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About
What is Reactome ?
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Team
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Release Calendar
Statistics
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Digital Preservation
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Table of Contents
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CoA-SH [cytosol]
Stable Identifier
R-ALL-76194
Type
Chemical Compound [SimpleEntity]
Compartment
cytosol
Synonyms
coenzyme A, coenzyme A(4-)
Icon
Locations in the PathwayBrowser
for Species:
Homo sapiens
Bos taurus
Caenorhabditis elegans
Canis familiaris
Danio rerio
Dictyostelium discoideum
Drosophila melanogaster
Gallus gallus
Mus musculus
Mycobacterium tuberculosis
Plasmodium falciparum
Rattus norvegicus
Saccharomyces cerevisiae
Schizosaccharomyces pombe
Sus scrofa
Xenopus tropicalis
Expand all
Cell Cycle (Bos taurus)
Cell Cycle, Mitotic (Bos taurus)
M Phase (Bos taurus)
Mitotic Metaphase and Anaphase (Bos taurus)
Mitotic Anaphase (Bos taurus)
Separation of Sister Chromatids (Bos taurus)
Deacetylation of cleaved cohesin (Bos taurus)
CoA-SH [cytosol]
Mitotic Prometaphase (Bos taurus)
Resolution of Sister Chromatid Cohesion (Bos taurus)
Deacetylation of cohesin (Bos taurus)
CoA-SH [cytosol]
Drug ADME (Bos taurus)
Paracetamol ADME (Bos taurus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Bos taurus)
CoA-SH [cytosol]
Metabolism (Bos taurus)
Biological oxidations (Bos taurus)
Phase I - Functionalization of compounds (Bos taurus)
Ethanol oxidation (Bos taurus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Bos taurus)
CoA-SH [cytosol]
Phase II - Conjugation of compounds (Bos taurus)
Acetylation (Bos taurus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Bos taurus)
CoA-SH [cytosol]
The acetyl group from acetyl-CoA is transferred to the NAT2 (Bos taurus)
CoA-SH [cytosol]
Integration of energy metabolism (Bos taurus)
Regulation of insulin secretion (Bos taurus)
Free fatty acids regulate insulin secretion (Bos taurus)
Intracellular metabolism of fatty acids regulates insulin secretion (Bos taurus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Bos taurus)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Bos taurus)
Metabolism of amine-derived hormones (Bos taurus)
Serotonin and melatonin biosynthesis (Bos taurus)
N-acetylation of serotonin (Bos taurus)
CoA-SH [cytosol]
Metabolism of polyamines (Bos taurus)
Interconversion of polyamines (Bos taurus)
Spermidine => N-acetylated spermidine (Bos taurus)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Bos taurus)
CoA-SH [cytosol]
Metabolism of carbohydrates (Bos taurus)
Glycosaminoglycan metabolism (Bos taurus)
Heparan sulfate/heparin (HS-GAG) metabolism (Bos taurus)
HS-GAG degradation (Bos taurus)
HGSNAT oligomer acetylates Heparan chain(1) (Bos taurus)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Bos taurus)
CoA-SH [cytosol]
Metabolism of lipids (Bos taurus)
Fatty acid metabolism (Bos taurus)
Carnitine metabolism (Bos taurus)
CPT1A,B transfers PALM to CAR (Bos taurus)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Bos taurus)
ACLY tetramer transforms CIT to Ac-CoA (Bos taurus)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Bos taurus)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Bos taurus)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Bos taurus)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Bos taurus)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Bos taurus)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Bos taurus)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Bos taurus)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Bos taurus)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Bos taurus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Bos taurus)
CoA-SH [cytosol]
Ketone body metabolism (Bos taurus)
Synthesis of Ketone Bodies (Bos taurus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Bos taurus)
CoA-SH [cytosol]
Metabolism of steroids (Bos taurus)
Bile acid and bile salt metabolism (Bos taurus)
Recycling of bile acids and salts (Bos taurus)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Bos taurus)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Bos taurus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Bos taurus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
CoA-SH [cytosol]
Cholesterol biosynthesis (Bos taurus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Bos taurus)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Bos taurus)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Bos taurus)
CoA-SH [cytosol]
Phospholipid metabolism (Bos taurus)
Glycerophospholipid biosynthesis (Bos taurus)
Acyl chain remodeling of CL (Bos taurus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Bos taurus)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Bos taurus)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Bos taurus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Bos taurus)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Bos taurus)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Bos taurus)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Bos taurus)
1-acyl LPC is acylated to PC by LPCAT (Bos taurus)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Bos taurus)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Bos taurus)
1-acyl LPE is acylated to PE by LPEAT (Bos taurus)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Bos taurus)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Bos taurus)
1-acyl LPG is acylated to PG by LPGAT (Bos taurus)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Bos taurus)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Bos taurus)
1-acyl LPI is acylated to PI by MBOAT7 (Bos taurus)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Bos taurus)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Bos taurus)
1-acyl LPS is acylated to PS by LPSAT (Bos taurus)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Bos taurus)
CoA-SH [cytosol]
Synthesis of PA (Bos taurus)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Bos taurus)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Bos taurus)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Bos taurus)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Bos taurus)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Bos taurus)
CoA-SH [cytosol]
Synthesis of PC (Bos taurus)
Cho is acetylated to AcCho by CHAT (Bos taurus)
CoA-SH [cytosol]
Sphingolipid metabolism (Bos taurus)
Sphingolipid de novo biosynthesis (Bos taurus)
Ceramide synthases transfer acyl-CoA onto sphingoid (Bos taurus)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Bos taurus)
CoA-SH [cytosol]
Triglyceride metabolism (Bos taurus)
Triglyceride biosynthesis (Bos taurus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Bos taurus)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Bos taurus)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Bos taurus)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Bos taurus)
Wax biosynthesis (Bos taurus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Bos taurus)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Bos taurus)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Bos taurus)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Bos taurus)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Bos taurus)
Metabolism of water-soluble vitamins and cofactors (Bos taurus)
Vitamin B5 (pantothenate) metabolism (Bos taurus)
Coenzyme A biosynthesis (Bos taurus)
COASY phosphorylates DP-CoA (Bos taurus)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Bos taurus)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Bos taurus)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Bos taurus)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Bos taurus)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Bos taurus)
CoA-SH [cytosol]
Metabolism of proteins (Bos taurus)
Post-translational protein modification (Bos taurus)
Asparagine N-linked glycosylation (Bos taurus)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Bos taurus)
Synthesis of substrates in N-glycan biosythesis (Bos taurus)
Synthesis of UDP-N-acetyl-glucosamine (Bos taurus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Bos taurus)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Bos taurus)
Synthesis of glycosylphosphatidylinositol (GPI) (Bos taurus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Bos taurus)
CoA-SH [cytosol]
Surfactant metabolism (Bos taurus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Bos taurus)
CoA-SH [cytosol]
Neuronal System (Bos taurus)
Transmission across Chemical Synapses (Bos taurus)
Neurotransmitter release cycle (Bos taurus)
Acetylcholine Neurotransmitter Release Cycle (Bos taurus)
Cho is acetylated to AcCho by CHAT (Bos taurus)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Bos taurus)
Cilium Assembly (Bos taurus)
ATAT acetylates microtubules (Bos taurus)
CoA-SH [cytosol]
HDAC6 deacetylates microtubules (Bos taurus)
CoA-SH [cytosol]
Sensory Perception (Bos taurus)
Visual phototransduction (Bos taurus)
The phototransduction cascade (Bos taurus)
Inactivation, recovery and regulation of the phototransduction cascade (Bos taurus)
NMT1/2 transfer MYS to GNAT1 (Bos taurus)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Bos taurus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Bos taurus)
CoA-SH [cytosol]
Signal Transduction (Bos taurus)
MAPK family signaling cascades (Bos taurus)
MAPK1/MAPK3 signaling (Bos taurus)
RAF/MAP kinase cascade (Bos taurus)
RAS processing (Bos taurus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Bos taurus)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Bos taurus)
ESR-mediated signaling (Bos taurus)
Extra-nuclear estrogen signaling (Bos taurus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Bos taurus)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Bos taurus)
CPT1A,B transfers PALM to CAR (Bos taurus)
CoA-SH [cytosol]
Transport of small molecules (Bos taurus)
Plasma lipoprotein assembly, remodeling, and clearance (Bos taurus)
Plasma lipoprotein assembly (Bos taurus)
HDL assembly (Bos taurus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Bos taurus)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Bos taurus)
LDL clearance (Bos taurus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Bos taurus)
CoA-SH [cytosol]
Vesicle-mediated transport (Bos taurus)
Membrane Trafficking (Bos taurus)
Intra-Golgi and retrograde Golgi-to-ER traffic (Bos taurus)
Golgi-to-ER retrograde transport (Bos taurus)
COPI-independent Golgi-to-ER retrograde traffic (Bos taurus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Bos taurus)
CoA-SH [cytosol]
Metabolism (Caenorhabditis elegans)
Biological oxidations (Caenorhabditis elegans)
Phase I - Functionalization of compounds (Caenorhabditis elegans)
Ethanol oxidation (Caenorhabditis elegans)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Caenorhabditis elegans)
CoA-SH [cytosol]
Integration of energy metabolism (Caenorhabditis elegans)
Regulation of insulin secretion (Caenorhabditis elegans)
Free fatty acids regulate insulin secretion (Caenorhabditis elegans)
Intracellular metabolism of fatty acids regulates insulin secretion (Caenorhabditis elegans)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Caenorhabditis elegans)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Caenorhabditis elegans)
Metabolism of polyamines (Caenorhabditis elegans)
Interconversion of polyamines (Caenorhabditis elegans)
Spermidine => N-acetylated spermidine (Caenorhabditis elegans)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Caenorhabditis elegans)
CoA-SH [cytosol]
Metabolism of lipids (Caenorhabditis elegans)
Fatty acid metabolism (Caenorhabditis elegans)
Carnitine metabolism (Caenorhabditis elegans)
CPT1A,B transfers PALM to CAR (Caenorhabditis elegans)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Caenorhabditis elegans)
ACLY tetramer transforms CIT to Ac-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Caenorhabditis elegans)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Caenorhabditis elegans)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Caenorhabditis elegans)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
Ketone body metabolism (Caenorhabditis elegans)
Synthesis of Ketone Bodies (Caenorhabditis elegans)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
Metabolism of steroids (Caenorhabditis elegans)
Bile acid and bile salt metabolism (Caenorhabditis elegans)
Recycling of bile acids and salts (Caenorhabditis elegans)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Caenorhabditis elegans)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Caenorhabditis elegans)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Caenorhabditis elegans)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Caenorhabditis elegans)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
CoA-SH [cytosol]
Cholesterol biosynthesis (Caenorhabditis elegans)
HMGCR dimer reduces bHMG-CoA to MVA (Caenorhabditis elegans)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
Phospholipid metabolism (Caenorhabditis elegans)
Glycerophospholipid biosynthesis (Caenorhabditis elegans)
Acyl chain remodeling of CL (Caenorhabditis elegans)
DLCL is acylated to MLCL by LCLAT1 (ER) (Caenorhabditis elegans)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Caenorhabditis elegans)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Caenorhabditis elegans)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Caenorhabditis elegans)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Caenorhabditis elegans)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Caenorhabditis elegans)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Caenorhabditis elegans)
1-acyl LPC is acylated to PC by LPCAT (Caenorhabditis elegans)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Caenorhabditis elegans)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Caenorhabditis elegans)
1-acyl LPE is acylated to PE by LPEAT (Caenorhabditis elegans)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Caenorhabditis elegans)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Caenorhabditis elegans)
1-acyl LPG is acylated to PG by LPGAT (Caenorhabditis elegans)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Caenorhabditis elegans)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Caenorhabditis elegans)
1-acyl LPI is acylated to PI by MBOAT7 (Caenorhabditis elegans)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Caenorhabditis elegans)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Caenorhabditis elegans)
1-acyl LPS is acylated to PS by LPSAT (Caenorhabditis elegans)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Caenorhabditis elegans)
CoA-SH [cytosol]
Synthesis of PA (Caenorhabditis elegans)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Caenorhabditis elegans)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Caenorhabditis elegans)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Caenorhabditis elegans)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Caenorhabditis elegans)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Caenorhabditis elegans)
CoA-SH [cytosol]
Synthesis of PC (Caenorhabditis elegans)
Cho is acetylated to AcCho by CHAT (Caenorhabditis elegans)
CoA-SH [cytosol]
Sphingolipid metabolism (Caenorhabditis elegans)
Sphingolipid de novo biosynthesis (Caenorhabditis elegans)
Ceramide synthases transfer acyl-CoA onto sphingoid (Caenorhabditis elegans)
CoA-SH [cytosol]
Triglyceride metabolism (Caenorhabditis elegans)
Triglyceride biosynthesis (Caenorhabditis elegans)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Caenorhabditis elegans)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Caenorhabditis elegans)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Caenorhabditis elegans)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Caenorhabditis elegans)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Caenorhabditis elegans)
Wax biosynthesis (Caenorhabditis elegans)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Caenorhabditis elegans)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Caenorhabditis elegans)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Caenorhabditis elegans)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Caenorhabditis elegans)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Caenorhabditis elegans)
Metabolism of water-soluble vitamins and cofactors (Caenorhabditis elegans)
Vitamin B5 (pantothenate) metabolism (Caenorhabditis elegans)
Coenzyme A biosynthesis (Caenorhabditis elegans)
COASY phosphorylates DP-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Caenorhabditis elegans)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Caenorhabditis elegans)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Caenorhabditis elegans)
CoA-SH [cytosol]
Metabolism of proteins (Caenorhabditis elegans)
Post-translational protein modification (Caenorhabditis elegans)
Asparagine N-linked glycosylation (Caenorhabditis elegans)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Caenorhabditis elegans)
Synthesis of substrates in N-glycan biosythesis (Caenorhabditis elegans)
Synthesis of UDP-N-acetyl-glucosamine (Caenorhabditis elegans)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Caenorhabditis elegans)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Caenorhabditis elegans)
Synthesis of glycosylphosphatidylinositol (GPI) (Caenorhabditis elegans)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Caenorhabditis elegans)
CoA-SH [cytosol]
Neuronal System (Caenorhabditis elegans)
Transmission across Chemical Synapses (Caenorhabditis elegans)
Neurotransmitter release cycle (Caenorhabditis elegans)
Acetylcholine Neurotransmitter Release Cycle (Caenorhabditis elegans)
Cho is acetylated to AcCho by CHAT (Caenorhabditis elegans)
CoA-SH [cytosol]
Signal Transduction (Caenorhabditis elegans)
MAPK family signaling cascades (Caenorhabditis elegans)
MAPK1/MAPK3 signaling (Caenorhabditis elegans)
RAF/MAP kinase cascade (Caenorhabditis elegans)
RAS processing (Caenorhabditis elegans)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Caenorhabditis elegans)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Caenorhabditis elegans)
Signaling by Retinoic Acid (Caenorhabditis elegans)
CPT1A,B transfers PALM to CAR (Caenorhabditis elegans)
CoA-SH [cytosol]
Transport of small molecules (Caenorhabditis elegans)
Plasma lipoprotein assembly, remodeling, and clearance (Caenorhabditis elegans)
Plasma lipoprotein clearance (Caenorhabditis elegans)
LDL clearance (Caenorhabditis elegans)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Caenorhabditis elegans)
CoA-SH [cytosol]
Cell Cycle (Canis familiaris)
Cell Cycle, Mitotic (Canis familiaris)
M Phase (Canis familiaris)
Mitotic Metaphase and Anaphase (Canis familiaris)
Mitotic Anaphase (Canis familiaris)
Separation of Sister Chromatids (Canis familiaris)
Deacetylation of cleaved cohesin (Canis familiaris)
CoA-SH [cytosol]
Mitotic Prometaphase (Canis familiaris)
Resolution of Sister Chromatid Cohesion (Canis familiaris)
Deacetylation of cohesin (Canis familiaris)
CoA-SH [cytosol]
Metabolism (Canis familiaris)
Biological oxidations (Canis familiaris)
Phase I - Functionalization of compounds (Canis familiaris)
Ethanol oxidation (Canis familiaris)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Canis familiaris)
CoA-SH [cytosol]
Integration of energy metabolism (Canis familiaris)
Regulation of insulin secretion (Canis familiaris)
Free fatty acids regulate insulin secretion (Canis familiaris)
Intracellular metabolism of fatty acids regulates insulin secretion (Canis familiaris)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Canis familiaris)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Canis familiaris)
Metabolism of amine-derived hormones (Canis familiaris)
Serotonin and melatonin biosynthesis (Canis familiaris)
N-acetylation of serotonin (Canis familiaris)
CoA-SH [cytosol]
Metabolism of polyamines (Canis familiaris)
Interconversion of polyamines (Canis familiaris)
Spermidine => N-acetylated spermidine (Canis familiaris)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Canis familiaris)
CoA-SH [cytosol]
Metabolism of carbohydrates (Canis familiaris)
Glycosaminoglycan metabolism (Canis familiaris)
Heparan sulfate/heparin (HS-GAG) metabolism (Canis familiaris)
HS-GAG degradation (Canis familiaris)
HGSNAT oligomer acetylates Heparan chain(1) (Canis familiaris)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Canis familiaris)
CoA-SH [cytosol]
Metabolism of lipids (Canis familiaris)
Fatty acid metabolism (Canis familiaris)
Carnitine metabolism (Canis familiaris)
CPT1A,B transfers PALM to CAR (Canis familiaris)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Canis familiaris)
ACLY tetramer transforms CIT to Ac-CoA (Canis familiaris)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Canis familiaris)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Canis familiaris)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Canis familiaris)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Canis familiaris)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Canis familiaris)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Canis familiaris)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Canis familiaris)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Canis familiaris)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Canis familiaris)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Canis familiaris)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Canis familiaris)
CoA-SH [cytosol]
Metabolism of steroids (Canis familiaris)
Bile acid and bile salt metabolism (Canis familiaris)
Recycling of bile acids and salts (Canis familiaris)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Canis familiaris)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Canis familiaris)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Canis familiaris)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Canis familiaris)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
CoA-SH [cytosol]
Cholesterol biosynthesis (Canis familiaris)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Canis familiaris)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Canis familiaris)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Canis familiaris)
CoA-SH [cytosol]
Phospholipid metabolism (Canis familiaris)
Glycerophospholipid biosynthesis (Canis familiaris)
Acyl chain remodeling of CL (Canis familiaris)
