.55), glutaconyl-CoA decarboxylase (E.C.: 4.1.1.70), vinylacetyl-CoA Δ-isomerase (E.C.: 5.3.3.3), and trans-2-enoyl-CoA reductase (NAD+) (E.C.: 1.3.1.44). In lysine degradation and tryptophan metabolism, crotonoyl CoA is produced by glutaryl-Coenzyme A dehydrogenase (E.C.:1.3.99.7) lysine and tryptophan metabolic pathway. This enzyme is linked to type-1glutaric aciduria, metabolic diseases, movement disorders, myelinopathy, and nervous system diseases.102680-35-3C00877528038115473CPD-10834444072C\C=C\C(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC25H40N7O17P3SInChI=1S/C25H40N7O17P3S/c1-4-5-16(34)53-9-8-27-15(33)6-7-28-23(37)20(36)25(2,3)11-46-52(43,44)49-51(41,42)45-10-14-19(48-50(38,39)40)18(35)24(47-14)32-13-31-17-21(26)29-12-30-22(17)32/h4-5,12-14,18-20,24,35-36H,6-11H2,1-3H3,(H,27,33)(H,28,37)(H,41,42)(H,43,44)(H2,26,29,30)(H2,38,39,40)/b5-4+/t14-,18-,19-,20+,24-/m1/s1KFWWCMJSYSSPSK-PAXLJYGASA-N(2R)-4-({[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)-N-[2-({2-[(2E)-but-2-enoylsulfanyl]ethyl}-C-hydroxycarbonimidoyl)ethyl]-2-hydroxy-3,3-dimethylbutanimidic acid835.608835.141423115-2.179(2R)-4-[({[(2R,3S,4R,5R)-5-(6-aminopurin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy(hydroxy)phosphoryl}oxy(hydroxy)phosphoryl)oxy]-N-[2-({2-[(2E)-but-2-enoylsulfanyl]ethyl}-C-hydroxycarbonimidoyl)ethyl]-2-hydroxy-3,3-dimethylbutanimidic acid0-4FDB0227922-butenoyl-coa;2-butenoyl-coenzyme a;But-2-enoyl-coa;But-2-enoyl-coenzyme a;Crotonyl-coenzyme a;S-but-2-enoylcoenzyme a;Trans-but-2-enoyl-coa;Trans-but-2-enoyl-coenzyme aPW_C001345CrtylCA58841083352269452761037000161823615177256133782811121202814061207914071229461201233811191256204791271475011407941859043-Hydroxybutyryl-CoAHMDB00011663-Hydroxybutyryl-CoA, also known as 3-hydroxybutanoyl-CoA or 3-OH-butyryl-CoA, belongs to the class of organic compounds known as (r)-3-hydroxyacyl coas. These are organic compounds containing a (R)-3-hydroxyl acylated coenzyme A derivative. 3-Hydroxybutyryl-CoA is slightly soluble (in water) and an extremely strong acidic compound (based on its pKa). 3-Hydroxybutyryl-CoA has been primarily detected in urine. Within the cell, 3-hydroxybutyryl-CoA is primarily located in the mitochondria, peroxisome and cytoplasm. In humans, 3-hydroxybutyryl-CoA is involved in the lysine degradation pathway, the pyridoxine dependency with seizures pathway, the fatty acid metabolism pathway, and the butyrate metabolism pathway. 3-Hydroxybutyryl-CoA is also involved in several metabolic disorders, some of which include medium chain acyl-CoA dehydrogenase deficiency (mcad), the ethylmalonic encephalopathy pathway, the hyperlysinemia II or saccharopinuria pathway, and very-long-chain acyl CoA dehydrogenase deficiency (vlcad). 