DLCL is acylated to MLCL by LCLAT1 (ER) (Canis familiaris)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Canis familiaris)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Canis familiaris)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Canis familiaris)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Canis familiaris)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Canis familiaris)
1-acyl LPC is acylated to PC by LPCAT (Canis familiaris)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Canis familiaris)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Canis familiaris)
1-acyl LPE is acylated to PE by LPEAT (Canis familiaris)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Canis familiaris)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Canis familiaris)
1-acyl LPG is acylated to PG by LPGAT (Canis familiaris)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Canis familiaris)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Canis familiaris)
1-acyl LPI is acylated to PI by MBOAT7 (Canis familiaris)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Canis familiaris)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Canis familiaris)
1-acyl LPS is acylated to PS by LPSAT (Canis familiaris)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Canis familiaris)
CoA-SH [cytosol]
Synthesis of PA (Canis familiaris)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Canis familiaris)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Canis familiaris)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Canis familiaris)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Canis familiaris)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Canis familiaris)
CoA-SH [cytosol]
Synthesis of PC (Canis familiaris)
Cho is acetylated to AcCho by CHAT (Canis familiaris)
CoA-SH [cytosol]
Sphingolipid metabolism (Canis familiaris)
Sphingolipid de novo biosynthesis (Canis familiaris)
Ceramide synthases transfer acyl-CoA onto sphingoid (Canis familiaris)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Canis familiaris)
CoA-SH [cytosol]
Triglyceride metabolism (Canis familiaris)
Triglyceride biosynthesis (Canis familiaris)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Canis familiaris)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Canis familiaris)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Canis familiaris)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Canis familiaris)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Canis familiaris)
Wax biosynthesis (Canis familiaris)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Canis familiaris)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Canis familiaris)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Canis familiaris)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Canis familiaris)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Canis familiaris)
Metabolism of water-soluble vitamins and cofactors (Canis familiaris)
Vitamin B5 (pantothenate) metabolism (Canis familiaris)
Coenzyme A biosynthesis (Canis familiaris)
COASY phosphorylates DP-CoA (Canis familiaris)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Canis familiaris)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Canis familiaris)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Canis familiaris)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Canis familiaris)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Canis familiaris)
CoA-SH [cytosol]
Metabolism of proteins (Canis familiaris)
Post-translational protein modification (Canis familiaris)
Asparagine N-linked glycosylation (Canis familiaris)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Canis familiaris)
Synthesis of substrates in N-glycan biosythesis (Canis familiaris)
Synthesis of UDP-N-acetyl-glucosamine (Canis familiaris)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Canis familiaris)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Canis familiaris)
Synthesis of glycosylphosphatidylinositol (GPI) (Canis familiaris)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Canis familiaris)
CoA-SH [cytosol]
Surfactant metabolism (Canis familiaris)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Canis familiaris)
CoA-SH [cytosol]
Neuronal System (Canis familiaris)
Transmission across Chemical Synapses (Canis familiaris)
Neurotransmitter release cycle (Canis familiaris)
Acetylcholine Neurotransmitter Release Cycle (Canis familiaris)
Cho is acetylated to AcCho by CHAT (Canis familiaris)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Canis familiaris)
Cilium Assembly (Canis familiaris)
ATAT acetylates microtubules (Canis familiaris)
CoA-SH [cytosol]
HDAC6 deacetylates microtubules (Canis familiaris)
CoA-SH [cytosol]
Sensory Perception (Canis familiaris)
Visual phototransduction (Canis familiaris)
The phototransduction cascade (Canis familiaris)
Inactivation, recovery and regulation of the phototransduction cascade (Canis familiaris)
NMT1/2 transfer MYS to GNAT1 (Canis familiaris)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Canis familiaris)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Canis familiaris)
CoA-SH [cytosol]
Signal Transduction (Canis familiaris)
MAPK family signaling cascades (Canis familiaris)
MAPK1/MAPK3 signaling (Canis familiaris)
RAF/MAP kinase cascade (Canis familiaris)
RAS processing (Canis familiaris)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Canis familiaris)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Canis familiaris)
ESR-mediated signaling (Canis familiaris)
Extra-nuclear estrogen signaling (Canis familiaris)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Canis familiaris)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Canis familiaris)
CPT1A,B transfers PALM to CAR (Canis familiaris)
CoA-SH [cytosol]
Transport of small molecules (Canis familiaris)
Plasma lipoprotein assembly, remodeling, and clearance (Canis familiaris)
Plasma lipoprotein assembly (Canis familiaris)
HDL assembly (Canis familiaris)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Canis familiaris)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Canis familiaris)
LDL clearance (Canis familiaris)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Canis familiaris)
CoA-SH [cytosol]
Vesicle-mediated transport (Canis familiaris)
Membrane Trafficking (Canis familiaris)
Intra-Golgi and retrograde Golgi-to-ER traffic (Canis familiaris)
Golgi-to-ER retrograde transport (Canis familiaris)
COPI-independent Golgi-to-ER retrograde traffic (Canis familiaris)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Canis familiaris)
CoA-SH [cytosol]
Cell Cycle (Danio rerio)
Cell Cycle, Mitotic (Danio rerio)
M Phase (Danio rerio)
Mitotic Prometaphase (Danio rerio)
Resolution of Sister Chromatid Cohesion (Danio rerio)
Deacetylation of cohesin (Danio rerio)
CoA-SH [cytosol]
Drug ADME (Danio rerio)
Paracetamol ADME (Danio rerio)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Danio rerio)
CoA-SH [cytosol]
Metabolism (Danio rerio)
Biological oxidations (Danio rerio)
Phase II - Conjugation of compounds (Danio rerio)
Acetylation (Danio rerio)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Danio rerio)
CoA-SH [cytosol]
The acetyl group from acetyl-CoA is transferred to the NAT2 (Danio rerio)
CoA-SH [cytosol]
Integration of energy metabolism (Danio rerio)
Regulation of insulin secretion (Danio rerio)
Free fatty acids regulate insulin secretion (Danio rerio)
Intracellular metabolism of fatty acids regulates insulin secretion (Danio rerio)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Danio rerio)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Danio rerio)
Metabolism of amine-derived hormones (Danio rerio)
Serotonin and melatonin biosynthesis (Danio rerio)
N-acetylation of serotonin (Danio rerio)
CoA-SH [cytosol]
Metabolism of polyamines (Danio rerio)
Interconversion of polyamines (Danio rerio)
Spermidine => N-acetylated spermidine (Danio rerio)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Danio rerio)
CoA-SH [cytosol]
Metabolism of lipids (Danio rerio)
Fatty acid metabolism (Danio rerio)
Carnitine metabolism (Danio rerio)
CPT1A,B transfers PALM to CAR (Danio rerio)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Danio rerio)
ACLY tetramer transforms CIT to Ac-CoA (Danio rerio)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Danio rerio)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Danio rerio)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Danio rerio)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Danio rerio)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Danio rerio)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Danio rerio)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Danio rerio)
CoA-SH [cytosol]
Ketone body metabolism (Danio rerio)
Synthesis of Ketone Bodies (Danio rerio)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Danio rerio)
CoA-SH [cytosol]
Metabolism of steroids (Danio rerio)
Bile acid and bile salt metabolism (Danio rerio)
Recycling of bile acids and salts (Danio rerio)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Danio rerio)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Danio rerio)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Danio rerio)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
CoA-SH [cytosol]
Cholesterol biosynthesis (Danio rerio)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Danio rerio)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Danio rerio)
CoA-SH [cytosol]
Phospholipid metabolism (Danio rerio)
Glycerophospholipid biosynthesis (Danio rerio)
Acyl chain remodeling of CL (Danio rerio)
DLCL is acylated to MLCL by LCLAT1 (ER) (Danio rerio)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Danio rerio)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Danio rerio)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Danio rerio)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Danio rerio)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Danio rerio)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Danio rerio)
1-acyl LPC is acylated to PC by LPCAT (Danio rerio)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Danio rerio)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Danio rerio)
1-acyl LPG is acylated to PG by LPGAT (Danio rerio)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Danio rerio)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Danio rerio)
1-acyl LPI is acylated to PI by MBOAT7 (Danio rerio)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Danio rerio)
CoA-SH [cytosol]
Synthesis of PA (Danio rerio)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Danio rerio)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Danio rerio)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Danio rerio)
CoA-SH [cytosol]
Synthesis of PC (Danio rerio)
Cho is acetylated to AcCho by CHAT (Danio rerio)
CoA-SH [cytosol]
Sphingolipid metabolism (Danio rerio)
Sphingolipid de novo biosynthesis (Danio rerio)
Ceramide synthases transfer acyl-CoA onto sphingoid (Danio rerio)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Danio rerio)
CoA-SH [cytosol]
Triglyceride metabolism (Danio rerio)
Triglyceride biosynthesis (Danio rerio)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Danio rerio)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Danio rerio)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Danio rerio)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Danio rerio)
Wax biosynthesis (Danio rerio)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Danio rerio)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Danio rerio)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Danio rerio)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Danio rerio)
Metabolism of water-soluble vitamins and cofactors (Danio rerio)
Vitamin B5 (pantothenate) metabolism (Danio rerio)
Coenzyme A biosynthesis (Danio rerio)
COASY phosphorylates DP-CoA (Danio rerio)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Danio rerio)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Danio rerio)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Danio rerio)
CoA-SH [cytosol]
Metabolism of proteins (Danio rerio)
Post-translational protein modification (Danio rerio)
Asparagine N-linked glycosylation (Danio rerio)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Danio rerio)
Synthesis of substrates in N-glycan biosythesis (Danio rerio)
Synthesis of UDP-N-acetyl-glucosamine (Danio rerio)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Danio rerio)
CoA-SH [cytosol]
Surfactant metabolism (Danio rerio)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Danio rerio)
CoA-SH [cytosol]
Neuronal System (Danio rerio)
Transmission across Chemical Synapses (Danio rerio)
Neurotransmitter release cycle (Danio rerio)
Acetylcholine Neurotransmitter Release Cycle (Danio rerio)
Cho is acetylated to AcCho by CHAT (Danio rerio)
CoA-SH [cytosol]
Sensory Perception (Danio rerio)
Visual phototransduction (Danio rerio)
The phototransduction cascade (Danio rerio)
Inactivation, recovery and regulation of the phototransduction cascade (Danio rerio)
NMT1/2 transfer MYS to GNAT1 (Danio rerio)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Danio rerio)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Danio rerio)
CoA-SH [cytosol]
Signal Transduction (Danio rerio)
Signaling by Nuclear Receptors (Danio rerio)
ESR-mediated signaling (Danio rerio)
Extra-nuclear estrogen signaling (Danio rerio)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Danio rerio)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Danio rerio)
CPT1A,B transfers PALM to CAR (Danio rerio)
CoA-SH [cytosol]
Transport of small molecules (Danio rerio)
Plasma lipoprotein assembly, remodeling, and clearance (Danio rerio)
Plasma lipoprotein assembly (Danio rerio)
HDL assembly (Danio rerio)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Danio rerio)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Danio rerio)
LDL clearance (Danio rerio)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Danio rerio)
CoA-SH [cytosol]
Vesicle-mediated transport (Danio rerio)
Membrane Trafficking (Danio rerio)
Intra-Golgi and retrograde Golgi-to-ER traffic (Danio rerio)
Golgi-to-ER retrograde transport (Danio rerio)
COPI-independent Golgi-to-ER retrograde traffic (Danio rerio)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Danio rerio)
CoA-SH [cytosol]
Cell Cycle (Dictyostelium discoideum)
Cell Cycle, Mitotic (Dictyostelium discoideum)
M Phase (Dictyostelium discoideum)
Mitotic Prometaphase (Dictyostelium discoideum)
Resolution of Sister Chromatid Cohesion (Dictyostelium discoideum)
Deacetylation of cohesin (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism (Dictyostelium discoideum)
Biological oxidations (Dictyostelium discoideum)
Phase I - Functionalization of compounds (Dictyostelium discoideum)
Ethanol oxidation (Dictyostelium discoideum)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Dictyostelium discoideum)
Metabolism of polyamines (Dictyostelium discoideum)
Interconversion of polyamines (Dictyostelium discoideum)
Spermidine => N-acetylated spermidine (Dictyostelium discoideum)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism of carbohydrates (Dictyostelium discoideum)
Glycosaminoglycan metabolism (Dictyostelium discoideum)
Heparan sulfate/heparin (HS-GAG) metabolism (Dictyostelium discoideum)
HS-GAG degradation (Dictyostelium discoideum)
HGSNAT oligomer acetylates Heparan chain(1) (Dictyostelium discoideum)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism of lipids (Dictyostelium discoideum)
Fatty acid metabolism (Dictyostelium discoideum)
Fatty acyl-CoA biosynthesis (Dictyostelium discoideum)
ACLY tetramer transforms CIT to Ac-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Dictyostelium discoideum)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Dictyostelium discoideum)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Dictyostelium discoideum)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism of steroids (Dictyostelium discoideum)
Cholesterol biosynthesis (Dictyostelium discoideum)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Dictyostelium discoideum)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
Phospholipid metabolism (Dictyostelium discoideum)
Glycerophospholipid biosynthesis (Dictyostelium discoideum)
Acyl chain remodeling of CL (Dictyostelium discoideum)
DLCL is acylated to MLCL by LCLAT1 (ER) (Dictyostelium discoideum)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Dictyostelium discoideum)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Dictyostelium discoideum)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Dictyostelium discoideum)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Dictyostelium discoideum)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Dictyostelium discoideum)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Dictyostelium discoideum)
1-acyl LPC is acylated to PC by LPCAT (Dictyostelium discoideum)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Dictyostelium discoideum)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Dictyostelium discoideum)
1-acyl LPE is acylated to PE by LPEAT (Dictyostelium discoideum)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Dictyostelium discoideum)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Dictyostelium discoideum)
1-acyl LPG is acylated to PG by LPGAT (Dictyostelium discoideum)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Dictyostelium discoideum)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Dictyostelium discoideum)
1-acyl LPI is acylated to PI by MBOAT7 (Dictyostelium discoideum)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Dictyostelium discoideum)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Dictyostelium discoideum)
1-acyl LPS is acylated to PS by LPSAT (Dictyostelium discoideum)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Dictyostelium discoideum)
CoA-SH [cytosol]
Synthesis of PA (Dictyostelium discoideum)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Dictyostelium discoideum)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Dictyostelium discoideum)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Dictyostelium discoideum)
CoA-SH [cytosol]
Sphingolipid metabolism (Dictyostelium discoideum)
Sphingolipid de novo biosynthesis (Dictyostelium discoideum)
Ceramide synthases transfer acyl-CoA onto sphingoid (Dictyostelium discoideum)
CoA-SH [cytosol]
Triglyceride metabolism (Dictyostelium discoideum)
Triglyceride biosynthesis (Dictyostelium discoideum)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Dictyostelium discoideum)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Dictyostelium discoideum)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Dictyostelium discoideum)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Dictyostelium discoideum)
Wax biosynthesis (Dictyostelium discoideum)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Dictyostelium discoideum)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Dictyostelium discoideum)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Dictyostelium discoideum)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Dictyostelium discoideum)
Metabolism of water-soluble vitamins and cofactors (Dictyostelium discoideum)
Vitamin B5 (pantothenate) metabolism (Dictyostelium discoideum)
Coenzyme A biosynthesis (Dictyostelium discoideum)
COASY phosphorylates DP-CoA (Dictyostelium discoideum)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Dictyostelium discoideum)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism of proteins (Dictyostelium discoideum)
Post-translational protein modification (Dictyostelium discoideum)
Asparagine N-linked glycosylation (Dictyostelium discoideum)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Dictyostelium discoideum)
Synthesis of substrates in N-glycan biosythesis (Dictyostelium discoideum)
Synthesis of UDP-N-acetyl-glucosamine (Dictyostelium discoideum)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Dictyostelium discoideum)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Dictyostelium discoideum)
Synthesis of glycosylphosphatidylinositol (GPI) (Dictyostelium discoideum)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Dictyostelium discoideum)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Dictyostelium discoideum)
Cilium Assembly (Dictyostelium discoideum)
HDAC6 deacetylates microtubules (Dictyostelium discoideum)
CoA-SH [cytosol]
Sensory Perception (Dictyostelium discoideum)
Visual phototransduction (Dictyostelium discoideum)
The phototransduction cascade (Dictyostelium discoideum)
Inactivation, recovery and regulation of the phototransduction cascade (Dictyostelium discoideum)
NMT1/2 transfer MYS to GNAT1 (Dictyostelium discoideum)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Dictyostelium discoideum)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Dictyostelium discoideum)
CoA-SH [cytosol]
Metabolism (Drosophila melanogaster)
Biological oxidations (Drosophila melanogaster)
Phase I - Functionalization of compounds (Drosophila melanogaster)
Ethanol oxidation (Drosophila melanogaster)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Drosophila melanogaster)
CoA-SH [cytosol]
Integration of energy metabolism (Drosophila melanogaster)
Regulation of insulin secretion (Drosophila melanogaster)
Free fatty acids regulate insulin secretion (Drosophila melanogaster)
Intracellular metabolism of fatty acids regulates insulin secretion (Drosophila melanogaster)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Drosophila melanogaster)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Drosophila melanogaster)
Metabolism of polyamines (Drosophila melanogaster)
Interconversion of polyamines (Drosophila melanogaster)
Spermidine => N-acetylated spermidine (Drosophila melanogaster)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Drosophila melanogaster)
CoA-SH [cytosol]
Metabolism of carbohydrates (Drosophila melanogaster)
Glycosaminoglycan metabolism (Drosophila melanogaster)
Heparan sulfate/heparin (HS-GAG) metabolism (Drosophila melanogaster)
HS-GAG degradation (Drosophila melanogaster)
HGSNAT oligomer acetylates Heparan chain(1) (Drosophila melanogaster)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Drosophila melanogaster)
CoA-SH [cytosol]
Metabolism of lipids (Drosophila melanogaster)
Fatty acid metabolism (Drosophila melanogaster)
Carnitine metabolism (Drosophila melanogaster)
CPT1A,B transfers PALM to CAR (Drosophila melanogaster)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Drosophila melanogaster)