3-Hydroxybutyryl-CoA is a substrate for Enoyl-CoA hydratase (mitochondrial), Trifunctional enzyme alpha subunit (mitochondrial) and Peroxisomal bifunctional enzyme.2871-66-1C03561440045154522-METHYL-3-HYDROXY-BUTYRYL-COA389056C[C@H](O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC25H42N7O18P3SInChI=1S/C25H42N7O18P3S/c1-13(33)8-16(35)54-7-6-27-15(34)4-5-28-23(38)20(37)25(2,3)10-47-53(44,45)50-52(42,43)46-9-14-19(49-51(39,40)41)18(36)24(48-14)32-12-31-17-21(26)29-11-30-22(17)32/h11-14,18-20,24,33,36-37H,4-10H2,1-3H3,(H,27,34)(H,28,38)(H,42,43)(H,44,45)(H2,26,29,30)(H2,39,40,41)/t13-,14+,18+,19+,20-,24+/m0/s1QHHKKMYHDBRONY-VKBDFPRVSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-3-({2-[(2-{[(3S)-3-hydroxybutanoyl]sulfanyl}ethyl)carbamoyl]ethyl}carbamoyl)-2,2-dimethylpropoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid853.623853.151987801-2.1410(S)-3-hydroxybutanoyl-coa0-4FDB022460(3r)-3-hydroxybutanoyl-coa;(3r)-3-hydroxybutanoyl-coenzyme a;(r)-3-hydroxybutanoyl-coa;(r)-3-hydroxybutanoyl-coenzyme a;(s)-3-hydroxybutanoyl-coa;(s)-3-hydroxybutanoyl-coenzyme a;3-hydroxybutanoyl-coa;3-hydroxybutanoyl-coenzyme a;3-hydroxybutyryl-coa;3-hydroxybutyryl-coenzyme a;3-oh-butyryl-coa;3-oh-butyryl-coenzyme a;Hydroxy-butyryl-coa;Hydroxy-butyryl-coenzyme a;Beta-hydroxybutyryl-coa;Beta-hydroxybutyryl-coenzyme a;Beta-hydroxybutyryl-s-coa;Beta-hydroxybutyryl-s-coenzyme aPW_C0009043HB-CoA5904108535277103700116182382261523815177257133782801121202824061207904071229471201233801191256214791271485011407951851142Acetoacetyl-CoAHMDB0001484Acetoacetyl-CoA is an intermediate in the metabolism of Butanoate. It is a substrate for Succinyl-CoA:3-ketoacid-coenzyme A transferase 1 (mitochondrial), Hydroxymethylglutaryl-CoA synthase (mitochondrial), Short chain 3-hydroxyacyl-CoA dehydrogenase (mitochondrial), Trifunctional enzyme beta subunit (mitochondrial), Hydroxymethylglutaryl-CoA synthase (cytoplasmic), Peroxisomal bifunctional enzyme, Acetyl-CoA acetyltransferase (cytosolic), Acetyl-CoA acetyltransferase (mitochondrial), 3-hydroxyacyl-CoA dehydrogenase type II, Succinyl-CoA:3-ketoacid-coenzyme A transferase 2 (mitochondrial), 3-ketoacyl-CoA thiolase (mitochondrial), 3-ketoacyl-CoA thiolase (peroxisomal) and Trifunctional enzyme alpha subunit (mitochondrial).1420-36-6C0033243921415345ACETOACETYL-COA388353CC(=O)CC(=O)SCCNC(=O)CCNC(=O)[C@H](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=C1N=CN=C2NC25H40N7O18P3SInChI=1S/C25H40N7O18P3S/c1-13(33)8-16(35)54-7-6-27-15(34)4-5-28-23(38)20(37)25(2,3)10-47-53(44,45)50-52(42,43)46-9-14-19(49-51(39,40)41)18(36)24(48-14)32-12-31-17-21(26)29-11-30-22(17)32/h11-12,14,18-20,24,36-37H,4-10H2,1-3H3,(H,27,34)(H,28,38)(H,42,43)(H,44,45)(H2,26,29,30)(H2,39,40,41)/t14-,18-,19-,20+,24-/m1/s1OJFDKHTZOUZBOS-CITAKDKDSA-N{[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-2-({[hydroxy({hydroxy[(3R)-3-hydroxy-2,2-dimethyl-3-{[2-({2-[(3-oxobutanoyl)sulfanyl]ethyl}carbamoyl)ethyl]carbamoyl}propoxy]phosphoryl}oxy)phosphoryl]oxy}methyl)oxolan-3-yl]oxy}phosphonic acid851.607851.136337737-2.169acetoacetyl-coa0-4FDB0226483-acetoacetyl-coa;3-acetoacetyl-coenzyme a;3-oxobutyryl-coa;3-oxobutyryl-coenzyme a;Acetoacetyl coa;Acetoacetyl coenzyme a;Acetoacetyl-coa;Acetoacetyl-coenzyme a;S-acetoacetylcoenzyme aPW_C001142ActaCoA5924792810493527910370021617292198735716375981608242226830621015239151772581337822411278914111901261701202834061207634071214651221229481201233591191240231351256224791260854811271495011275412061407961851032Glutaryl-CoAHMDB0001339Glutaryl-CoA is a substrate for 2-oxoglutarate dehydrogenase E1 component (mitochondrial), Dihydrolipoyllysine-residue succinyltransferase component of 2- oxoglutarate dehydrogenase complex (mitochondrial) and Glutaryl-CoA dehydrogenase (mitochondrial).103192-48-9C0052743925215524GLUTARYL-COA388388CC(C)(COP(O)(=O)OP(O)(=O)OC[C@H]1O[C@H]([C@H](O)[C@@H]1OP(O)(O)=O)N1C=NC2=C1N=CN=C2N)C(O)C(=O)NCCC(=O)NCCSC(=O)CCCC(O)=OC26H42N7O19P3SInChI=1S/C26H42N7O19P3S/c1-26(2,21(39)24(40)29-7-6-15(34)28-8-9-56-17(37)5-3-4-16(35)36)11-49-55(46,47)52-54(44,45)48-10-14-20(51-53(41,42)43)19(38)25(50-14)33-13-32-18-22(27)30-12-31-23(18)33/h12-14,19-21,25,38-39H,3-11H2,1-2H3,(H,28,34)(H,29,40)(H,35,36)(H,44,45)(H,46,47)(H2,27,30,31)(H2,41,42,43)/t14-,19-,20-,21?,25-/m1/s1SYKWLIJQEHRDNH-KRPIADGTSA-N5-{[2-(3-{3-[({[({[(2R,3S,4R,5R)-5-(6-amino-9H-purin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy}(hydroxy)phosphoryl)oxy](hydroxy)phosphoryl}oxy)methyl]-2-hydroxy-3-methylbutanamido}propanamido)ethyl]sulfanyl}-5-oxopentanoic acid881.633881.146902423-2.39105-({2-[3-(3-{[({[(2R,3S,4R,5R)-5-(6-aminopurin-9-yl)-4-hydroxy-3-(phosphonooxy)oxolan-2-yl]methoxy(hydroxy)phosphoryl}oxy(hydroxy)phosphoryl)oxy]methyl}-2-hydroxy-3-methylbutanamido)propanamido]ethyl}sulfanyl)-5-oxopentanoic acid0-5FDB022563Glutaryl-coa;Glutaryl-coenzyme aPW_C001032GlutCoA92941077352821037004161823015177259133782841121202854061207984071229501201233871191256244791271505011407971851316Carbon dioxideHMDB0001967Carbon dioxide is a colorless, odorless gas that can be formed by the body and is necessary for the respiration cycle of plants and animals. Carbon dioxide is produced during respiration by all animals, fungi and microorganisms that depend on living and decaying plants for food, either directly or indirectly. It is, therefore, a major component of the carbon cycle. Additionally, carbon dioxide is used by plants during photosynthesis to make sugars which may either be consumed again in respiration or used as the raw material to produce polysaccharides such as starch and cellulose, proteins and the wide variety of other organic compounds required for plant growth and development. When inhaled at concentrations much higher than usual atmospheric levels, it can produce a sour taste in the mouth and a stinging sensation in the nose and throat. These effects result from the gas dissolving in the mucous membranes and saliva, forming a weak solution of carbonic acid. Carbon dioxide is used by the food industry, the oil industry, and the chemical industry. Carbon dioxide is used to produce carbonated soft drinks and soda water. Traditionally, the carbonation in beer and sparkling wine comes about through natural fermentation, but some manufacturers carbonate these drinks artificially.124-38-9C0001128016526274O=C=OCO2InChI=1S/CO2/c2-1-3CURLTUGMZLYLDI-UHFFFAOYSA-Nmethanedione44.009543.9898292440.630carbon dioxide00DBMET00423FDB014084Carbon oxide;Carbon-12 dioxide;Carbonic acid anhydride;Carbonic acid gas;Carbonic anhydride;[co2];Co2;E 