ACLY tetramer transforms CIT to Ac-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Drosophila melanogaster)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Drosophila melanogaster)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Drosophila melanogaster)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
Metabolism of steroids (Drosophila melanogaster)
Bile acid and bile salt metabolism (Drosophila melanogaster)
Recycling of bile acids and salts (Drosophila melanogaster)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Drosophila melanogaster)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Drosophila melanogaster)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Drosophila melanogaster)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
CoA-SH [cytosol]
Cholesterol biosynthesis (Drosophila melanogaster)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Drosophila melanogaster)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
Phospholipid metabolism (Drosophila melanogaster)
Glycerophospholipid biosynthesis (Drosophila melanogaster)
Acyl chain remodeling of DAG and TAG (Drosophila melanogaster)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Drosophila melanogaster)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Drosophila melanogaster)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Drosophila melanogaster)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Drosophila melanogaster)
1-acyl LPC is acylated to PC by LPCAT (Drosophila melanogaster)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Drosophila melanogaster)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Drosophila melanogaster)
1-acyl LPE is acylated to PE by LPEAT (Drosophila melanogaster)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Drosophila melanogaster)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Drosophila melanogaster)
1-acyl LPG is acylated to PG by LPGAT (Drosophila melanogaster)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Drosophila melanogaster)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Drosophila melanogaster)
1-acyl LPI is acylated to PI by MBOAT7 (Drosophila melanogaster)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Drosophila melanogaster)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Drosophila melanogaster)
1-acyl LPS is acylated to PS by LPSAT (Drosophila melanogaster)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Drosophila melanogaster)
CoA-SH [cytosol]
Synthesis of PA (Drosophila melanogaster)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Drosophila melanogaster)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Drosophila melanogaster)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Drosophila melanogaster)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Drosophila melanogaster)
CoA-SH [cytosol]
Synthesis of PC (Drosophila melanogaster)
Cho is acetylated to AcCho by CHAT (Drosophila melanogaster)
CoA-SH [cytosol]
Sphingolipid metabolism (Drosophila melanogaster)
Sphingolipid de novo biosynthesis (Drosophila melanogaster)
Ceramide synthases transfer acyl-CoA onto sphingoid (Drosophila melanogaster)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Drosophila melanogaster)
CoA-SH [cytosol]
Triglyceride metabolism (Drosophila melanogaster)
Triglyceride biosynthesis (Drosophila melanogaster)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Drosophila melanogaster)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Drosophila melanogaster)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Drosophila melanogaster)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Drosophila melanogaster)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Drosophila melanogaster)
Wax biosynthesis (Drosophila melanogaster)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Drosophila melanogaster)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Drosophila melanogaster)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Drosophila melanogaster)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Drosophila melanogaster)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Drosophila melanogaster)
Metabolism of water-soluble vitamins and cofactors (Drosophila melanogaster)
Vitamin B5 (pantothenate) metabolism (Drosophila melanogaster)
Coenzyme A biosynthesis (Drosophila melanogaster)
DCAKD phosphorylates DP-CoA (Drosophila melanogaster)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Drosophila melanogaster)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Drosophila melanogaster)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Drosophila melanogaster)
CoA-SH [cytosol]
Metabolism of proteins (Drosophila melanogaster)
Post-translational protein modification (Drosophila melanogaster)
Asparagine N-linked glycosylation (Drosophila melanogaster)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Drosophila melanogaster)
Synthesis of substrates in N-glycan biosythesis (Drosophila melanogaster)
Synthesis of UDP-N-acetyl-glucosamine (Drosophila melanogaster)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Drosophila melanogaster)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Drosophila melanogaster)
Synthesis of glycosylphosphatidylinositol (GPI) (Drosophila melanogaster)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Drosophila melanogaster)
CoA-SH [cytosol]
Neuronal System (Drosophila melanogaster)
Transmission across Chemical Synapses (Drosophila melanogaster)
Neurotransmitter release cycle (Drosophila melanogaster)
Acetylcholine Neurotransmitter Release Cycle (Drosophila melanogaster)
Cho is acetylated to AcCho by CHAT (Drosophila melanogaster)
CoA-SH [cytosol]
Sensory Perception (Drosophila melanogaster)
Visual phototransduction (Drosophila melanogaster)
The retinoid cycle in cones (daylight vision) (Drosophila melanogaster)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Drosophila melanogaster)
CoA-SH [cytosol]
Signal Transduction (Drosophila melanogaster)
MAPK family signaling cascades (Drosophila melanogaster)
MAPK1/MAPK3 signaling (Drosophila melanogaster)
RAF/MAP kinase cascade (Drosophila melanogaster)
RAS processing (Drosophila melanogaster)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Drosophila melanogaster)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Drosophila melanogaster)
ESR-mediated signaling (Drosophila melanogaster)
Extra-nuclear estrogen signaling (Drosophila melanogaster)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Drosophila melanogaster)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Drosophila melanogaster)
CPT1A,B transfers PALM to CAR (Drosophila melanogaster)
CoA-SH [cytosol]
Transport of small molecules (Drosophila melanogaster)
Plasma lipoprotein assembly, remodeling, and clearance (Drosophila melanogaster)
Plasma lipoprotein assembly (Drosophila melanogaster)
HDL assembly (Drosophila melanogaster)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Drosophila melanogaster)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Drosophila melanogaster)
LDL clearance (Drosophila melanogaster)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Drosophila melanogaster)
CoA-SH [cytosol]
Vesicle-mediated transport (Drosophila melanogaster)
Membrane Trafficking (Drosophila melanogaster)
Intra-Golgi and retrograde Golgi-to-ER traffic (Drosophila melanogaster)
Golgi-to-ER retrograde transport (Drosophila melanogaster)
COPI-independent Golgi-to-ER retrograde traffic (Drosophila melanogaster)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Drosophila melanogaster)
CoA-SH [cytosol]
Cell Cycle (Gallus gallus)
Cell Cycle, Mitotic (Gallus gallus)
M Phase (Gallus gallus)
Mitotic Metaphase and Anaphase (Gallus gallus)
Mitotic Anaphase (Gallus gallus)
Separation of Sister Chromatids (Gallus gallus)
Deacetylation of cleaved cohesin (Gallus gallus)
CoA-SH [cytosol]
Mitotic Prometaphase (Gallus gallus)
Resolution of Sister Chromatid Cohesion (Gallus gallus)
Deacetylation of cohesin (Gallus gallus)
CoA-SH [cytosol]
Drug ADME (Gallus gallus)
Paracetamol ADME (Gallus gallus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Gallus gallus)
CoA-SH [cytosol]
Metabolism (Gallus gallus)
Lipid metabolism (Gallus gallus)
Sphingolipid metabolism (Gallus gallus)
palmitoyl-CoA + serine => 3-dehydrosphinganine + CoASH + CO2 (Gallus gallus)
CoA-SH [cytosol]
sphinganine + stearyl-CoA => dihydroceramide + CoASH (Gallus gallus)
CoA-SH [cytosol]
Metabolism of proteins (Gallus gallus)
Post-translational protein modification (Gallus gallus)
Asparagine N-linked glycosylation (Gallus gallus)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Gallus gallus)
Synthesis of substrates in N-glycan biosythesis (Gallus gallus)
Synthesis of UDP-N-acetyl-glucosamine (Gallus gallus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Gallus gallus)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Gallus gallus)
Synthesis of glycosylphosphatidylinositol (GPI) (Gallus gallus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Gallus gallus)
CoA-SH [cytosol]
Surfactant metabolism (Gallus gallus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Gallus gallus)
CoA-SH [cytosol]
Neuronal System (Gallus gallus)
Transmission across Chemical Synapses (Gallus gallus)
Neurotransmitter release cycle (Gallus gallus)
Acetylcholine Neurotransmitter Release Cycle (Gallus gallus)
Cho is acetylated to AcCho by CHAT (Gallus gallus)
CoA-SH [cytosol]
Sensory Perception (Gallus gallus)
Visual phototransduction (Gallus gallus)
The retinoid cycle in cones (daylight vision) (Gallus gallus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Gallus gallus)
CoA-SH [cytosol]
Signal Transduction (Gallus gallus)
MAPK family signaling cascades (Gallus gallus)
MAPK1/MAPK3 signaling (Gallus gallus)
RAF/MAP kinase cascade (Gallus gallus)
RAS processing (Gallus gallus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Gallus gallus)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Gallus gallus)
ESR-mediated signaling (Gallus gallus)
Extra-nuclear estrogen signaling (Gallus gallus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Gallus gallus)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Gallus gallus)
CPT1A,B transfers PALM to CAR (Gallus gallus)
CoA-SH [cytosol]
Transport of small molecules (Gallus gallus)
Plasma lipoprotein assembly, remodeling, and clearance (Gallus gallus)
Plasma lipoprotein assembly (Gallus gallus)
HDL assembly (Gallus gallus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Gallus gallus)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Gallus gallus)
LDL clearance (Gallus gallus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Gallus gallus)
CoA-SH [cytosol]
Vesicle-mediated transport (Gallus gallus)
Membrane Trafficking (Gallus gallus)
Intra-Golgi and retrograde Golgi-to-ER traffic (Gallus gallus)
Golgi-to-ER retrograde transport (Gallus gallus)
COPI-independent Golgi-to-ER retrograde traffic (Gallus gallus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Gallus gallus)
CoA-SH [cytosol]
Cell Cycle (Homo sapiens)
Cell Cycle, Mitotic (Homo sapiens)
M Phase (Homo sapiens)
Mitotic Metaphase and Anaphase (Homo sapiens)
Mitotic Anaphase (Homo sapiens)
Separation of Sister Chromatids (Homo sapiens)
Deacetylation of cleaved cohesin (Homo sapiens)
CoA-SH [cytosol]
Mitotic Prometaphase (Homo sapiens)
Resolution of Sister Chromatid Cohesion (Homo sapiens)
Deacetylation of cohesin (Homo sapiens)
CoA-SH [cytosol]
Disease (Homo sapiens)
Infectious disease (Homo sapiens)
Bacterial Infection Pathways (Homo sapiens)
Infection with Mycobacterium tuberculosis (Homo sapiens)
Response of Mtb to phagocytosis (Homo sapiens)
Suppression of autophagy (Homo sapiens)
Eis acetylates DUSP16 (Homo sapiens)
CoA-SH [cytosol]
Viral Infection Pathways (Homo sapiens)
HIV Infection (Homo sapiens)
HIV Life Cycle (Homo sapiens)
Late Phase of HIV Life Cycle (Homo sapiens)
Assembly Of The HIV Virion (Homo sapiens)
Synthesis And Processing Of GAG, GAGPOL Polyproteins (Homo sapiens)
Membrane binding and targetting of GAG proteins (Homo sapiens)
N-myristoylation of GAG polyprotein by NMT2 (Homo sapiens)
CoA-SH [cytosol]
Myristoylation of Nef (Homo sapiens)
CoA-SH [cytosol]
Respiratory Syncytial Virus Infection Pathway (Homo sapiens)
Respiratory syncytial virus (RSV) genome replication, transcription and translation (Homo sapiens)
Maturation of hRSV A proteins (Homo sapiens)
F0 is palmitoylated (Homo sapiens)
CoA-SH [cytosol]
G is palmitoylated (Homo sapiens)
CoA-SH [cytosol]
SARS-CoV Infections (Homo sapiens)
SARS-CoV-2 Infection (Homo sapiens)
SARS-CoV-2-host interactions (Homo sapiens)
SARS-CoV-2 activates/modulates innate and adaptive immune responses (Homo sapiens)
CREBBP acetylates SARS-CoV-2 N at K375 (Homo sapiens)
CoA-SH [cytosol]
Drug ADME (Homo sapiens)
Paracetamol ADME (Homo sapiens)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Homo sapiens)
CoA-SH [cytosol]
Metabolism (Homo sapiens)
Biological oxidations (Homo sapiens)
Aflatoxin activation and detoxification (Homo sapiens)
Unknown NAT transfers COCH3 to AFXBO-C, AFNBO-C (Homo sapiens)
CoA-SH [cytosol]
Phase I - Functionalization of compounds (Homo sapiens)
Ethanol oxidation (Homo sapiens)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Homo sapiens)
CoA-SH [cytosol]
Phase II - Conjugation of compounds (Homo sapiens)
Acetylation (Homo sapiens)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Homo sapiens)
CoA-SH [cytosol]
The acetyl group from acetyl-CoA is transferred to the NAT2 (Homo sapiens)
CoA-SH [cytosol]
Integration of energy metabolism (Homo sapiens)
Regulation of insulin secretion (Homo sapiens)
Free fatty acids regulate insulin secretion (Homo sapiens)
Intracellular metabolism of fatty acids regulates insulin secretion (Homo sapiens)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Homo sapiens)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Homo sapiens)
Metabolism of amine-derived hormones (Homo sapiens)
Serotonin and melatonin biosynthesis (Homo sapiens)
N-acetylation of serotonin (Homo sapiens)
CoA-SH [cytosol]
Metabolism of polyamines (Homo sapiens)
Interconversion of polyamines (Homo sapiens)
Spermidine => N-acetylated spermidine (Homo sapiens)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Homo sapiens)
CoA-SH [cytosol]
Metabolism of carbohydrates (Homo sapiens)
Glycosaminoglycan metabolism (Homo sapiens)
Heparan sulfate/heparin (HS-GAG) metabolism (Homo sapiens)
HS-GAG degradation (Homo sapiens)
HGSNAT oligomer acetylates Heparan chain(1) (Homo sapiens)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Homo sapiens)
CoA-SH [cytosol]
Metabolism of lipids (Homo sapiens)
Fatty acid metabolism (Homo sapiens)
Carnitine metabolism (Homo sapiens)
CPT1A,B transfers PALM to CAR (Homo sapiens)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Homo sapiens)
ACLY tetramer transforms CIT to Ac-CoA (Homo sapiens)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Homo sapiens)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Homo sapiens)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Homo sapiens)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Homo sapiens)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Homo sapiens)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Homo sapiens)
CoA-SH [cytosol]
ELOVL1,4 elongate TCS-CoA and Mal-CoA to 3OHC-CoA (Homo sapiens)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Homo sapiens)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Homo sapiens)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Homo sapiens)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Homo sapiens)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Homo sapiens)
CoA-SH [cytosol]
Ketone body metabolism (Homo sapiens)
Synthesis of Ketone Bodies (Homo sapiens)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Homo sapiens)
CoA-SH [cytosol]
Metabolism of steroids (Homo sapiens)
Bile acid and bile salt metabolism (Homo sapiens)
Recycling of bile acids and salts (Homo sapiens)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Homo sapiens)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Homo sapiens)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Homo sapiens)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Homo sapiens)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
CoA-SH [cytosol]
Cholesterol biosynthesis (Homo sapiens)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Homo sapiens)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Homo sapiens)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Homo sapiens)
CoA-SH [cytosol]
Phospholipid metabolism (Homo sapiens)
Glycerophospholipid biosynthesis (Homo sapiens)
Acyl chain remodeling of CL (Homo sapiens)
DLCL is acylated to MLCL by LCLAT1 (ER) (Homo sapiens)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Homo sapiens)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Homo sapiens)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Homo sapiens)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Homo sapiens)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Homo sapiens)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Homo sapiens)
1-acyl LPC is acylated to PC by LPCAT (Homo sapiens)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Homo sapiens)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Homo sapiens)
1-acyl LPE is acylated to PE by LPEAT (Homo sapiens)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Homo sapiens)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Homo sapiens)
1-acyl LPG is acylated to PG by LPGAT (Homo sapiens)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Homo sapiens)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Homo sapiens)
1-acyl LPI is acylated to PI by MBOAT7 (Homo sapiens)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Homo sapiens)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Homo sapiens)
1-acyl LPS is acylated to PS by LPSAT (Homo sapiens)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Homo sapiens)
CoA-SH [cytosol]
Synthesis of PA (Homo sapiens)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Homo sapiens)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Homo sapiens)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Homo sapiens)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Homo sapiens)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Homo sapiens)
CoA-SH [cytosol]
Synthesis of PC (Homo sapiens)
Cho is acetylated to AcCho by CHAT (Homo sapiens)
CoA-SH [cytosol]
Sphingolipid metabolism (Homo sapiens)
Sphingolipid de novo biosynthesis (Homo sapiens)
Ceramide synthases transfer acyl-CoA onto sphingoid (Homo sapiens)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Homo sapiens)
CoA-SH [cytosol]
Triglyceride metabolism (Homo sapiens)
Triglyceride biosynthesis (Homo sapiens)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Homo sapiens)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Homo sapiens)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Homo sapiens)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Homo sapiens)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Homo sapiens)
Wax biosynthesis (Homo sapiens)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Homo sapiens)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Homo sapiens)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Homo sapiens)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Homo sapiens)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Homo sapiens)
Metabolism of water-soluble vitamins and cofactors (Homo sapiens)
Vitamin B5 (pantothenate) metabolism (Homo sapiens)
Coenzyme A biosynthesis (Homo sapiens)
COASY phosphorylates DP-CoA (Homo sapiens)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Homo sapiens)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Homo sapiens)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Homo sapiens)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Homo sapiens)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Homo sapiens)
CoA-SH [cytosol]
Metabolism of proteins (Homo sapiens)
Post-translational protein modification (Homo sapiens)
Asparagine N-linked glycosylation (Homo sapiens)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Homo sapiens)
Synthesis of substrates in N-glycan biosythesis (Homo sapiens)
Synthesis of UDP-N-acetyl-glucosamine (Homo sapiens)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Homo sapiens)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Homo sapiens)
Synthesis of glycosylphosphatidylinositol (GPI) (Homo sapiens)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Homo sapiens)
CoA-SH [cytosol]
Surfactant metabolism (Homo sapiens)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Homo sapiens)
CoA-SH [cytosol]
Neuronal System (Homo sapiens)
Transmission across Chemical Synapses (Homo sapiens)
Neurotransmitter release cycle (Homo sapiens)
Acetylcholine Neurotransmitter Release Cycle (Homo sapiens)
Cho is acetylated to AcCho by CHAT (Homo sapiens)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Homo sapiens)
Cilium Assembly (Homo sapiens)
ATAT acetylates microtubules (Homo sapiens)
CoA-SH [cytosol]
HDAC6 deacetylates microtubules (Homo sapiens)
CoA-SH [cytosol]
Sensory Perception (Homo sapiens)
Visual phototransduction (Homo sapiens)
The phototransduction cascade (Homo sapiens)
Inactivation, recovery and regulation of the phototransduction cascade (Homo sapiens)
NMT1/2 transfer MYS to GNAT1 (Homo sapiens)
CoA-SH [cytosol]
Unknown NAT N-acylates Gly in GNAT1 (Homo sapiens)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Homo sapiens)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Homo sapiens)
CoA-SH [cytosol]
Signal Transduction (Homo sapiens)
MAPK family signaling cascades (Homo sapiens)
MAPK1/MAPK3 signaling (Homo sapiens)
RAF/MAP kinase cascade (Homo sapiens)
RAS processing (Homo sapiens)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Homo sapiens)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Homo sapiens)
ESR-mediated signaling (Homo sapiens)
Extra-nuclear estrogen signaling (Homo sapiens)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Homo sapiens)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Homo sapiens)
CPT1A,B transfers PALM to CAR (Homo sapiens)
CoA-SH [cytosol]
Transport of small molecules (Homo sapiens)
Plasma lipoprotein assembly, remodeling, and clearance (Homo sapiens)
Plasma lipoprotein assembly (Homo sapiens)
HDL assembly (Homo sapiens)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Homo sapiens)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Homo sapiens)
LDL clearance (Homo sapiens)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Homo sapiens)
CoA-SH [cytosol]
Vesicle-mediated transport (Homo sapiens)
Membrane Trafficking (Homo sapiens)
Intra-Golgi and retrograde Golgi-to-ER traffic (Homo sapiens)
Golgi-to-ER retrograde transport (Homo sapiens)
COPI-independent Golgi-to-ER retrograde traffic (Homo sapiens)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Homo sapiens)
CoA-SH [cytosol]
Retrograde transport at the Trans-Golgi-Network (Homo sapiens)
NatC acetylates ARFFRP1 (Homo sapiens)
CoA-SH [cytosol]
Cell Cycle (Mus musculus)
Cell Cycle, Mitotic (Mus musculus)
M Phase (Mus musculus)
Mitotic Metaphase and Anaphase (Mus musculus)
Mitotic Anaphase (Mus musculus)
Separation of Sister Chromatids (Mus musculus)
Deacetylation of cleaved cohesin (Mus musculus)
CoA-SH [cytosol]
Mitotic Prometaphase (Mus musculus)
Resolution of Sister Chromatid Cohesion (Mus musculus)
Deacetylation of cohesin (Mus musculus)
CoA-SH [cytosol]
Drug ADME (Mus musculus)
Paracetamol ADME (Mus musculus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Mus musculus)
CoA-SH [cytosol]
Metabolism (Mus musculus)
Biological oxidations (Mus musculus)
Phase I - Functionalization of compounds (Mus musculus)
Ethanol oxidation (Mus musculus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Mus musculus)
CoA-SH [cytosol]
Phase II - Conjugation of compounds (Mus musculus)
Acetylation (Mus musculus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Mus musculus)
CoA-SH [cytosol]
The acetyl group from acetyl-CoA is transferred to the NAT2 (Mus musculus)
CoA-SH [cytosol]
Integration of energy metabolism (Mus musculus)
Regulation of insulin secretion (Mus musculus)
Free fatty acids regulate insulin secretion (Mus musculus)
Intracellular metabolism of fatty acids regulates insulin secretion (Mus musculus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Mus musculus)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Mus musculus)
Metabolism of amine-derived hormones (Mus musculus)
Serotonin and melatonin biosynthesis (Mus musculus)
N-acetylation of serotonin (Mus musculus)
CoA-SH [cytosol]
Metabolism of polyamines (Mus musculus)
Interconversion of polyamines (Mus musculus)
Spermidine => N-acetylated spermidine (Mus musculus)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Mus musculus)
CoA-SH [cytosol]
Metabolism of carbohydrates (Mus musculus)
Glycosaminoglycan metabolism (Mus musculus)
Heparan sulfate/heparin (HS-GAG) metabolism (Mus musculus)
HS-GAG degradation (Mus musculus)
HGSNAT oligomer acetylates Heparan chain(1) (Mus musculus)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Mus musculus)
CoA-SH [cytosol]
Metabolism of lipids (Mus musculus)
Fatty acid metabolism (Mus musculus)
Carnitine metabolism (Mus musculus)
CPT1A,B transfers PALM to CAR (Mus musculus)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Mus musculus)
ACLY tetramer transforms CIT to Ac-CoA (Mus musculus)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Mus musculus)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Mus musculus)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Mus musculus)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Mus musculus)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Mus musculus)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Mus musculus)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Mus musculus)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Mus musculus)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Mus musculus)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Mus musculus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Mus musculus)
CoA-SH [cytosol]
Ketone body metabolism (Mus musculus)
Synthesis of Ketone Bodies (Mus musculus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Mus musculus)
CoA-SH [cytosol]
Metabolism of steroids (Mus musculus)
Bile acid and bile salt metabolism (Mus musculus)
Recycling of bile acids and salts (Mus musculus)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Mus musculus)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Mus musculus)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Mus musculus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Mus musculus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
CoA-SH [cytosol]
Cholesterol biosynthesis (Mus musculus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Mus musculus)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Mus musculus)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Mus musculus)
CoA-SH [cytosol]
Phospholipid metabolism (Mus musculus)
Glycerophospholipid biosynthesis (Mus musculus)
Acyl chain remodeling of CL (Mus musculus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Mus musculus)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Mus musculus)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Mus musculus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Mus musculus)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Mus musculus)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Mus musculus)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Mus musculus)
1-acyl LPC is acylated to PC by LPCAT (Mus musculus)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Mus musculus)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Mus musculus)
1-acyl LPE is acylated to PE by LPEAT (Mus musculus)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Mus musculus)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Mus musculus)
1-acyl LPG is acylated to PG by LPGAT (Mus musculus)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Mus musculus)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Mus musculus)
1-acyl LPI is acylated to PI by MBOAT7 (Mus musculus)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Mus musculus)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Mus musculus)
1-acyl LPS is acylated to PS by LPSAT (Mus musculus)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Mus musculus)
CoA-SH [cytosol]
Synthesis of PA (Mus musculus)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Mus musculus)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Mus musculus)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Mus musculus)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Mus musculus)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Mus musculus)
CoA-SH [cytosol]
Synthesis of PC (Mus musculus)
Cho is acetylated to AcCho by CHAT (Mus musculus)
CoA-SH [cytosol]
Sphingolipid metabolism (Mus musculus)
Sphingolipid de novo biosynthesis (Mus musculus)
Ceramide synthases transfer acyl-CoA onto sphingoid (Mus musculus)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Mus musculus)
CoA-SH [cytosol]
Triglyceride metabolism (Mus musculus)
Triglyceride biosynthesis (Mus musculus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Mus musculus)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Mus musculus)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Mus musculus)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Mus musculus)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Mus musculus)
Wax biosynthesis (Mus musculus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Mus musculus)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Mus musculus)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Mus musculus)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Mus musculus)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Mus musculus)
Metabolism of water-soluble vitamins and cofactors (Mus musculus)
Vitamin B5 (pantothenate) metabolism (Mus musculus)
Coenzyme A biosynthesis (Mus musculus)
COASY phosphorylates DP-CoA (Mus musculus)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Mus musculus)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Mus musculus)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Mus musculus)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Mus musculus)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Mus musculus)
CoA-SH [cytosol]
Metabolism of proteins (Mus musculus)
Post-translational protein modification (Mus musculus)
Asparagine N-linked glycosylation (Mus musculus)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Mus musculus)
Synthesis of substrates in N-glycan biosythesis (Mus musculus)
Synthesis of UDP-N-acetyl-glucosamine (Mus musculus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Mus musculus)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Mus musculus)
Synthesis of glycosylphosphatidylinositol (GPI) (Mus musculus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Mus musculus)
CoA-SH [cytosol]
Surfactant metabolism (Mus musculus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Mus musculus)
CoA-SH [cytosol]
Neuronal System (Mus musculus)
Transmission across Chemical Synapses (Mus musculus)
Neurotransmitter release cycle (Mus musculus)
Acetylcholine Neurotransmitter Release Cycle (Mus musculus)
Cho is acetylated to AcCho by CHAT (Mus musculus)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Mus musculus)
Cilium Assembly (Mus musculus)
ATAT acetylates microtubules (Mus musculus)
CoA-SH [cytosol]
HDAC6 deacetylates microtubules (Mus musculus)
CoA-SH [cytosol]
Sensory Perception (Mus musculus)
Visual phototransduction (Mus musculus)
The phototransduction cascade (Mus musculus)
Inactivation, recovery and regulation of the phototransduction cascade (Mus musculus)
NMT1/2 transfer MYS to GNAT1 (Mus musculus)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Mus musculus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Mus musculus)
CoA-SH [cytosol]
Signal Transduction (Mus musculus)
MAPK family signaling cascades (Mus musculus)
MAPK1/MAPK3 signaling (Mus musculus)
RAF/MAP kinase cascade (Mus musculus)
RAS processing (Mus musculus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Mus musculus)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Mus musculus)
ESR-mediated signaling (Mus musculus)
Extra-nuclear estrogen signaling (Mus musculus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Mus musculus)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Mus musculus)
CPT1A,B transfers PALM to CAR (Mus musculus)
CoA-SH [cytosol]
Transport of small molecules (Mus musculus)
Plasma lipoprotein assembly, remodeling, and clearance (Mus musculus)
Plasma lipoprotein assembly (Mus musculus)
HDL assembly (Mus musculus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Mus musculus)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Mus musculus)
LDL clearance (Mus musculus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Mus musculus)
CoA-SH [cytosol]
Vesicle-mediated transport (Mus musculus)
Membrane Trafficking (Mus musculus)
Intra-Golgi and retrograde Golgi-to-ER traffic (Mus musculus)
Golgi-to-ER retrograde transport (Mus musculus)
COPI-independent Golgi-to-ER retrograde traffic (Mus musculus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Mus musculus)
CoA-SH [cytosol]
Mycobacterium tuberculosis biological processes (Mycobacterium tuberculosis)
Dimycocersyl phthiocerol biosynthesis (Mycobacterium tuberculosis)
Pks5 transforms LFCA adenylate ester to mycocerosyl (Mycobacterium tuberculosis)
CoA-SH [cytosol]
Mycothiol metabolism (Mycobacterium tuberculosis)
Mycothiol biosynthesis (Mycobacterium tuberculosis)
desacetylmycothiol is acetylated to mycothiol using acetyl-CoA (Mycobacterium tuberculosis)
CoA-SH [cytosol]
Sulfur compound metabolism (Mycobacterium tuberculosis)
Sulfur amino acid metabolism (Mycobacterium tuberculosis)
Cysteine synthesis from O-acetylserine (Mycobacterium tuberculosis)
acetylation of serine (Mycobacterium tuberculosis)
CoA-SH [cytosol]
Metabolism (Plasmodium falciparum)
Biological oxidations (Plasmodium falciparum)
Phase I - Functionalization of compounds (Plasmodium falciparum)
Ethanol oxidation (Plasmodium falciparum)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Plasmodium falciparum)
CoA-SH [cytosol]
Metabolism of lipids (Plasmodium falciparum)
Fatty acid metabolism (Plasmodium falciparum)
Fatty acyl-CoA biosynthesis (Plasmodium falciparum)
Synthesis of very long-chain fatty acyl-CoAs (Plasmodium falciparum)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Plasmodium falciparum)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Plasmodium falciparum)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Plasmodium falciparum)
CoA-SH [cytosol]
Metabolism of steroids (Plasmodium falciparum)
Cholesterol biosynthesis (Plasmodium falciparum)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Plasmodium falciparum)
CoA-SH [cytosol]
Phospholipid metabolism (Plasmodium falciparum)
Glycerophospholipid biosynthesis (Plasmodium falciparum)
Acyl chain remodeling of DAG and TAG (Plasmodium falciparum)
DAG is acylated to TAG by DGAT1/2 (Plasmodium falciparum)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Plasmodium falciparum)
1-acyl LPC is acylated to PC by LPCAT (Plasmodium falciparum)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Plasmodium falciparum)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Plasmodium falciparum)
1-acyl LPE is acylated to PE by LPEAT (Plasmodium falciparum)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Plasmodium falciparum)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Plasmodium falciparum)
1-acyl LPG is acylated to PG by LPGAT (Plasmodium falciparum)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Plasmodium falciparum)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Plasmodium falciparum)
1-acyl LPS is acylated to PS by LPSAT (Plasmodium falciparum)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Plasmodium falciparum)
CoA-SH [cytosol]
Synthesis of PA (Plasmodium falciparum)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Plasmodium falciparum)
CoA-SH [cytosol]
Sphingolipid metabolism (Plasmodium falciparum)
Sphingolipid de novo biosynthesis (Plasmodium falciparum)
Ceramide synthases transfer acyl-CoA onto sphingoid (Plasmodium falciparum)
CoA-SH [cytosol]
Triglyceride metabolism (Plasmodium falciparum)
Triglyceride biosynthesis (Plasmodium falciparum)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Plasmodium falciparum)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Plasmodium falciparum)
Metabolism of water-soluble vitamins and cofactors (Plasmodium falciparum)
Vitamin B5 (pantothenate) metabolism (Plasmodium falciparum)
Coenzyme A biosynthesis (Plasmodium falciparum)
DCAKD phosphorylates DP-CoA (Plasmodium falciparum)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Plasmodium falciparum)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Plasmodium falciparum)
CoA-SH [cytosol]
Metabolism of proteins (Plasmodium falciparum)
Post-translational protein modification (Plasmodium falciparum)
Post-translational modification: synthesis of GPI-anchored proteins (Plasmodium falciparum)
Synthesis of glycosylphosphatidylinositol (GPI) (Plasmodium falciparum)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Plasmodium falciparum)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Plasmodium falciparum)
Cilium Assembly (Plasmodium falciparum)
ATAT acetylates microtubules (Plasmodium falciparum)
CoA-SH [cytosol]
HDAC6 deacetylates microtubules (Plasmodium falciparum)
CoA-SH [cytosol]
Cell Cycle (Rattus norvegicus)
Cell Cycle, Mitotic (Rattus norvegicus)
M Phase (Rattus norvegicus)
Mitotic Metaphase and Anaphase (Rattus norvegicus)
Mitotic Anaphase (Rattus norvegicus)
Separation of Sister Chromatids (Rattus norvegicus)
Deacetylation of cleaved cohesin (Rattus norvegicus)
CoA-SH [cytosol]
Mitotic Prometaphase (Rattus norvegicus)
Resolution of Sister Chromatid Cohesion (Rattus norvegicus)
Deacetylation of cohesin (Rattus norvegicus)
CoA-SH [cytosol]
Drug ADME (Rattus norvegicus)
Paracetamol ADME (Rattus norvegicus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism (Rattus norvegicus)
Biological oxidations (Rattus norvegicus)
Phase I - Functionalization of compounds (Rattus norvegicus)
Ethanol oxidation (Rattus norvegicus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Rattus norvegicus)
CoA-SH [cytosol]
Phase II - Conjugation of compounds (Rattus norvegicus)
Acetylation (Rattus norvegicus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Rattus norvegicus)
CoA-SH [cytosol]
The acetyl group from acetyl-CoA is transferred to the NAT2 (Rattus norvegicus)
CoA-SH [cytosol]
Integration of energy metabolism (Rattus norvegicus)
Regulation of insulin secretion (Rattus norvegicus)
Free fatty acids regulate insulin secretion (Rattus norvegicus)
Intracellular metabolism of fatty acids regulates insulin secretion (Rattus norvegicus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Rattus norvegicus)
Metabolism of amine-derived hormones (Rattus norvegicus)
Serotonin and melatonin biosynthesis (Rattus norvegicus)
N-acetylation of serotonin (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of polyamines (Rattus norvegicus)
Interconversion of polyamines (Rattus norvegicus)
Spermidine => N-acetylated spermidine (Rattus norvegicus)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of carbohydrates (Rattus norvegicus)
Glycosaminoglycan metabolism (Rattus norvegicus)
Heparan sulfate/heparin (HS-GAG) metabolism (Rattus norvegicus)
HS-GAG degradation (Rattus norvegicus)
HGSNAT oligomer acetylates Heparan chain(1) (Rattus norvegicus)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of lipids (Rattus norvegicus)
Fatty acid metabolism (Rattus norvegicus)
Carnitine metabolism (Rattus norvegicus)
CPT1A,B transfers PALM to CAR (Rattus norvegicus)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Rattus norvegicus)
ACLY tetramer transforms CIT to Ac-CoA (Rattus norvegicus)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Rattus norvegicus)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Rattus norvegicus)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Rattus norvegicus)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Rattus norvegicus)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Rattus norvegicus)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Rattus norvegicus)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Rattus norvegicus)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Rattus norvegicus)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Rattus norvegicus)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Rattus norvegicus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Rattus norvegicus)
CoA-SH [cytosol]
Ketone body metabolism (Rattus norvegicus)
Synthesis of Ketone Bodies (Rattus norvegicus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of steroids (Rattus norvegicus)
Bile acid and bile salt metabolism (Rattus norvegicus)
Recycling of bile acids and salts (Rattus norvegicus)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Rattus norvegicus)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Rattus norvegicus)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Rattus norvegicus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Rattus norvegicus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
CoA-SH [cytosol]
Cholesterol biosynthesis (Rattus norvegicus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Rattus norvegicus)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Rattus norvegicus)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Rattus norvegicus)
CoA-SH [cytosol]
Phospholipid metabolism (Rattus norvegicus)
Glycerophospholipid biosynthesis (Rattus norvegicus)
Acyl chain remodeling of CL (Rattus norvegicus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Rattus norvegicus)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Rattus norvegicus)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Rattus norvegicus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Rattus norvegicus)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Rattus norvegicus)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Rattus norvegicus)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Rattus norvegicus)
1-acyl LPC is acylated to PC by LPCAT (Rattus norvegicus)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Rattus norvegicus)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Rattus norvegicus)
1-acyl LPE is acylated to PE by LPEAT (Rattus norvegicus)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Rattus norvegicus)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Rattus norvegicus)
1-acyl LPG is acylated to PG by LPGAT (Rattus norvegicus)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Rattus norvegicus)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Rattus norvegicus)
1-acyl LPS is acylated to PS by LPSAT (Rattus norvegicus)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Rattus norvegicus)
CoA-SH [cytosol]
Synthesis of PA (Rattus norvegicus)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Rattus norvegicus)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Rattus norvegicus)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Rattus norvegicus)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Rattus norvegicus)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Rattus norvegicus)
CoA-SH [cytosol]
Synthesis of PC (Rattus norvegicus)
Cho is acetylated to AcCho by CHAT (Rattus norvegicus)
CoA-SH [cytosol]
Sphingolipid metabolism (Rattus norvegicus)
Sphingolipid de novo biosynthesis (Rattus norvegicus)
Ceramide synthases transfer acyl-CoA onto sphingoid (Rattus norvegicus)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Rattus norvegicus)
CoA-SH [cytosol]
Triglyceride metabolism (Rattus norvegicus)
Triglyceride biosynthesis (Rattus norvegicus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Rattus norvegicus)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Rattus norvegicus)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Rattus norvegicus)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Rattus norvegicus)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Rattus norvegicus)
Wax biosynthesis (Rattus norvegicus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Rattus norvegicus)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Rattus norvegicus)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Rattus norvegicus)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Rattus norvegicus)
Metabolism of water-soluble vitamins and cofactors (Rattus norvegicus)
Vitamin B5 (pantothenate) metabolism (Rattus norvegicus)
Coenzyme A biosynthesis (Rattus norvegicus)
COASY phosphorylates DP-CoA (Rattus norvegicus)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Rattus norvegicus)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Rattus norvegicus)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Rattus norvegicus)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Rattus norvegicus)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Rattus norvegicus)
CoA-SH [cytosol]
Metabolism of proteins (Rattus norvegicus)