290;E-290;E290;R-744PW_C001316CO2508121120444801350318640367731695208065113343163849174522551173144705283103532011157501085771101596810060261556078161647117866371076922190701716070351637061188716320573081987333213746122275302108215225822315191582491184927711908170124642261268829042626315435233187699429377122133771701327747033377739112777501297776334178077134784053567842733478941331792271308000836880675119807171359483638411329139111554912111995440612008912212015540712036441212055641412083341912092212412099140812128412512150538312274412012301144612319045012341845512348911812355637412385513612406339812534447912546029712551648112582449012587029912593148212628048012688750112705220612727750712733138812739050214079818569electron-transfer flavoproteinCompoundPW_EC0000695086ChEBIETF70Reduced electron-transfer flavoproteinCompoundPW_EC0000705086ChEBIRETF305Carnitine O-palmitoyltransferase 2, mitochondrialP23786HMDBP00311CPT21p32U0964312.3.1.21893172670326762523310213562213413785271314105261410638021411305314113155380Enoyl-CoA hydratase, mitochondrialP30084Straight-chain enoyl-CoA thioesters from C4 up to at least C16 are processed, although with decreasing catalytic rate.
HMDBP00388ECHS110q26.2-q26.3BT00712314.2.1.17591485332944174605252371031356231331438851181381Trifunctional enzyme subunit alpha, mitochondrialP40939Bifunctional subunit.
HMDBP00389HADHA2p23BC00923514.2.1.17; 1.1.1.211850390042776174915135242103135624133143883118146Trifunctional enzyme subunit beta, mitochondrialP55084HMDBP00048HADHB2p23D1648112.3.1.168513901427771749161352431031356251331438841181313-ketoacyl-CoA thiolase, mitochondrialP42765Abolishes BNIP3-mediated apoptosis and mitochondrial damage.
HMDBP00031ACAA218q21.1D1629412.3.1.16846390341356261331438871181303Carnitine O-palmitoyltransferase 1, liver isoformP50416Catalyzes the transfer of the acyl group of long-chain fatty acid-CoA conjugates onto carnitine, an essential step for the mitochondrial uptake of long-chain fatty acids and their subsequent beta-oxidation in the mitochondrion. Plays an important role in triglyceride metabolism.
HMDBP00309CPT1A11q13.2L3921112.3.1.21887225248104803211713562732914105142546Long-chain-fatty-acid--CoA ligase 1P33121Activation of long-chain fatty acids for both synthesis of cellular lipids, and degradation via beta-oxidation. Preferentially uses palmitoleate, oleate and linoleate.
HMDBP00577ACSL14q35CH47105616.2.1.3884222412592612252541041326361661356283291378477131411363199Long-chain specific acyl-CoA dehydrogenase, mitochondrialP28330HMDBP00102ACADL2q34CH47106311.3.8.88964469035269103135629133137853713101Medium-chain specific acyl-CoA dehydrogenase, mitochondrialP11310This enzyme is specific for acyl chain lengths of 4 to 16.
HMDBP00104ACADM1p31M9143211.3.8.7897443533435434609252701031356301331378547131442873091496Short/branched chain specific acyl-CoA dehydrogenase, mitochondrialP45954Has greatest activity toward short branched chain acyl-CoA derivative such as (s)-2-methylbutyryl-CoA, isobutyryl-CoA, and 2-methylhexanoyl-CoA as well as toward short straight chain acyl-CoAs such as butyryl-CoA and hexanoyl-CoA. Can use valproyl-CoA as substrate and may play a role in controlling the metabolic flux of valproic acid in the development of toxicity of this agent.