Post-translational protein modification (Rattus norvegicus)
Asparagine N-linked glycosylation (Rattus norvegicus)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Rattus norvegicus)
Synthesis of substrates in N-glycan biosythesis (Rattus norvegicus)
Synthesis of UDP-N-acetyl-glucosamine (Rattus norvegicus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Rattus norvegicus)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Rattus norvegicus)
Synthesis of glycosylphosphatidylinositol (GPI) (Rattus norvegicus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Rattus norvegicus)
CoA-SH [cytosol]
Surfactant metabolism (Rattus norvegicus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Rattus norvegicus)
CoA-SH [cytosol]
Neuronal System (Rattus norvegicus)
Transmission across Chemical Synapses (Rattus norvegicus)
Neurotransmitter release cycle (Rattus norvegicus)
Acetylcholine Neurotransmitter Release Cycle (Rattus norvegicus)
Cho is acetylated to AcCho by CHAT (Rattus norvegicus)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Rattus norvegicus)
Cilium Assembly (Rattus norvegicus)
ATAT acetylates microtubules (Rattus norvegicus)
CoA-SH [cytosol]
Sensory Perception (Rattus norvegicus)
Visual phototransduction (Rattus norvegicus)
The phototransduction cascade (Rattus norvegicus)
Inactivation, recovery and regulation of the phototransduction cascade (Rattus norvegicus)
NMT1/2 transfer MYS to GNAT1 (Rattus norvegicus)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Rattus norvegicus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Rattus norvegicus)
CoA-SH [cytosol]
Signal Transduction (Rattus norvegicus)
MAPK family signaling cascades (Rattus norvegicus)
MAPK1/MAPK3 signaling (Rattus norvegicus)
RAF/MAP kinase cascade (Rattus norvegicus)
RAS processing (Rattus norvegicus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Rattus norvegicus)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Rattus norvegicus)
ESR-mediated signaling (Rattus norvegicus)
Extra-nuclear estrogen signaling (Rattus norvegicus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Rattus norvegicus)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Rattus norvegicus)
CPT1A,B transfers PALM to CAR (Rattus norvegicus)
CoA-SH [cytosol]
Transport of small molecules (Rattus norvegicus)
Plasma lipoprotein assembly, remodeling, and clearance (Rattus norvegicus)
Plasma lipoprotein assembly (Rattus norvegicus)
HDL assembly (Rattus norvegicus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Rattus norvegicus)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Rattus norvegicus)
LDL clearance (Rattus norvegicus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Rattus norvegicus)
CoA-SH [cytosol]
Vesicle-mediated transport (Rattus norvegicus)
Membrane Trafficking (Rattus norvegicus)
Intra-Golgi and retrograde Golgi-to-ER traffic (Rattus norvegicus)
Golgi-to-ER retrograde transport (Rattus norvegicus)
COPI-independent Golgi-to-ER retrograde traffic (Rattus norvegicus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Rattus norvegicus)
CoA-SH [cytosol]
Cell Cycle (Saccharomyces cerevisiae)
Cell Cycle, Mitotic (Saccharomyces cerevisiae)
M Phase (Saccharomyces cerevisiae)
Mitotic Prometaphase (Saccharomyces cerevisiae)
Resolution of Sister Chromatid Cohesion (Saccharomyces cerevisiae)
Deacetylation of cohesin (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism (Saccharomyces cerevisiae)
Biological oxidations (Saccharomyces cerevisiae)
Phase I - Functionalization of compounds (Saccharomyces cerevisiae)
Ethanol oxidation (Saccharomyces cerevisiae)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Integration of energy metabolism (Saccharomyces cerevisiae)
Regulation of insulin secretion (Saccharomyces cerevisiae)
Free fatty acids regulate insulin secretion (Saccharomyces cerevisiae)
Intracellular metabolism of fatty acids regulates insulin secretion (Saccharomyces cerevisiae)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Saccharomyces cerevisiae)
Metabolism of amine-derived hormones (Saccharomyces cerevisiae)
Serotonin and melatonin biosynthesis (Saccharomyces cerevisiae)
N-acetylation of serotonin (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism of polyamines (Saccharomyces cerevisiae)
Interconversion of polyamines (Saccharomyces cerevisiae)
Spermidine => N-acetylated spermidine (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism of lipids (Saccharomyces cerevisiae)
Fatty acid metabolism (Saccharomyces cerevisiae)
Fatty acyl-CoA biosynthesis (Saccharomyces cerevisiae)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Saccharomyces cerevisiae)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism of steroids (Saccharomyces cerevisiae)
Bile acid and bile salt metabolism (Saccharomyces cerevisiae)
Recycling of bile acids and salts (Saccharomyces cerevisiae)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Saccharomyces cerevisiae)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Saccharomyces cerevisiae)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Saccharomyces cerevisiae)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Cholesterol biosynthesis (Saccharomyces cerevisiae)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Phospholipid metabolism (Saccharomyces cerevisiae)
Glycerophospholipid biosynthesis (Saccharomyces cerevisiae)
Acyl chain remodeling of CL (Saccharomyces cerevisiae)
DLCL is acylated to MLCL by LCLAT1 (ER) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Saccharomyces cerevisiae)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Saccharomyces cerevisiae)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Saccharomyces cerevisiae)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Saccharomyces cerevisiae)
1-acyl LPC is acylated to PC by LPCAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Saccharomyces cerevisiae)
1-acyl LPE is acylated to PE by LPEAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Saccharomyces cerevisiae)
1-acyl LPG is acylated to PG by LPGAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Saccharomyces cerevisiae)
1-acyl LPI is acylated to PI by MBOAT7 (Saccharomyces cerevisiae)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Saccharomyces cerevisiae)
1-acyl LPS is acylated to PS by LPSAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Synthesis of PA (Saccharomyces cerevisiae)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Sphingolipid metabolism (Saccharomyces cerevisiae)
Sphingolipid de novo biosynthesis (Saccharomyces cerevisiae)
Ceramide synthases transfer acyl-CoA onto sphingoid (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Triglyceride metabolism (Saccharomyces cerevisiae)
Triglyceride biosynthesis (Saccharomyces cerevisiae)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Saccharomyces cerevisiae)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Saccharomyces cerevisiae)
Wax biosynthesis (Saccharomyces cerevisiae)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Saccharomyces cerevisiae)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Saccharomyces cerevisiae)
Metabolism of water-soluble vitamins and cofactors (Saccharomyces cerevisiae)
Vitamin B5 (pantothenate) metabolism (Saccharomyces cerevisiae)
Coenzyme A biosynthesis (Saccharomyces cerevisiae)
COASY phosphorylates DP-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Saccharomyces cerevisiae)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism of proteins (Saccharomyces cerevisiae)
Post-translational protein modification (Saccharomyces cerevisiae)
Asparagine N-linked glycosylation (Saccharomyces cerevisiae)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Saccharomyces cerevisiae)
Synthesis of substrates in N-glycan biosythesis (Saccharomyces cerevisiae)
Synthesis of UDP-N-acetyl-glucosamine (Saccharomyces cerevisiae)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Saccharomyces cerevisiae)
Synthesis of glycosylphosphatidylinositol (GPI) (Saccharomyces cerevisiae)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Sensory Perception (Saccharomyces cerevisiae)
Visual phototransduction (Saccharomyces cerevisiae)
The phototransduction cascade (Saccharomyces cerevisiae)
Inactivation, recovery and regulation of the phototransduction cascade (Saccharomyces cerevisiae)
NMT1/2 transfer MYS to GNAT1 (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Vesicle-mediated transport (Saccharomyces cerevisiae)
Membrane Trafficking (Saccharomyces cerevisiae)
Intra-Golgi and retrograde Golgi-to-ER traffic (Saccharomyces cerevisiae)
Golgi-to-ER retrograde transport (Saccharomyces cerevisiae)
COPI-independent Golgi-to-ER retrograde traffic (Saccharomyces cerevisiae)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Saccharomyces cerevisiae)
CoA-SH [cytosol]
Metabolism (Schizosaccharomyces pombe)
Biological oxidations (Schizosaccharomyces pombe)
Phase I - Functionalization of compounds (Schizosaccharomyces pombe)
Ethanol oxidation (Schizosaccharomyces pombe)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Integration of energy metabolism (Schizosaccharomyces pombe)
Regulation of insulin secretion (Schizosaccharomyces pombe)
Free fatty acids regulate insulin secretion (Schizosaccharomyces pombe)
Intracellular metabolism of fatty acids regulates insulin secretion (Schizosaccharomyces pombe)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Schizosaccharomyces pombe)
Metabolism of amine-derived hormones (Schizosaccharomyces pombe)
Serotonin and melatonin biosynthesis (Schizosaccharomyces pombe)
N-acetylation of serotonin (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Metabolism of polyamines (Schizosaccharomyces pombe)
Interconversion of polyamines (Schizosaccharomyces pombe)
Spermidine => N-acetylated spermidine (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Metabolism of lipids (Schizosaccharomyces pombe)
Fatty acid metabolism (Schizosaccharomyces pombe)
Fatty acyl-CoA biosynthesis (Schizosaccharomyces pombe)
ACLY tetramer transforms CIT to Ac-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Schizosaccharomyces pombe)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Schizosaccharomyces pombe)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Metabolism of steroids (Schizosaccharomyces pombe)
Cholesterol biosynthesis (Schizosaccharomyces pombe)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Phospholipid metabolism (Schizosaccharomyces pombe)
Glycerophospholipid biosynthesis (Schizosaccharomyces pombe)
Acyl chain remodeling of CL (Schizosaccharomyces pombe)
DLCL is acylated to MLCL by LCLAT1 (ER) (Schizosaccharomyces pombe)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Schizosaccharomyces pombe)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Schizosaccharomyces pombe)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Schizosaccharomyces pombe)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Schizosaccharomyces pombe)
1-acyl LPC is acylated to PC by LPCAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Schizosaccharomyces pombe)
1-acyl LPE is acylated to PE by LPEAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Schizosaccharomyces pombe)
1-acyl LPG is acylated to PG by LPGAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Schizosaccharomyces pombe)
1-acyl LPI is acylated to PI by MBOAT7 (Schizosaccharomyces pombe)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Schizosaccharomyces pombe)
1-acyl LPS is acylated to PS by LPSAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Synthesis of PA (Schizosaccharomyces pombe)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Sphingolipid metabolism (Schizosaccharomyces pombe)
Sphingolipid de novo biosynthesis (Schizosaccharomyces pombe)
Ceramide synthases transfer acyl-CoA onto sphingoid (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Triglyceride metabolism (Schizosaccharomyces pombe)
Triglyceride biosynthesis (Schizosaccharomyces pombe)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Schizosaccharomyces pombe)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Schizosaccharomyces pombe)
Wax biosynthesis (Schizosaccharomyces pombe)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Schizosaccharomyces pombe)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Schizosaccharomyces pombe)
Metabolism of water-soluble vitamins and cofactors (Schizosaccharomyces pombe)
Vitamin B5 (pantothenate) metabolism (Schizosaccharomyces pombe)
Coenzyme A biosynthesis (Schizosaccharomyces pombe)
COASY phosphorylates DP-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Schizosaccharomyces pombe)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Metabolism of proteins (Schizosaccharomyces pombe)
Post-translational protein modification (Schizosaccharomyces pombe)
Asparagine N-linked glycosylation (Schizosaccharomyces pombe)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Schizosaccharomyces pombe)
Synthesis of substrates in N-glycan biosythesis (Schizosaccharomyces pombe)
Synthesis of UDP-N-acetyl-glucosamine (Schizosaccharomyces pombe)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Schizosaccharomyces pombe)
Synthesis of glycosylphosphatidylinositol (GPI) (Schizosaccharomyces pombe)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Sensory Perception (Schizosaccharomyces pombe)
Visual phototransduction (Schizosaccharomyces pombe)
The phototransduction cascade (Schizosaccharomyces pombe)
Inactivation, recovery and regulation of the phototransduction cascade (Schizosaccharomyces pombe)
NMT1/2 transfer MYS to GNAT1 (Schizosaccharomyces pombe)
CoA-SH [cytosol]
Cell Cycle (Sus scrofa)
Cell Cycle, Mitotic (Sus scrofa)
M Phase (Sus scrofa)
Mitotic Metaphase and Anaphase (Sus scrofa)
Mitotic Anaphase (Sus scrofa)
Separation of Sister Chromatids (Sus scrofa)
Deacetylation of cleaved cohesin (Sus scrofa)
CoA-SH [cytosol]
Mitotic Prometaphase (Sus scrofa)
Resolution of Sister Chromatid Cohesion (Sus scrofa)
Deacetylation of cohesin (Sus scrofa)
CoA-SH [cytosol]
Drug ADME (Sus scrofa)
Paracetamol ADME (Sus scrofa)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Sus scrofa)
CoA-SH [cytosol]
Metabolism (Sus scrofa)
Biological oxidations (Sus scrofa)
Phase I - Functionalization of compounds (Sus scrofa)
Ethanol oxidation (Sus scrofa)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Sus scrofa)
CoA-SH [cytosol]
Phase II - Conjugation of compounds (Sus scrofa)
Acetylation (Sus scrofa)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Sus scrofa)
CoA-SH [cytosol]
The acetyl group from acetyl-CoA is transferred to the NAT2 (Sus scrofa)
CoA-SH [cytosol]
Integration of energy metabolism (Sus scrofa)
Regulation of insulin secretion (Sus scrofa)
Free fatty acids regulate insulin secretion (Sus scrofa)
Intracellular metabolism of fatty acids regulates insulin secretion (Sus scrofa)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Sus scrofa)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Sus scrofa)
Metabolism of amine-derived hormones (Sus scrofa)
Serotonin and melatonin biosynthesis (Sus scrofa)
N-acetylation of serotonin (Sus scrofa)
CoA-SH [cytosol]
Metabolism of polyamines (Sus scrofa)
Interconversion of polyamines (Sus scrofa)
Spermidine => N-acetylated spermidine (Sus scrofa)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Sus scrofa)
CoA-SH [cytosol]
Metabolism of carbohydrates (Sus scrofa)
Glycosaminoglycan metabolism (Sus scrofa)
Heparan sulfate/heparin (HS-GAG) metabolism (Sus scrofa)
HS-GAG degradation (Sus scrofa)
HGSNAT oligomer acetylates Heparan chain(1) (Sus scrofa)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Sus scrofa)
CoA-SH [cytosol]
Metabolism of lipids (Sus scrofa)
Fatty acid metabolism (Sus scrofa)
Carnitine metabolism (Sus scrofa)
CPT1A,B transfers PALM to CAR (Sus scrofa)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Sus scrofa)
ACLY tetramer transforms CIT to Ac-CoA (Sus scrofa)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Sus scrofa)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Sus scrofa)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Sus scrofa)
CoA-SH [cytosol]
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Sus scrofa)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Sus scrofa)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Sus scrofa)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Sus scrofa)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Sus scrofa)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Sus scrofa)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Sus scrofa)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Sus scrofa)
CoA-SH [cytosol]
Ketone body metabolism (Sus scrofa)
Synthesis of Ketone Bodies (Sus scrofa)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Sus scrofa)
CoA-SH [cytosol]
Metabolism of steroids (Sus scrofa)
Bile acid and bile salt metabolism (Sus scrofa)
Recycling of bile acids and salts (Sus scrofa)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Sus scrofa)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Sus scrofa)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Sus scrofa)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Sus scrofa)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
CoA-SH [cytosol]
Cholesterol biosynthesis (Sus scrofa)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Sus scrofa)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Sus scrofa)
CoA-SH [cytosol]
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Sus scrofa)
CoA-SH [cytosol]
Phospholipid metabolism (Sus scrofa)
Glycerophospholipid biosynthesis (Sus scrofa)
Acyl chain remodeling of CL (Sus scrofa)
DLCL is acylated to MLCL by LCLAT1 (ER) (Sus scrofa)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Sus scrofa)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Sus scrofa)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Sus scrofa)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Sus scrofa)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Sus scrofa)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Sus scrofa)
1-acyl LPC is acylated to PC by LPCAT (Sus scrofa)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Sus scrofa)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Sus scrofa)
1-acyl LPE is acylated to PE by LPEAT (Sus scrofa)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Sus scrofa)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Sus scrofa)
1-acyl LPG is acylated to PG by LPGAT (Sus scrofa)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Sus scrofa)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Sus scrofa)
1-acyl LPI is acylated to PI by MBOAT7 (Sus scrofa)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Sus scrofa)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Sus scrofa)
1-acyl LPS is acylated to PS by LPSAT (Sus scrofa)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Sus scrofa)
CoA-SH [cytosol]
Synthesis of PA (Sus scrofa)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Sus scrofa)
CoA-SH [cytosol]
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Sus scrofa)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Sus scrofa)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Sus scrofa)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Sus scrofa)
CoA-SH [cytosol]
Synthesis of PC (Sus scrofa)
Cho is acetylated to AcCho by CHAT (Sus scrofa)
CoA-SH [cytosol]
Sphingolipid metabolism (Sus scrofa)
Sphingolipid de novo biosynthesis (Sus scrofa)
Ceramide synthases transfer acyl-CoA onto sphingoid (Sus scrofa)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Sus scrofa)
CoA-SH [cytosol]
Triglyceride metabolism (Sus scrofa)
Triglyceride biosynthesis (Sus scrofa)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Sus scrofa)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Sus scrofa)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Sus scrofa)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Sus scrofa)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Sus scrofa)
Wax biosynthesis (Sus scrofa)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Sus scrofa)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Sus scrofa)
CoA-SH [cytosol]
FAR1 reduces PalmCoA to HXOL (Sus scrofa)
CoA-SH [cytosol]
FAR2 reduces PalmCoA to HXOL (Sus scrofa)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Sus scrofa)
Metabolism of water-soluble vitamins and cofactors (Sus scrofa)
Vitamin B5 (pantothenate) metabolism (Sus scrofa)
Coenzyme A biosynthesis (Sus scrofa)
COASY phosphorylates DP-CoA (Sus scrofa)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Sus scrofa)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Sus scrofa)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Sus scrofa)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Sus scrofa)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Sus scrofa)
CoA-SH [cytosol]
Metabolism of proteins (Sus scrofa)
Post-translational protein modification (Sus scrofa)
Asparagine N-linked glycosylation (Sus scrofa)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Sus scrofa)
Synthesis of substrates in N-glycan biosythesis (Sus scrofa)
Synthesis of UDP-N-acetyl-glucosamine (Sus scrofa)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Sus scrofa)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Sus scrofa)
Synthesis of glycosylphosphatidylinositol (GPI) (Sus scrofa)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Sus scrofa)
CoA-SH [cytosol]
Surfactant metabolism (Sus scrofa)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Sus scrofa)
CoA-SH [cytosol]
Neuronal System (Sus scrofa)
Transmission across Chemical Synapses (Sus scrofa)
Neurotransmitter release cycle (Sus scrofa)
Acetylcholine Neurotransmitter Release Cycle (Sus scrofa)
Cho is acetylated to AcCho by CHAT (Sus scrofa)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Sus scrofa)
Cilium Assembly (Sus scrofa)
ATAT acetylates microtubules (Sus scrofa)
CoA-SH [cytosol]
HDAC6 deacetylates microtubules (Sus scrofa)
CoA-SH [cytosol]
Sensory Perception (Sus scrofa)
Visual phototransduction (Sus scrofa)
The phototransduction cascade (Sus scrofa)
Inactivation, recovery and regulation of the phototransduction cascade (Sus scrofa)
NMT1/2 transfer MYS to GNAT1 (Sus scrofa)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Sus scrofa)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Sus scrofa)
CoA-SH [cytosol]
Signal Transduction (Sus scrofa)
MAPK family signaling cascades (Sus scrofa)
MAPK1/MAPK3 signaling (Sus scrofa)
RAF/MAP kinase cascade (Sus scrofa)
RAS processing (Sus scrofa)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Sus scrofa)
CoA-SH [cytosol]
Signaling by Nuclear Receptors (Sus scrofa)
ESR-mediated signaling (Sus scrofa)
Extra-nuclear estrogen signaling (Sus scrofa)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Sus scrofa)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Sus scrofa)
CPT1A,B transfers PALM to CAR (Sus scrofa)
CoA-SH [cytosol]
Transport of small molecules (Sus scrofa)
Plasma lipoprotein assembly, remodeling, and clearance (Sus scrofa)
Plasma lipoprotein assembly (Sus scrofa)
HDL assembly (Sus scrofa)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Sus scrofa)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Sus scrofa)
LDL clearance (Sus scrofa)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Sus scrofa)
CoA-SH [cytosol]
Vesicle-mediated transport (Sus scrofa)
Membrane Trafficking (Sus scrofa)
Intra-Golgi and retrograde Golgi-to-ER traffic (Sus scrofa)
Golgi-to-ER retrograde transport (Sus scrofa)
COPI-independent Golgi-to-ER retrograde traffic (Sus scrofa)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Sus scrofa)
CoA-SH [cytosol]
Metabolism (Xenopus tropicalis)
Biological oxidations (Xenopus tropicalis)
Phase I - Functionalization of compounds (Xenopus tropicalis)
Ethanol oxidation (Xenopus tropicalis)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Xenopus tropicalis)
CoA-SH [cytosol]
Integration of energy metabolism (Xenopus tropicalis)
Regulation of insulin secretion (Xenopus tropicalis)
Free fatty acids regulate insulin secretion (Xenopus tropicalis)
Intracellular metabolism of fatty acids regulates insulin secretion (Xenopus tropicalis)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Xenopus tropicalis)
CoA-SH [cytosol]
Metabolism of amino acids and derivatives (Xenopus tropicalis)
Metabolism of polyamines (Xenopus tropicalis)
Interconversion of polyamines (Xenopus tropicalis)
Spermidine => N-acetylated spermidine (Xenopus tropicalis)
CoA-SH [cytosol]
Spermine => N-acetylated spermine (Xenopus tropicalis)
CoA-SH [cytosol]
Metabolism of carbohydrates (Xenopus tropicalis)
Glycosaminoglycan metabolism (Xenopus tropicalis)
Heparan sulfate/heparin (HS-GAG) metabolism (Xenopus tropicalis)
HS-GAG degradation (Xenopus tropicalis)
HGSNAT oligomer acetylates Heparan chain(1) (Xenopus tropicalis)
CoA-SH [cytosol]
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Xenopus tropicalis)
CoA-SH [cytosol]
Metabolism of lipids (Xenopus tropicalis)
Fatty acid metabolism (Xenopus tropicalis)
Carnitine metabolism (Xenopus tropicalis)
CPT1A,B transfers PALM to CAR (Xenopus tropicalis)
CoA-SH [cytosol]
Fatty acyl-CoA biosynthesis (Xenopus tropicalis)
ACLY tetramer transforms CIT to Ac-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
Synthesis of very long-chain fatty acyl-CoAs (Xenopus tropicalis)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
ACSL3,4 ligate CoA to AA to form AA-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Xenopus tropicalis)
CoA-SH [cytosol]
Mitochondrial Fatty Acid Beta-Oxidation (Xenopus tropicalis)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
Ketone body metabolism (Xenopus tropicalis)
Synthesis of Ketone Bodies (Xenopus tropicalis)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
Metabolism of steroids (Xenopus tropicalis)
Bile acid and bile salt metabolism (Xenopus tropicalis)
Recycling of bile acids and salts (Xenopus tropicalis)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Xenopus tropicalis)
CoA-SH [cytosol]
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts (Xenopus tropicalis)
Synthesis of bile acids and bile salts via 24-hydroxycholesterol (Xenopus tropicalis)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
CoA-SH [cytosol]
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
CoA-SH [cytosol]
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
CoA-SH [cytosol]
Synthesis of bile acids and bile salts via 7alpha-hydroxycholesterol (Xenopus tropicalis)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
CoA-SH [cytosol]
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
CoA-SH [cytosol]
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
CoA-SH [cytosol]
Cholesterol biosynthesis (Xenopus tropicalis)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
HMGCR dimer reduces bHMG-CoA to MVA (Xenopus tropicalis)
CoA-SH [cytosol]
Phospholipid metabolism (Xenopus tropicalis)
Glycerophospholipid biosynthesis (Xenopus tropicalis)
Acyl chain remodeling of CL (Xenopus tropicalis)
DLCL is acylated to MLCL by LCLAT1 (ER) (Xenopus tropicalis)
CoA-SH [cytosol]
MLCL is acylated to CL by LCLAT1 (ER) (Xenopus tropicalis)
CoA-SH [cytosol]
Acyl chain remodeling of DAG and TAG (Xenopus tropicalis)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Xenopus tropicalis)
CoA-SH [cytosol]
DAG is acylated to TAG by DGAT1/2 (Xenopus tropicalis)
CoA-SH [cytosol]
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Xenopus tropicalis)
CoA-SH [cytosol]
Acyl chain remodelling of PC (Xenopus tropicalis)
1-acyl LPC is acylated to PC by LPCAT (Xenopus tropicalis)
CoA-SH [cytosol]
2-acyl LPC is acylated to PC by LPCAT (Xenopus tropicalis)
CoA-SH [cytosol]
Acyl chain remodelling of PE (Xenopus tropicalis)
1-acyl LPE is acylated to PE by LPEAT (Xenopus tropicalis)
CoA-SH [cytosol]
2-acyl LPE is acylated to PE by LPEAT (Xenopus tropicalis)
CoA-SH [cytosol]
Acyl chain remodelling of PG (Xenopus tropicalis)
1-acyl LPG is acylated to PG by LPGAT (Xenopus tropicalis)
CoA-SH [cytosol]
2-acyl LPG is acylated to PG by LPGAT (Xenopus tropicalis)
CoA-SH [cytosol]
Acyl chain remodelling of PI (Xenopus tropicalis)
1-acyl LPI is acylated to PI by MBOAT7 (Xenopus tropicalis)
CoA-SH [cytosol]
2-acyl LPI is acylated to PI by MBOAT7 (Xenopus tropicalis)
CoA-SH [cytosol]
Acyl chain remodelling of PS (Xenopus tropicalis)
1-acyl LPS is acylated to PS by LPSAT (Xenopus tropicalis)
CoA-SH [cytosol]
2-acyl LPS is acylated to PS by LPSAT (Xenopus tropicalis)
CoA-SH [cytosol]
Synthesis of PA (Xenopus tropicalis)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Xenopus tropicalis)
CoA-SH [cytosol]
DHAP is converted to 1-acyl GO3P by GNPAT (Xenopus tropicalis)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by AGPAT6 (Xenopus tropicalis)
CoA-SH [cytosol]
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Xenopus tropicalis)
CoA-SH [cytosol]
Sphingolipid metabolism (Xenopus tropicalis)
Sphingolipid de novo biosynthesis (Xenopus tropicalis)
Ceramide synthases transfer acyl-CoA onto sphingoid (Xenopus tropicalis)
CoA-SH [cytosol]
SPTLC complexes transfer acyl-CoA onto serine (Xenopus tropicalis)
CoA-SH [cytosol]
Triglyceride metabolism (Xenopus tropicalis)
Triglyceride biosynthesis (Xenopus tropicalis)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Xenopus tropicalis)
CoA-SH [cytosol]
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Xenopus tropicalis)
CoA-SH [cytosol]
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Xenopus tropicalis)
CoA-SH [cytosol]
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Xenopus tropicalis)
CoA-SH [cytosol]
Wax and plasmalogen biosynthesis (Xenopus tropicalis)
Wax biosynthesis (Xenopus tropicalis)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Xenopus tropicalis)
CoA-SH [cytosol]
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Xenopus tropicalis)
CoA-SH [cytosol]
Metabolism of vitamins and cofactors (Xenopus tropicalis)
Metabolism of water-soluble vitamins and cofactors (Xenopus tropicalis)
Vitamin B5 (pantothenate) metabolism (Xenopus tropicalis)
Coenzyme A biosynthesis (Xenopus tropicalis)
COASY phosphorylates DP-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
DCAKD phosphorylates DP-CoA (Xenopus tropicalis)
CoA-SH [cytosol]
PANK2 phosphorylates PanK (Xenopus tropicalis)
CoA-SH [cytosol]
Phosphopantetheine conjugation of the ACP domain of FAS (Xenopus tropicalis)
CoA-SH [cytosol]
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Xenopus tropicalis)
CoA-SH [cytosol]
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Xenopus tropicalis)
CoA-SH [cytosol]
Metabolism of proteins (Xenopus tropicalis)
Post-translational protein modification (Xenopus tropicalis)
Asparagine N-linked glycosylation (Xenopus tropicalis)
Biosynthesis of the N-glycan precursor (dolichol lipid-linked oligosaccharide, LLO) and transfer to a nascent protein (Xenopus tropicalis)
Synthesis of substrates in N-glycan biosythesis (Xenopus tropicalis)
Synthesis of UDP-N-acetyl-glucosamine (Xenopus tropicalis)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Xenopus tropicalis)
CoA-SH [cytosol]
Post-translational modification: synthesis of GPI-anchored proteins (Xenopus tropicalis)
Synthesis of glycosylphosphatidylinositol (GPI) (Xenopus tropicalis)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Xenopus tropicalis)
CoA-SH [cytosol]
Surfactant metabolism (Xenopus tropicalis)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Xenopus tropicalis)
CoA-SH [cytosol]
Organelle biogenesis and maintenance (Xenopus tropicalis)
Cilium Assembly (Xenopus tropicalis)
ATAT acetylates microtubules (Xenopus tropicalis)
CoA-SH [cytosol]
Sensory Perception (Xenopus tropicalis)
Visual phototransduction (Xenopus tropicalis)
The phototransduction cascade (Xenopus tropicalis)
Inactivation, recovery and regulation of the phototransduction cascade (Xenopus tropicalis)
NMT1/2 transfer MYS to GNAT1 (Xenopus tropicalis)
CoA-SH [cytosol]
The retinoid cycle in cones (daylight vision) (Xenopus tropicalis)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Xenopus tropicalis)
CoA-SH [cytosol]
Signal Transduction (Xenopus tropicalis)
Signaling by Nuclear Receptors (Xenopus tropicalis)
ESR-mediated signaling (Xenopus tropicalis)
Extra-nuclear estrogen signaling (Xenopus tropicalis)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Xenopus tropicalis)
CoA-SH [cytosol]
Signaling by Retinoic Acid (Xenopus tropicalis)
CPT1A,B transfers PALM to CAR (Xenopus tropicalis)
CoA-SH [cytosol]
Transport of small molecules (Xenopus tropicalis)
Plasma lipoprotein assembly, remodeling, and clearance (Xenopus tropicalis)
Plasma lipoprotein assembly (Xenopus tropicalis)
HDL assembly (Xenopus tropicalis)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Xenopus tropicalis)
CoA-SH [cytosol]
Plasma lipoprotein clearance (Xenopus tropicalis)
LDL clearance (Xenopus tropicalis)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Xenopus tropicalis)
CoA-SH [cytosol]
Vesicle-mediated transport (Xenopus tropicalis)
Membrane Trafficking (Xenopus tropicalis)
Intra-Golgi and retrograde Golgi-to-ER traffic (Xenopus tropicalis)
Golgi-to-ER retrograde transport (Xenopus tropicalis)
COPI-independent Golgi-to-ER retrograde traffic (Xenopus tropicalis)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Xenopus tropicalis)
CoA-SH [cytosol]
External Reference Information
External Reference
coenzyme A(4-) [ChEBI:57287]
Participates
as an input of
HDAC6 deacetylates microtubules (Plasmodium falciparum)
HDAC6 deacetylates microtubules (Dictyostelium discoideum)
HDAC6 deacetylates microtubules (Sus scrofa)
HDAC6 deacetylates microtubules (Bos taurus)
HDAC6 deacetylates microtubules (Canis familiaris)
HDAC6 deacetylates microtubules (Mus musculus)
HDAC6 deacetylates microtubules (Homo sapiens)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Gallus gallus)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Gallus gallus)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Gallus gallus)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
TetraHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Gallus gallus)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
TetraHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Gallus gallus)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
DHCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Gallus gallus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
DHCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Gallus gallus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Saccharomyces cerevisiae)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Caenorhabditis elegans)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Drosophila melanogaster)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Gallus gallus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Xenopus tropicalis)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Sus scrofa)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Bos taurus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Canis familiaris)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Rattus norvegicus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Mus musculus)
3,7,24THCA is conjugated with Coenzyme A (SLC27A2 VLCS) (Homo sapiens)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Saccharomyces cerevisiae)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Caenorhabditis elegans)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Drosophila melanogaster)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Gallus gallus)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Xenopus tropicalis)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Danio rerio)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Sus scrofa)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Bos taurus)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Canis familiaris)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Rattus norvegicus)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Mus musculus)
Cytosolic cholate and chenodeoxycholate are conjugated with Coenzyme A (SLC27A5 BACS) (Homo sapiens)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Plasmodium falciparum)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Caenorhabditis elegans)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Drosophila melanogaster)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Gallus gallus)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Xenopus tropicalis)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Danio rerio)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Sus scrofa)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Bos taurus)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Canis familiaris)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Rattus norvegicus)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Mus musculus)
SLC25A42 exchanges cytosolic CoA-SH for mitochondrial matrix ADP (Homo sapiens)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Plasmodium falciparum)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Saccharomyces cerevisiae)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Schizosaccharomyces pombe)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Dictyostelium discoideum)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Gallus gallus)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Xenopus tropicalis)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Danio rerio)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Sus scrofa)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Bos taurus)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Canis familiaris)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Rattus norvegicus)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Mus musculus)
SLC25A16 transports cytosolic CoA-SH to mitochondrial matrix (Homo sapiens)
Phosphopantetheine conjugation of the ACP domain of FAS (Dictyostelium discoideum)
Phosphopantetheine conjugation of the ACP domain of FAS (Caenorhabditis elegans)
Phosphopantetheine conjugation of the ACP domain of FAS (Drosophila melanogaster)
Phosphopantetheine conjugation of the ACP domain of FAS (Gallus gallus)
Phosphopantetheine conjugation of the ACP domain of FAS (Xenopus tropicalis)
Phosphopantetheine conjugation of the ACP domain of FAS (Sus scrofa)
Phosphopantetheine conjugation of the ACP domain of FAS (Bos taurus)
Phosphopantetheine conjugation of the ACP domain of FAS (Canis familiaris)
Phosphopantetheine conjugation of the ACP domain of FAS (Rattus norvegicus)
Phosphopantetheine conjugation of the ACP domain of FAS (Mus musculus)
Phosphopantetheine conjugation of the ACP domain of FAS (Homo sapiens)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Plasmodium falciparum)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Saccharomyces cerevisiae)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Schizosaccharomyces pombe)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Dictyostelium discoideum)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Caenorhabditis elegans)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Drosophila melanogaster)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Gallus gallus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Xenopus tropicalis)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Sus scrofa)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Bos taurus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Canis familiaris)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Rattus norvegicus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Mus musculus)
acetate + CoA + ATP => acetyl-CoA + AMP + pyrophosphate [cytosolic] (Homo sapiens)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Caenorhabditis elegans)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Gallus gallus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Xenopus tropicalis)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Danio rerio)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Bos taurus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Rattus norvegicus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Mus musculus)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Homo sapiens)
AACS ligates CoA-SH to ACA, forming ACA-CoA (Sus scrofa)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Saccharomyces cerevisiae)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Caenorhabditis elegans)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Drosophila melanogaster)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Gallus gallus)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Xenopus tropicalis)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Sus scrofa)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Bos taurus)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Canis familiaris)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Rattus norvegicus)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Mus musculus)
SLC27A2 ligates CoA to bempedoic acid to form ETC-1002-CoA (Homo sapiens)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Plasmodium falciparum)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Saccharomyces cerevisiae)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Schizosaccharomyces pombe)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Dictyostelium discoideum)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Caenorhabditis elegans)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Drosophila melanogaster)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Gallus gallus)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Xenopus tropicalis)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Danio rerio)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Sus scrofa)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Bos taurus)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Canis familiaris)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Rattus norvegicus)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Mus musculus)
ACSL1,3,5,6 ligate CoA to PALM to form PALM-CoA (Homo sapiens)
ACSL3,4 ligate CoA to AA to form AA-CoA (Saccharomyces cerevisiae)
ACSL3,4 ligate CoA to AA to form AA-CoA (Schizosaccharomyces pombe)
ACSL3,4 ligate CoA to AA to form AA-CoA (Caenorhabditis elegans)
ACSL3,4 ligate CoA to AA to form AA-CoA (Drosophila melanogaster)
ACSL3,4 ligate CoA to AA to form AA-CoA (Gallus gallus)
ACSL3,4 ligate CoA to AA to form AA-CoA (Xenopus tropicalis)
ACSL3,4 ligate CoA to AA to form AA-CoA (Danio rerio)
ACSL3,4 ligate CoA to AA to form AA-CoA (Sus scrofa)
ACSL3,4 ligate CoA to AA to form AA-CoA (Bos taurus)
ACSL3,4 ligate CoA to AA to form AA-CoA (Canis familiaris)
ACSL3,4 ligate CoA to AA to form AA-CoA (Rattus norvegicus)
ACSL3,4 ligate CoA to AA to form AA-CoA (Mus musculus)
ACSL3,4 ligate CoA to AA to form AA-CoA (Homo sapiens)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Dictyostelium discoideum)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Drosophila melanogaster)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Gallus gallus)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Sus scrofa)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Canis familiaris)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Rattus norvegicus)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Mus musculus)
ACSBG1,2 ligates CoA-SH to VLCFA, forming VLCFA-CoA (Homo sapiens)
ACLY tetramer transforms CIT to Ac-CoA (Schizosaccharomyces pombe)
ACLY tetramer transforms CIT to Ac-CoA (Dictyostelium discoideum)
ACLY tetramer transforms CIT to Ac-CoA (Caenorhabditis elegans)
ACLY tetramer transforms CIT to Ac-CoA (Drosophila melanogaster)
ACLY tetramer transforms CIT to Ac-CoA (Gallus gallus)
ACLY tetramer transforms CIT to Ac-CoA (Xenopus tropicalis)
ACLY tetramer transforms CIT to Ac-CoA (Danio rerio)
ACLY tetramer transforms CIT to Ac-CoA (Sus scrofa)
ACLY tetramer transforms CIT to Ac-CoA (Bos taurus)
ACLY tetramer transforms CIT to Ac-CoA (Canis familiaris)
ACLY tetramer transforms CIT to Ac-CoA (Rattus norvegicus)
ACLY tetramer transforms CIT to Ac-CoA (Mus musculus)
ACLY tetramer transforms CIT to Ac-CoA (Homo sapiens)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Saccharomyces cerevisiae)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Schizosaccharomyces pombe)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Caenorhabditis elegans)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Drosophila melanogaster)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Gallus gallus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Xenopus tropicalis)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Danio rerio)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Sus scrofa)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Bos taurus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Canis familiaris)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Rattus norvegicus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Mus musculus)
ACSL3,4 ligates coenzyme A (CoA-SH) to palmitate yielding palmitoyl-coenzyme A in the pancreatic beta cell (Homo sapiens)
Deacetylation of cleaved cohesin (Gallus gallus)
Deacetylation of cleaved cohesin (Sus scrofa)
Deacetylation of cleaved cohesin (Bos taurus)
Deacetylation of cleaved cohesin (Canis familiaris)
Deacetylation of cleaved cohesin (Rattus norvegicus)