HMDBP01613ACADSB10q26.13AF26067811.3.8.5926443643488265271103135631133100Short-chain specific acyl-CoA dehydrogenase, mitochondrialP16219HMDBP00103ACADS12q24.31U8399211.3.8.1589443653527210313563213336Acetyl-CoA acetyltransferase, mitochondrialP24752Plays a major role in ketone body metabolism.
HMDBP00038ACAT111q22.3CH47106512.3.1.95944105035281103135633133139651785140982131412892197Glutaryl-CoA dehydrogenase, mitochondrialQ92947Catalyzes the oxidative decarboxylation of glutaryl-CoA to crotonyl-CoA and CO(2) in the degradative pathway of L-lysine, L-hydroxylysine, and L-tryptophan metabolism. It uses electron transfer flavoprotein as its electron acceptor. Isoform Short is inactive.
HMDBP00202GCDH19p13.2BC00257911.3.8.693041084352841031356341333479Very long-chain specific acyl-CoA dehydrogenase, mitochondrialP49748Active toward esters of long-chain and very long chain fatty acids such as palmitoyl-CoA, mysritoyl-CoA and stearoyl-CoA. Can accommodate substrate acyl chain lengths as long as 24 carbons, but shows little activity for substrates of less than 12 carbons.
HMDBP08259ACADVL17p13.1L4659011.3.8.9895175286102135635134373Hydroxyacyl-coenzyme A dehydrogenase, mitochondrialQ16836Plays an essential role in the mitochondrial beta-oxidation of short chain fatty acids. Exerts it highest activity toward 3-hydroxybutyryl-CoA.
HMDBP00381HADH4q22-q26AF00190311.1.1.355934108633713-hydroxyacyl-CoA dehydrogenase type-2Q99714Functions 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).
HMDBP00379HSD17B10Xp11.2BC00870811.1.1.35; 1.1.1.51; 1.1.1.178849326694491061431161008143882118113Acetyl-CoA acetyltransferase, cytosolicQ9BWD1HMDBP00013ACAT26q25.3BC00040812.3.1.97938926913248Carnitine O-palmitoyltransferase 2, mitochondrial1PW_P0002482673051177Enoyl-CoA hydratase, mitochondrial1PW_P0001771953806243Trifunctional enzyme, mitochondrial1PW_P0002432613814262464241Acetyl-CoA acyltransferase1PW_P000241259314247Carnitine O-palmitoyltransferase 11PW_P0002472663036246Long-chain-fatty-acid--CoA ligase 11PW_P00024626554611134231250Long-chain specific acyl-CoA dehydrogenase, mitochondrial1PW_P0002502699941159641251Medium-chain specific acyl-CoA dehydrogenase, mitochondrial1PW_P00025127010141169641252Short/branched chain specific acyl-CoA dehydrogenase, mitochondrial1PW_P000252271149641179641176Short-chain specific acyl-CoA dehydrogenase, mitochondrial1PW_P0001761941004809641179Acetyl-CoA acetyltransferase, mitochondrial1PW_P000179197364253Glutaryl-CoA dehydrogenase, mitochondrial1PW_P00025327219741189641249Very long-chain specific acyl-CoA dehydrogenase, mitochondrial1PW_P000249268347921149641178Hydroxyacyl-coenzyme A dehydrogenase, mitochondrial1PW_P00017819637324813-ketoacyl-CoA thiolase, mitochondrial1PW_P0004815043142423-hydroxyacyl-CoA dehydrogenase type-21PW_P0002422603714229Acetyl-CoA acetyltransferase, cytosolic1PW_P000229247134772falsePW_R000772Both314110311Compoundfalse3142441Compoundtrue31431471Compoundfalse314410991Compoundtrue2892472.3.1.212902482.3.1.21768falsePW_R000768Both312419961Compoundfalse312520091Compoundfalse312614201Compoundtrue2851774.2.1.171327243767falsePW_R000767Both311919961Compoundfalse31207211Compoundtrue312127401Compoundfalse312211441Compoundtrue3123400341Compoundtrue28424313281781.1.1.35766falsePW_R000766Both311511711Compoundfalse31169401Compoundtrue311727401Compoundfalse311810991Compoundtrue2832412.3.1.1613304812.3.1.161331243771falsePW_R000771Right31351451Compoundfalse31364141Compoundtrue313710991Compoundtrue313810311Compoundfalse3139321Compoundtrue31401701Compoundtrue2882466.2.1.3764falsePW_R000764Both310819981Compoundfalse310