Deacetylation of cleaved cohesin (Mus musculus)
Deacetylation of cleaved cohesin (Homo sapiens)
Deacetylation of cohesin (Dictyostelium discoideum)
Deacetylation of cohesin (Gallus gallus)
Deacetylation of cohesin (Danio rerio)
Deacetylation of cohesin (Sus scrofa)
Deacetylation of cohesin (Bos taurus)
Deacetylation of cohesin (Canis familiaris)
Deacetylation of cohesin (Rattus norvegicus)
Deacetylation of cohesin (Mus musculus)
Deacetylation of cohesin (Homo sapiens)
Deacetylation of cohesin (Saccharomyces cerevisiae)
as an output of
sphinganine + stearyl-CoA => dihydroceramide + CoASH (Gallus gallus)
palmitoyl-CoA + serine => 3-dehydrosphinganine + CoASH + CO2 (Gallus gallus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Saccharomyces cerevisiae)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Drosophila melanogaster)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Gallus gallus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Xenopus tropicalis)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Danio rerio)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Sus scrofa)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Bos taurus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Canis familiaris)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Rattus norvegicus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Mus musculus)
LPAAT3 acylates lysophosphatidylcholine to yield phosphatidylcholine (Homo sapiens)
NatC acetylates ARFFRP1 (Homo sapiens)
ATAT acetylates microtubules (Plasmodium falciparum)
ATAT acetylates microtubules (Xenopus tropicalis)
ATAT acetylates microtubules (Sus scrofa)
ATAT acetylates microtubules (Bos taurus)
ATAT acetylates microtubules (Canis familiaris)
ATAT acetylates microtubules (Rattus norvegicus)
ATAT acetylates microtubules (Mus musculus)
ATAT acetylates microtubules (Homo sapiens)
Pks5 transforms LFCA adenylate ester to mycocerosyl (Mycobacterium tuberculosis)
desacetylmycothiol is acetylated to mycothiol using acetyl-CoA (Mycobacterium tuberculosis)
acetylation of serine (Mycobacterium tuberculosis)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Plasmodium falciparum)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Saccharomyces cerevisiae)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Schizosaccharomyces pombe)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Dictyostelium discoideum)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Caenorhabditis elegans)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Drosophila melanogaster)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Gallus gallus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Xenopus tropicalis)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Sus scrofa)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Bos taurus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Canis familiaris)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Rattus norvegicus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Mus musculus)
glucosaminyl-PI + fatty acyl-CoA -> glucosaminyl-acyl-PI + CoA-SH (Homo sapiens)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Saccharomyces cerevisiae)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Schizosaccharomyces pombe)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Dictyostelium discoideum)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Caenorhabditis elegans)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Drosophila melanogaster)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Gallus gallus)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Xenopus tropicalis)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Danio rerio)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Sus scrofa)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Bos taurus)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Canis familiaris)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Rattus norvegicus)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Mus musculus)
AWAT2 transfers PALM from PALM-CoA to atROL, forming atR-PALM (Homo sapiens)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Saccharomyces cerevisiae)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Schizosaccharomyces pombe)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Dictyostelium discoideum)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Caenorhabditis elegans)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Drosophila melanogaster)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Gallus gallus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Xenopus tropicalis)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Danio rerio)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Sus scrofa)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Bos taurus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Canis familiaris)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Rattus norvegicus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Mus musculus)
AWAT2 transfers PALM from PALM-CoA to HXOL, forming palmityl palmitate ester (Homo sapiens)
1-acyl LPG is acylated to PG by LPGAT (Plasmodium falciparum)
1-acyl LPG is acylated to PG by LPGAT (Dictyostelium discoideum)
1-acyl LPG is acylated to PG by LPGAT (Danio rerio)
2-acyl LPG is acylated to PG by LPGAT (Plasmodium falciparum)
2-acyl LPG is acylated to PG by LPGAT (Dictyostelium discoideum)
2-acyl LPG is acylated to PG by LPGAT (Danio rerio)
1-acyl LPG is acylated to PG by LPGAT (Saccharomyces cerevisiae)
2-acyl LPG is acylated to PG by LPGAT (Saccharomyces cerevisiae)
1-acyl LPG is acylated to PG by LPGAT (Schizosaccharomyces pombe)
2-acyl LPG is acylated to PG by LPGAT (Schizosaccharomyces pombe)
2-acyl LPG is acylated to PG by LPGAT (Canis familiaris)
1-acyl LPG is acylated to PG by LPGAT (Canis familiaris)
2-acyl LPG is acylated to PG by LPGAT (Caenorhabditis elegans)
1-acyl LPG is acylated to PG by LPGAT (Caenorhabditis elegans)
1-acyl LPG is acylated to PG by LPGAT (Drosophila melanogaster)
2-acyl LPG is acylated to PG by LPGAT (Drosophila melanogaster)
1-acyl LPG is acylated to PG by LPGAT (Gallus gallus)
2-acyl LPG is acylated to PG by LPGAT (Gallus gallus)
2-acyl LPG is acylated to PG by LPGAT (Xenopus tropicalis)
1-acyl LPG is acylated to PG by LPGAT (Xenopus tropicalis)
1-acyl LPG is acylated to PG by LPGAT (Sus scrofa)
2-acyl LPG is acylated to PG by LPGAT (Sus scrofa)
2-acyl LPG is acylated to PG by LPGAT (Bos taurus)
1-acyl LPG is acylated to PG by LPGAT (Bos taurus)
1-acyl LPG is acylated to PG by LPGAT (Rattus norvegicus)
2-acyl LPG is acylated to PG by LPGAT (Rattus norvegicus)
2-acyl LPG is acylated to PG by LPGAT (Mus musculus)
1-acyl LPG is acylated to PG by LPGAT (Mus musculus)
2-acyl LPG is acylated to PG by LPGAT (Homo sapiens)
1-acyl LPG is acylated to PG by LPGAT (Homo sapiens)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Saccharomyces cerevisiae)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Schizosaccharomyces pombe)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Dictyostelium discoideum)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Caenorhabditis elegans)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Drosophila melanogaster)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Gallus gallus)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Xenopus tropicalis)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Danio rerio)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Sus scrofa)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Bos taurus)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Rattus norvegicus)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Mus musculus)
DGAT2L6,L7P transfer acyl group from acyl-CoA to DAG, forming TAG (Homo sapiens)
DHAP is converted to 1-acyl GO3P by GNPAT (Caenorhabditis elegans)
DHAP is converted to 1-acyl GO3P by GNPAT (Drosophila melanogaster)
DHAP is converted to 1-acyl GO3P by GNPAT (Xenopus tropicalis)
DHAP is converted to 1-acyl GO3P by GNPAT (Sus scrofa)
DHAP is converted to 1-acyl GO3P by GNPAT (Bos taurus)
DHAP is converted to 1-acyl GO3P by GNPAT (Canis familiaris)
DHAP is converted to 1-acyl GO3P by GNPAT (Rattus norvegicus)
DHAP is converted to 1-acyl GO3P by GNPAT (Mus musculus)
DHAP is converted to 1-acyl GO3P by GNPAT (Homo sapiens)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Plasmodium falciparum)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Dictyostelium discoideum)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Caenorhabditis elegans)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Drosophila melanogaster)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Xenopus tropicalis)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Danio rerio)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Sus scrofa)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Bos taurus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Canis familiaris)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Rattus norvegicus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Mus musculus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT1] (Homo sapiens)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Saccharomyces cerevisiae)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Schizosaccharomyces pombe)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Dictyostelium discoideum)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Caenorhabditis elegans)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Drosophila melanogaster)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Gallus gallus)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Xenopus tropicalis)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Danio rerio)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Sus scrofa)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Bos taurus)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Canis familiaris)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Rattus norvegicus)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Mus musculus)
MOGAT1,2,3 transfer acyl group from acyl-CoA to 2-acylglycerol to form DAG (Homo sapiens)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Saccharomyces cerevisiae)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Schizosaccharomyces pombe)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Dictyostelium discoideum)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Caenorhabditis elegans)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Drosophila melanogaster)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Gallus gallus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Xenopus tropicalis)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Danio rerio)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Sus scrofa)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Canis familiaris)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Rattus norvegicus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Mus musculus)
1,2-diacyl-glycerol + acyl-CoA => triacylglycerol + CoASH [DGAT2] (Homo sapiens)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Gallus gallus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Danio rerio)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Sus scrofa)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Bos taurus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Rattus norvegicus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Mus musculus)
NAT1,2 acetylate APAP-Cys to APAP-Mer (Homo sapiens)
Unknown Nat N-acylates Gly in Gnat1 (Bos taurus)
Unknown NAT N-acylates Gly in GNAT1 (Homo sapiens)
NMT1/2 transfer MYS to GNAT1 (Saccharomyces cerevisiae)
NMT1/2 transfer MYS to GNAT1 (Schizosaccharomyces pombe)
NMT1/2 transfer MYS to GNAT1 (Dictyostelium discoideum)
NMT1/2 transfer MYS to GNAT1 (Xenopus tropicalis)
NMT1/2 transfer MYS to GNAT1 (Danio rerio)
NMT1/2 transfer MYS to GNAT1 (Sus scrofa)
NMT1/2 transfer MYS to GNAT1 (Bos taurus)
NMT1/2 transfer MYS to GNAT1 (Canis familiaris)
NMT1/2 transfer MYS to GNAT1 (Rattus norvegicus)
NMT1/2 transfer MYS to GNAT1 (Homo sapiens)
NMT1/2 transfer MYS to GNAT1 (Mus musculus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Dictyostelium discoideum)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Drosophila melanogaster)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Gallus gallus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Xenopus tropicalis)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Danio rerio)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Sus scrofa)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Bos taurus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Canis familiaris)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Rattus norvegicus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Mus musculus)
AWAT2 transfers PALM to 11cROL forming 11cRPALM (Homo sapiens)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Gallus gallus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Xenopus tropicalis)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Danio rerio)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Sus scrofa)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Bos taurus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Canis familiaris)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Rattus norvegicus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Mus musculus)
ZDHHC2 transfers PALM from PALM-CoA to CKAP4 (Homo sapiens)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Caenorhabditis elegans)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Gallus gallus)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Xenopus tropicalis)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Sus scrofa)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Canis familiaris)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Rattus norvegicus)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Mus musculus)
Cytosolic chenodeoxycholoyl-CoA or choloyl-CoA are conjugated with glycine or taurine (Homo sapiens)
Unknown NAT transfers COCH3 to AFXBO-C, AFNBO-C (Homo sapiens)
DCAKD phosphorylates DP-CoA (Plasmodium falciparum)
DCAKD phosphorylates DP-CoA (Saccharomyces cerevisiae)
DCAKD phosphorylates DP-CoA (Schizosaccharomyces pombe)
DCAKD phosphorylates DP-CoA (Caenorhabditis elegans)
DCAKD phosphorylates DP-CoA (Drosophila melanogaster)
DCAKD phosphorylates DP-CoA (Gallus gallus)
DCAKD phosphorylates DP-CoA (Xenopus tropicalis)
DCAKD phosphorylates DP-CoA (Danio rerio)
DCAKD phosphorylates DP-CoA (Sus scrofa)
DCAKD phosphorylates DP-CoA (Bos taurus)
DCAKD phosphorylates DP-CoA (Canis familiaris)
DCAKD phosphorylates DP-CoA (Rattus norvegicus)
DCAKD phosphorylates DP-CoA (Mus musculus)
DCAKD phosphorylates DP-CoA (Homo sapiens)
COASY phosphorylates DP-CoA (Saccharomyces cerevisiae)
COASY phosphorylates DP-CoA (Schizosaccharomyces pombe)
COASY phosphorylates DP-CoA (Dictyostelium discoideum)
COASY phosphorylates DP-CoA (Caenorhabditis elegans)
COASY phosphorylates DP-CoA (Gallus gallus)
COASY phosphorylates DP-CoA (Xenopus tropicalis)
COASY phosphorylates DP-CoA (Danio rerio)
COASY phosphorylates DP-CoA (Sus scrofa)
COASY phosphorylates DP-CoA (Bos taurus)
COASY phosphorylates DP-CoA (Canis familiaris)
COASY phosphorylates DP-CoA (Rattus norvegicus)
COASY phosphorylates DP-CoA (Mus musculus)
COASY phosphorylates DP-CoA (Homo sapiens)
G is palmitoylated (Homo sapiens)
F0 is palmitoylated (Homo sapiens)
N-myristoylation of GAG polyprotein by NMT2 (Homo sapiens)
Myristoylation of Nef (Homo sapiens)
Eis acetylates DUSP16 (Homo sapiens)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Gallus gallus)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Danio rerio)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Sus scrofa)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Bos taurus)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Rattus norvegicus)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Mus musculus)
The acetyl group from acetyl-CoA is transferred to the NAT2 (Homo sapiens)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Gallus gallus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Danio rerio)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Sus scrofa)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Bos taurus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Rattus norvegicus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Mus musculus)
The acetyl group from acetyl-CoA is transferred to the NAT1 (Homo sapiens)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Caenorhabditis elegans)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Drosophila melanogaster)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Gallus gallus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Xenopus tropicalis)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Danio rerio)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Sus scrofa)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Bos taurus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Canis familiaris)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Rattus norvegicus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Mus musculus)
SOAT1,2 transfer acyl group to CHOL forming CHEST (Homo sapiens)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Drosophila melanogaster)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Gallus gallus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Xenopus tropicalis)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Danio rerio)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Sus scrofa)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Bos taurus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Canis familiaris)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Rattus norvegicus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Mus musculus)
ZDHCC8 transfers PALM from PALM-CoA to ABCA1 tetramer (Homo sapiens)
HGSNAT oligomer acetylates Heparan chain(1) (Dictyostelium discoideum)
HGSNAT oligomer acetylates Heparan chain(1) (Drosophila melanogaster)
HGSNAT oligomer acetylates Heparan chain(1) (Gallus gallus)
HGSNAT oligomer acetylates Heparan chain(1) (Xenopus tropicalis)
HGSNAT oligomer acetylates Heparan chain(1) (Sus scrofa)
HGSNAT oligomer acetylates Heparan chain(1) (Bos taurus)
HGSNAT oligomer acetylates Heparan chain(1) (Canis familiaris)
HGSNAT oligomer acetylates Heparan chain(1) (Rattus norvegicus)
HGSNAT oligomer acetylates Heparan chain(1) (Mus musculus)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Dictyostelium discoideum)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Drosophila melanogaster)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Gallus gallus)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Xenopus tropicalis)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Sus scrofa)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Bos taurus)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Canis familiaris)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Rattus norvegicus)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Mus musculus)
HGSNAT oligomer acetylates Heparan sulfate chain(3) (Homo sapiens)
HGSNAT oligomer acetylates Heparan chain(1) (Homo sapiens)
Ceramide synthases transfer acyl-CoA onto sphingoid (Plasmodium falciparum)
Ceramide synthases transfer acyl-CoA onto sphingoid (Saccharomyces cerevisiae)
Ceramide synthases transfer acyl-CoA onto sphingoid (Schizosaccharomyces pombe)
Ceramide synthases transfer acyl-CoA onto sphingoid (Dictyostelium discoideum)
Ceramide synthases transfer acyl-CoA onto sphingoid (Caenorhabditis elegans)
Ceramide synthases transfer acyl-CoA onto sphingoid (Drosophila melanogaster)
Ceramide synthases transfer acyl-CoA onto sphingoid (Gallus gallus)
Ceramide synthases transfer acyl-CoA onto sphingoid (Xenopus tropicalis)
Ceramide synthases transfer acyl-CoA onto sphingoid (Danio rerio)
Ceramide synthases transfer acyl-CoA onto sphingoid (Sus scrofa)
Ceramide synthases transfer acyl-CoA onto sphingoid (Bos taurus)
Ceramide synthases transfer acyl-CoA onto sphingoid (Canis familiaris)
Ceramide synthases transfer acyl-CoA onto sphingoid (Rattus norvegicus)
Ceramide synthases transfer acyl-CoA onto sphingoid (Mus musculus)
SPTLC complexes transfer acyl-CoA onto serine (Drosophila melanogaster)
SPTLC complexes transfer acyl-CoA onto serine (Gallus gallus)
SPTLC complexes transfer acyl-CoA onto serine (Xenopus tropicalis)
SPTLC complexes transfer acyl-CoA onto serine (Danio rerio)
SPTLC complexes transfer acyl-CoA onto serine (Sus scrofa)
SPTLC complexes transfer acyl-CoA onto serine (Bos taurus)
SPTLC complexes transfer acyl-CoA onto serine (Canis familiaris)
SPTLC complexes transfer acyl-CoA onto serine (Rattus norvegicus)
SPTLC complexes transfer acyl-CoA onto serine (Mus musculus)
SPTLC complexes transfer acyl-CoA onto serine (Homo sapiens)
Ceramide synthases transfer acyl-CoA onto sphingoid (Homo sapiens)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Saccharomyces cerevisiae)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Schizosaccharomyces pombe)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Dictyostelium discoideum)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Caenorhabditis elegans)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Drosophila melanogaster)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Gallus gallus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Xenopus tropicalis)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Danio rerio)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Sus scrofa)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Bos taurus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Canis familiaris)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Rattus norvegicus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Mus musculus)
Acetylation of glucosamine 6-phosphate to GlcNAc6P (Homo sapiens)
N-acetylation of serotonin (Saccharomyces cerevisiae)
N-acetylation of serotonin (Schizosaccharomyces pombe)
N-acetylation of serotonin (Gallus gallus)
N-acetylation of serotonin (Danio rerio)
N-acetylation of serotonin (Sus scrofa)
N-acetylation of serotonin (Bos taurus)
N-acetylation of serotonin (Canis familiaris)
N-acetylation of serotonin (Rattus norvegicus)
N-acetylation of serotonin (Mus musculus)
N-acetylation of serotonin (Homo sapiens)
Spermidine => N-acetylated spermidine (Saccharomyces cerevisiae)
Spermidine => N-acetylated spermidine (Schizosaccharomyces pombe)
Spermidine => N-acetylated spermidine (Dictyostelium discoideum)