920101Compoundfalse311014201Compoundtrue2811774.2.1.171343243763falsePW_R000763Both310319981Compoundfalse31047211Compoundtrue310519991Compoundfalse310611441Compoundtrue3107400341Compoundtrue28024313441781.1.1.35762falsePW_R000762Right309919281Compoundfalse31009401Compoundtrue310119991Compoundfalse310210991Compoundtrue2792412.3.1.1613454812.3.1.161346243759falsePW_R000759Both308720001Compoundfalse30887211Compoundtrue308920011Compoundfalse309011441Compoundtrue3091400341Compoundtrue27624312531781.1.1.352163242758falsePW_R000758Right308327421Compoundfalse30849401Compoundtrue308520011Compoundfalse308610991Compoundtrue2752412.3.1.1612554812.3.1.161256243756falsePW_R000756Both307620021Compoundfalse307720121Compoundfalse307814201Compoundtrue2731774.2.1.171257243755falsePW_R000755Both307120021Compoundfalse30727211Compoundtrue307320031Compoundfalse3074400341Compoundtrue307511441Compoundtrue27124227224312581781.1.1.35754falsePW_R000754Both30678451Compoundfalse30689401Compoundtrue306920031Compoundfalse307010991Compoundtrue2702412.3.1.1612594812.3.1.161260243752falsePW_R000752Both306020041Compoundfalse306120131Compoundfalse306214201Compoundtrue2681774.2.1.171272243751falsePW_R000751Both305520041Compoundfalse30567211Compoundtrue305720051Compoundfalse3058400341Compoundtrue305911441Compoundtrue26624226724312731781.1.1.35750falsePW_R000750Both30519401Compoundtrue305217191Compoundfalse305320051Compoundfalse305410991Compoundtrue2652412.3.1.1612754812.3.1.161276243778falsePW_R000778Right315517191Compoundfalse8488691ElementCollectiontrue315620081Compoundfalse8489701ElementCollectiontrue3022501.3.8.83032511.3.8.73042521.3.8.53051761.3.8.1748falsePW_R000748Both304420061Compoundfalse304520081Compoundfalse304614201Compoundtrue2631774.2.1.17747falsePW_R000747Both303920061Compoundfalse30407211Compoundtrue304120071Compoundfalse304211441Compoundtrue3043400341Compoundtrue26124226224311931781.1.1.35746falsePW_R000746Right30359401Compoundtrue30368561Compoundfalse303720071Compoundfalse303810991Compoundtrue2602412.3.1.1611944812.3.1.1612011792.3.1.9678falsePW_R000678Both27828561Compoundfalse8490691ElementCollectiontrue278313451Compoundfalse8491701ElementCollectiontrue1751761.3.8.13072521.3.8.53082511.3.8.73092501.3.8.8679falsePW_R000679Both27849041Compoundfalse278513451Compoundfalse278614201Compoundtrue1761774.2.1.17681falsePW_R000681Both27919402Compoundtrue279211421Compoundfalse279310991Compoundtrue1781792.3.1.95172292.3.1.9779falsePW_R000779Right315710321Compoundfalse315813451Compoundfalse315913161Compoundtrue3112531.3.8.6780falsePW_R000780Both31619041Compoundfalse31627211Compoundtrue316311421Compoundfalse316411441Compoundtrue3165400341Compoundtrue312243773falsePW_R000773Right314510311Compoundfalse8338691ElementCollectiontrue314620091Compoundfalse8339701ElementCollectiontrue2912491.3.8.92922501.3.8.82932511.3.8.7774falsePW_R000774Right314711711Compoundfalse8344691ElementCollectiontrue314820101Compoundfalse8345701ElementCollectiontrue2942501.3.8.82952511.3.8.72276falsePW_R002276Right835219281Compoundfalse8353691ElementCollectiontrue835420101Compoundfalse8355701ElementCollectiontrue21492501.3.8.821502511.3.8.72278falsePW_R002278Right836020001Compoundfalse836120101Compoundfalse836214201Compoundtrue21531774.2.1.17776falsePW_R000776Right315127421Compoundfalse8492691ElementCollectiontrue315220121Compoundfalse8493701ElementCollectiontrue2982501.3.8.82992511.3.8.7777falsePW_R000777Right31538451Compoundfalse8370691ElementCollectiontrue315420131Compoundfalse8371701ElementCollectiontrue3002501.3.8.83012511.3.8.721PW_T000021211471Compound84Right1368147882false209044010regular3002801370147482false209077010regular300280138010311782false1245129010regular3002801381441782false141097510regular300280138210991785false1875101510regular503013832009482false1245191510regular30028013871996482false1245250510regular30028013881420449false1440221510regular78781389721459false1260284510regular503013902740482false1258318510regular30028013911144460false1273306510regular5030139240034455false1474304110regular787813931171482false2078318510regular3002801394940482false1778347010regular30028013951099485false1583340510regular5030139610312282false309044010regular3002801397442281false281029010regular200190139810992285false253546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Membrane1130490202.22.21601593235Cytosol390205201.91.92001594235Extracellular Space4155201.61.6200152145911679155957559395839#FFEBEB366443363Carnitine Palmitoyl Transferase Deficiency IICarnitine palmitoyltransferase II deficiency, which is also known as CPT II deficiency, is an inherited inborn error of metabolism (IEM) of fatty acid oxidation leading to muscle weakness. It is the most common inherited disorder of lipid metabolism affecting the skeletal muscle of adults. It is an autosomal recessive disorder associated with a mutation in the enzyme carnitine palmitoyltransferase II. Carnitine palmitoyltransferase II (CPT2) is a peripheral inner mitochondrial membrane protein found in all tissues that oxidize fatty acids. It catalyzes the transesterification of palmitoylcarnitine back into palmitoyl-CoA which is a substrate for beta-oxidation inside the mitochondrial matrix. CPT2 is responsible for the formation of acylcarnitines by catalyzing the transfer of the acyl group of a long-chain fatty acyl-CoA from CoA to carnitine. Carnitine, a natural substance acquired mostly through the diet, is used by cells to process fats and produce energy. Deficiencies or mutations in the CPT2 gene lead to disorders of long-chain fatty acid oxidation. There are three forms of CPT II deficiency: (1) lethal neonatal form, (2) severe infantile hepatocardiomuscular form, and (3) the myopathic form. More than 300 CPT II deficiency cases have been described with the myopathic form being the most common (myopathic form: 86%, severe infantile form: 8%, neonatal form: 6% of cases). The myopathic form is usually mild and can manifest from infancy to adulthood. The infantile and neonatal forms are severe multisystemic diseases characterized by liver failure with hypoketotic hypoglycemia, cardiomyopathy, seizures, and early death. The adult-onset myopathic form is characterized by exercise-induced muscle pain and weakness, sometimes associated with myoglobinuria. The most common cause of hereditary myoglobinuria is the myopathic form of CPT II deficiency and affects men more than women.DiseasePW_X000226Context2261122305ProteinMutated11232393CompoundIncreased1124147CompoundIncreased112577CompoundDecreased1126543CompoundIncreased143224TissueDamaged14331TissueDamaged14349TissueDamaged14356TissueDamaged143618TissueDamaged1674[Metagen: CARNITINE PALMITOYL TRANSFERASE DEFICIENCY (II)](http://metagene.de/program/d.prg?id_d=94)226Context1675[OMIM: 255110](http://omim.org/entry/255110})226Context1853[NIH](http://ghr.nlm.nih.gov/condition/carnitine-palmitoyltransferase-ii-deficiency)226Context27927720301431Wieser T: Carnitine Palmitoyltransferase II Deficiency 226Context279390Ellis JM, Hasek LY, Yurovich EJ, Harris KL, Goergen CJ: Mouse Carnitine Palmitoyltransferase 2 (CPT2) is required to sustain cardiac function. The Faseb Journal. 2016 Apr 01;30:684.8-684.8. doi: 10.1096/fasebj.30.1_supplement.684.8.226Context