Spermidine => N-acetylated spermidine (Caenorhabditis elegans)
Spermidine => N-acetylated spermidine (Drosophila melanogaster)
Spermidine => N-acetylated spermidine (Gallus gallus)
Spermidine => N-acetylated spermidine (Xenopus tropicalis)
Spermidine => N-acetylated spermidine (Danio rerio)
Spermidine => N-acetylated spermidine (Sus scrofa)
Spermidine => N-acetylated spermidine (Bos taurus)
Spermidine => N-acetylated spermidine (Canis familiaris)
Spermidine => N-acetylated spermidine (Rattus norvegicus)
Spermidine => N-acetylated spermidine (Mus musculus)
Spermidine => N-acetylated spermidine (Homo sapiens)
Spermine => N-acetylated spermine (Saccharomyces cerevisiae)
Spermine => N-acetylated spermine (Schizosaccharomyces pombe)
Spermine => N-acetylated spermine (Dictyostelium discoideum)
Spermine => N-acetylated spermine (Caenorhabditis elegans)
Spermine => N-acetylated spermine (Drosophila melanogaster)
Spermine => N-acetylated spermine (Gallus gallus)
Spermine => N-acetylated spermine (Xenopus tropicalis)
Spermine => N-acetylated spermine (Danio rerio)
Spermine => N-acetylated spermine (Sus scrofa)
Spermine => N-acetylated spermine (Bos taurus)
Spermine => N-acetylated spermine (Canis familiaris)
Spermine => N-acetylated spermine (Rattus norvegicus)
Spermine => N-acetylated spermine (Mus musculus)
Spermine => N-acetylated spermine (Homo sapiens)
HMGCR dimer reduces bHMG-CoA to MVA (Saccharomyces cerevisiae)
HMGCR dimer reduces bHMG-CoA to MVA (Schizosaccharomyces pombe)
HMGCR dimer reduces bHMG-CoA to MVA (Dictyostelium discoideum)
HMGCR dimer reduces bHMG-CoA to MVA (Caenorhabditis elegans)
HMGCR dimer reduces bHMG-CoA to MVA (Drosophila melanogaster)
HMGCR dimer reduces bHMG-CoA to MVA (Gallus gallus)
HMGCR dimer reduces bHMG-CoA to MVA (Xenopus tropicalis)
HMGCR dimer reduces bHMG-CoA to MVA (Danio rerio)
HMGCR dimer reduces bHMG-CoA to MVA (Sus scrofa)
HMGCR dimer reduces bHMG-CoA to MVA (Bos taurus)
HMGCR dimer reduces bHMG-CoA to MVA (Canis familiaris)
HMGCR dimer reduces bHMG-CoA to MVA (Rattus norvegicus)
HMGCR dimer reduces bHMG-CoA to MVA (Mus musculus)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Saccharomyces cerevisiae)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Schizosaccharomyces pombe)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Dictyostelium discoideum)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Caenorhabditis elegans)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Drosophila melanogaster)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Gallus gallus)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Sus scrofa)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Bos taurus)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Canis familiaris)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Rattus norvegicus)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Mus musculus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Plasmodium falciparum)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Saccharomyces cerevisiae)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Schizosaccharomyces pombe)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Dictyostelium discoideum)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Drosophila melanogaster)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Gallus gallus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Xenopus tropicalis)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Danio rerio)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Sus scrofa)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Bos taurus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Canis familiaris)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Rattus norvegicus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Mus musculus)
ACAT2 condenses 2 Ac-CoA to form ACA-CoA (Homo sapiens)
HMGCS1 condenses Ac-CoA and ACA-CoA to form bHMG-CoA (Homo sapiens)
HMGCR dimer reduces bHMG-CoA to MVA (Homo sapiens)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Plasmodium falciparum)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Saccharomyces cerevisiae)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Schizosaccharomyces pombe)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Dictyostelium discoideum)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Caenorhabditis elegans)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Drosophila melanogaster)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Gallus gallus)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Xenopus tropicalis)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Danio rerio)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Sus scrofa)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Bos taurus)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Canis familiaris)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Rattus norvegicus)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Mus musculus)
ELOVL1,2,3,5 elongate AA-CoA and Mal-CoA to 3ODCT-CoA (Homo sapiens)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Drosophila melanogaster)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Gallus gallus)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Xenopus tropicalis)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Danio rerio)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Sus scrofa)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Bos taurus)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Canis familiaris)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Rattus norvegicus)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Mus musculus)
ELOVL7 elongates ICS-CoA and Mal-CoA to 3ODC-CoA (Homo sapiens)
lignoceroyl-CoA + malonyl-CoA => 3-oxocerotoyl-CoA + CO2 + CoASH [Elovl4] (Mus musculus)
ELOVL1,4 elongate TCS-CoA and Mal-CoA to 3OHC-CoA (Homo sapiens)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Plasmodium falciparum)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Saccharomyces cerevisiae)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Schizosaccharomyces pombe)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Dictyostelium discoideum)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Caenorhabditis elegans)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Drosophila melanogaster)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Gallus gallus)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Xenopus tropicalis)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Danio rerio)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Sus scrofa)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Bos taurus)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Canis familiaris)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Rattus norvegicus)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Mus musculus)
ELOVL3,6,7 elongate PALM-CoA and Mal-CoA to 3OOD-CoA (Homo sapiens)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Dictyostelium discoideum)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Caenorhabditis elegans)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Drosophila melanogaster)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Gallus gallus)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Xenopus tropicalis)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Danio rerio)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Sus scrofa)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Bos taurus)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Canis familiaris)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Rattus norvegicus)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Mus musculus)
acetyl-CoA + 7 malonyl-CoA + 14 NADHP + 14 H+ => palmitate + 7 CO2 + 14 NADP+ + 8 CoASH + 6 H2O (Homo sapiens)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Schizosaccharomyces pombe)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Dictyostelium discoideum)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Caenorhabditis elegans)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Drosophila melanogaster)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Gallus gallus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Xenopus tropicalis)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Sus scrofa)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Bos taurus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Canis familiaris)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Rattus norvegicus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Mus musculus)
Cytosolic ACOTs hydrolyse MCFA-CoA, LCFA-CoA (Homo sapiens)
CPT1A,B transfers PALM to CAR (Caenorhabditis elegans)
CPT1A,B transfers PALM to CAR (Drosophila melanogaster)
CPT1A,B transfers PALM to CAR (Gallus gallus)
CPT1A,B transfers PALM to CAR (Xenopus tropicalis)
CPT1A,B transfers PALM to CAR (Danio rerio)
CPT1A,B transfers PALM to CAR (Sus scrofa)
CPT1A,B transfers PALM to CAR (Bos taurus)
CPT1A,B transfers PALM to CAR (Canis familiaris)
CPT1A,B transfers PALM to CAR (Rattus norvegicus)
CPT1A,B transfers PALM to CAR (Mus musculus)
CPT1A,B transfers PALM to CAR (Homo sapiens)
Cho is acetylated to AcCho by CHAT (Caenorhabditis elegans)
Cho is acetylated to AcCho by CHAT (Drosophila melanogaster)
Cho is acetylated to AcCho by CHAT (Gallus gallus)
Cho is acetylated to AcCho by CHAT (Danio rerio)
Cho is acetylated to AcCho by CHAT (Sus scrofa)
Cho is acetylated to AcCho by CHAT (Bos taurus)
Cho is acetylated to AcCho by CHAT (Canis familiaris)
Cho is acetylated to AcCho by CHAT (Rattus norvegicus)
Cho is acetylated to AcCho by CHAT (Mus musculus)
Cho is acetylated to AcCho by CHAT (Homo sapiens)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Drosophila melanogaster)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Gallus gallus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Xenopus tropicalis)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Danio rerio)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Sus scrofa)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Bos taurus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Canis familiaris)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Rattus norvegicus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Mus musculus)
ZDHHC7, ZDHHC21 palmitoylate ESR1 (Homo sapiens)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Caenorhabditis elegans)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Drosophila melanogaster)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Gallus gallus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Sus scrofa)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Canis familiaris)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Rattus norvegicus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Mus musculus)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Homo sapiens)
S-farn Me-HRAS, -NRAS and -KRAS4A are palmitoylated (Bos taurus)
CREBBP acetylates SARS-CoV-2 N at K375 (Homo sapiens)
MLCL is acylated to CL by LCLAT1 (ER) (Saccharomyces cerevisiae)
MLCL is acylated to CL by LCLAT1 (ER) (Schizosaccharomyces pombe)
MLCL is acylated to CL by LCLAT1 (ER) (Dictyostelium discoideum)
MLCL is acylated to CL by LCLAT1 (ER) (Caenorhabditis elegans)
MLCL is acylated to CL by LCLAT1 (ER) (Gallus gallus)
MLCL is acylated to CL by LCLAT1 (ER) (Xenopus tropicalis)
MLCL is acylated to CL by LCLAT1 (ER) (Danio rerio)
MLCL is acylated to CL by LCLAT1 (ER) (Sus scrofa)
MLCL is acylated to CL by LCLAT1 (ER) (Bos taurus)
MLCL is acylated to CL by LCLAT1 (ER) (Canis familiaris)
MLCL is acylated to CL by LCLAT1 (ER) (Rattus norvegicus)
MLCL is acylated to CL by LCLAT1 (ER) (Mus musculus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Saccharomyces cerevisiae)
DLCL is acylated to MLCL by LCLAT1 (ER) (Schizosaccharomyces pombe)
DLCL is acylated to MLCL by LCLAT1 (ER) (Dictyostelium discoideum)
DLCL is acylated to MLCL by LCLAT1 (ER) (Caenorhabditis elegans)
DLCL is acylated to MLCL by LCLAT1 (ER) (Gallus gallus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Xenopus tropicalis)
DLCL is acylated to MLCL by LCLAT1 (ER) (Danio rerio)
DLCL is acylated to MLCL by LCLAT1 (ER) (Sus scrofa)
DLCL is acylated to MLCL by LCLAT1 (ER) (Bos taurus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Canis familiaris)
DLCL is acylated to MLCL by LCLAT1 (ER) (Rattus norvegicus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Mus musculus)
DLCL is acylated to MLCL by LCLAT1 (ER) (Homo sapiens)
MLCL is acylated to CL by LCLAT1 (ER) (Homo sapiens)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Dictyostelium discoideum)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Caenorhabditis elegans)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Gallus gallus)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Sus scrofa)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Bos taurus)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Canis familiaris)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Rattus norvegicus)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Mus musculus)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Caenorhabditis elegans)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Drosophila melanogaster)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Gallus gallus)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Xenopus tropicalis)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Danio rerio)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Sus scrofa)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Bos taurus)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Canis familiaris)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Rattus norvegicus)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Mus musculus)
G3P is acylated to 1-acyl LPA by GPAM/GPAT2 (OM) (Homo sapiens)
1-acyl LPA is acylated to PA by AGPAT5 (OM) (Homo sapiens)
2-acyl LPS is acylated to PS by LPSAT (Plasmodium falciparum)
2-acyl LPS is acylated to PS by LPSAT (Dictyostelium discoideum)
1-acyl LPS is acylated to PS by LPSAT (Plasmodium falciparum)
1-acyl LPS is acylated to PS by LPSAT (Dictyostelium discoideum)
1-acyl LPS is acylated to PS by LPSAT (Saccharomyces cerevisiae)
2-acyl LPS is acylated to PS by LPSAT (Saccharomyces cerevisiae)
2-acyl LPS is acylated to PS by LPSAT (Schizosaccharomyces pombe)
1-acyl LPS is acylated to PS by LPSAT (Schizosaccharomyces pombe)
1-acyl LPS is acylated to PS by LPSAT (Canis familiaris)
2-acyl LPS is acylated to PS by LPSAT (Canis familiaris)
2-acyl LPS is acylated to PS by LPSAT (Caenorhabditis elegans)
1-acyl LPS is acylated to PS by LPSAT (Caenorhabditis elegans)
2-acyl LPS is acylated to PS by LPSAT (Drosophila melanogaster)
1-acyl LPS is acylated to PS by LPSAT (Drosophila melanogaster)
1-acyl LPS is acylated to PS by LPSAT (Gallus gallus)
2-acyl LPS is acylated to PS by LPSAT (Gallus gallus)
1-acyl LPS is acylated to PS by LPSAT (Xenopus tropicalis)
2-acyl LPS is acylated to PS by LPSAT (Xenopus tropicalis)
2-acyl LPS is acylated to PS by LPSAT (Sus scrofa)
1-acyl LPS is acylated to PS by LPSAT (Sus scrofa)
2-acyl LPS is acylated to PS by LPSAT (Bos taurus)
1-acyl LPS is acylated to PS by LPSAT (Bos taurus)
1-acyl LPS is acylated to PS by LPSAT (Rattus norvegicus)
2-acyl LPS is acylated to PS by LPSAT (Rattus norvegicus)
2-acyl LPS is acylated to PS by LPSAT (Mus musculus)
1-acyl LPS is acylated to PS by LPSAT (Mus musculus)
1-acyl LPS is acylated to PS by LPSAT (Homo sapiens)
2-acyl LPE is acylated to PE by LPEAT (Plasmodium falciparum)
1-acyl LPE is acylated to PE by LPEAT (Plasmodium falciparum)
2-acyl LPE is acylated to PE by LPEAT (Saccharomyces cerevisiae)
1-acyl LPE is acylated to PE by LPEAT (Saccharomyces cerevisiae)
2-acyl LPE is acylated to PE by LPEAT (Schizosaccharomyces pombe)
1-acyl LPE is acylated to PE by LPEAT (Schizosaccharomyces pombe)
2-acyl LPE is acylated to PE by LPEAT (Dictyostelium discoideum)
1-acyl LPE is acylated to PE by LPEAT (Dictyostelium discoideum)
2-acyl LPE is acylated to PE by LPEAT (Caenorhabditis elegans)
1-acyl LPE is acylated to PE by LPEAT (Caenorhabditis elegans)
2-acyl LPE is acylated to PE by LPEAT (Drosophila melanogaster)
1-acyl LPE is acylated to PE by LPEAT (Drosophila melanogaster)
2-acyl LPE is acylated to PE by LPEAT (Gallus gallus)
1-acyl LPE is acylated to PE by LPEAT (Gallus gallus)
2-acyl LPE is acylated to PE by LPEAT (Xenopus tropicalis)
1-acyl LPE is acylated to PE by LPEAT (Xenopus tropicalis)
2-acyl LPE is acylated to PE by LPEAT (Sus scrofa)
1-acyl LPE is acylated to PE by LPEAT (Sus scrofa)
2-acyl LPE is acylated to PE by LPEAT (Bos taurus)
1-acyl LPE is acylated to PE by LPEAT (Bos taurus)
1-acyl LPE is acylated to PE by LPEAT (Canis familiaris)
2-acyl LPE is acylated to PE by LPEAT (Canis familiaris)
1-acyl LPE is acylated to PE by LPEAT (Rattus norvegicus)
2-acyl LPE is acylated to PE by LPEAT (Rattus norvegicus)
1-acyl LPE is acylated to PE by LPEAT (Mus musculus)
2-acyl LPE is acylated to PE by LPEAT (Mus musculus)
1-acyl LPE is acylated to PE by LPEAT (Homo sapiens)
2-acyl LPS is acylated to PS by LPSAT (Homo sapiens)
2-acyl LPC is acylated to PC by LPCAT (Plasmodium falciparum)
1-acyl LPC is acylated to PC by LPCAT (Plasmodium falciparum)
G3P is acylated to 1-acyl LPA by AGPAT6 (Mus musculus)
2-acyl LPC is acylated to PC by LPCAT (Bos taurus)
2-acyl LPI is acylated to PI by MBOAT7 (Canis familiaris)
G3P is acylated to 1-acyl LPA by AGPAT6 (Canis familiaris)
1-acyl LPI is acylated to PI by MBOAT7 (Saccharomyces cerevisiae)
2-acyl LPI is acylated to PI by MBOAT7 (Saccharomyces cerevisiae)
1-acyl LPI is acylated to PI by MBOAT7 (Schizosaccharomyces pombe)
2-acyl LPI is acylated to PI by MBOAT7 (Schizosaccharomyces pombe)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Plasmodium falciparum)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Saccharomyces cerevisiae)
1-acyl LPC is acylated to PC by LPCAT (Saccharomyces cerevisiae)
2-acyl LPC is acylated to PC by LPCAT (Saccharomyces cerevisiae)
2-acyl LPC is acylated to PC by LPCAT (Schizosaccharomyces pombe)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Schizosaccharomyces pombe)
1-acyl LPC is acylated to PC by LPCAT (Schizosaccharomyces pombe)
1-acyl LPC is acylated to PC by LPCAT (Dictyostelium discoideum)
2-acyl LPC is acylated to PC by LPCAT (Dictyostelium discoideum)
2-acyl LPI is acylated to PI by MBOAT7 (Caenorhabditis elegans)
1-acyl LPI is acylated to PI by MBOAT7 (Caenorhabditis elegans)
G3P is acylated to 1-acyl LPA by AGPAT6 (Caenorhabditis elegans)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Caenorhabditis elegans)
1-acyl LPC is acylated to PC by LPCAT (Caenorhabditis elegans)
2-acyl LPC is acylated to PC by LPCAT (Caenorhabditis elegans)
2-acyl LPC is acylated to PC by LPCAT (Drosophila melanogaster)
2-acyl LPI is acylated to PI by MBOAT7 (Drosophila melanogaster)
G3P is acylated to 1-acyl LPA by AGPAT6 (Drosophila melanogaster)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Drosophila melanogaster)
1-acyl LPI is acylated to PI by MBOAT7 (Drosophila melanogaster)
1-acyl LPC is acylated to PC by LPCAT (Drosophila melanogaster)
1-acyl LPC is acylated to PC by LPCAT (Xenopus tropicalis)
2-acyl LPC is acylated to PC by LPCAT (Danio rerio)
1-acyl LPC is acylated to PC by LPCAT (Danio rerio)
G3P is acylated to 1-acyl LPA by AGPAT6 (Danio rerio)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Danio rerio)
G3P is acylated to 1-acyl LPA by AGPAT6 (Gallus gallus)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Gallus gallus)
2-acyl LPC is acylated to PC by LPCAT (Gallus gallus)
1-acyl LPC is acylated to PC by LPCAT (Gallus gallus)
2-acyl LPI is acylated to PI by MBOAT7 (Dictyostelium discoideum)
G3P is acylated to 1-acyl LPA by AGPAT6 (Dictyostelium discoideum)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Dictyostelium discoideum)
1-acyl LPI is acylated to PI by MBOAT7 (Dictyostelium discoideum)
1-acyl LPI is acylated to PI by MBOAT7 (Danio rerio)
2-acyl LPI is acylated to PI by MBOAT7 (Danio rerio)
1-acyl LPI is acylated to PI by MBOAT7 (Sus scrofa)
2-acyl LPI is acylated to PI by MBOAT7 (Sus scrofa)
1-acyl LPI is acylated to PI by MBOAT7 (Bos taurus)
2-acyl LPI is acylated to PI by MBOAT7 (Bos taurus)
1-acyl LPI is acylated to PI by MBOAT7 (Mus musculus)
2-acyl LPI is acylated to PI by MBOAT7 (Mus musculus)
2-acyl LPI is acylated to PI by MBOAT7 (Xenopus tropicalis)
1-acyl LPI is acylated to PI by MBOAT7 (Xenopus tropicalis)
2-acyl LPC is acylated to PC by LPCAT (Xenopus tropicalis)
G3P is acylated to 1-acyl LPA by AGPAT6 (Xenopus tropicalis)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Xenopus tropicalis)
1-acyl LPC is acylated to PC by LPCAT (Sus scrofa)
2-acyl LPC is acylated to PC by LPCAT (Sus scrofa)
G3P is acylated to 1-acyl LPA by AGPAT6 (Sus scrofa)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Sus scrofa)
G3P is acylated to 1-acyl LPA by AGPAT6 (Bos taurus)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Bos taurus)
FAR1 reduces PalmCoA to HXOL (Dictyostelium discoideum)
FAR1 reduces PalmCoA to HXOL (Caenorhabditis elegans)
FAR1 reduces PalmCoA to HXOL (Drosophila melanogaster)
FAR1 reduces PalmCoA to HXOL (Gallus gallus)
FAR1 reduces PalmCoA to HXOL (Sus scrofa)
FAR1 reduces PalmCoA to HXOL (Bos taurus)
FAR1 reduces PalmCoA to HXOL (Canis familiaris)
FAR1 reduces PalmCoA to HXOL (Rattus norvegicus)
FAR1 reduces PalmCoA to HXOL (Mus musculus)
FAR1 reduces PalmCoA to HXOL (Homo sapiens)
FAR2 reduces PalmCoA to HXOL (Dictyostelium discoideum)
FAR2 reduces PalmCoA to HXOL (Caenorhabditis elegans)
FAR2 reduces PalmCoA to HXOL (Drosophila melanogaster)
FAR2 reduces PalmCoA to HXOL (Gallus gallus)
FAR2 reduces PalmCoA to HXOL (Danio rerio)
FAR2 reduces PalmCoA to HXOL (Sus scrofa)
FAR2 reduces PalmCoA to HXOL (Bos taurus)
FAR2 reduces PalmCoA to HXOL (Canis familiaris)
FAR2 reduces PalmCoA to HXOL (Rattus norvegicus)
FAR2 reduces PalmCoA to HXOL (Mus musculus)
FAR2 reduces PalmCoA to HXOL (Homo sapiens)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Canis familiaris)
1-acyl LPI is acylated to PI by MBOAT7 (Canis familiaris)
1-acyl LPC is acylated to PC by LPCAT (Canis familiaris)
2-acyl LPC is acylated to PC by LPCAT (Canis familiaris)
1-acyl LPC is acylated to PC by LPCAT (Bos taurus)
G3P is acylated to 1-acyl LPA by AGPAT6 (Rattus norvegicus)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Caenorhabditis elegans)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Drosophila melanogaster)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Gallus gallus)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Xenopus tropicalis)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Sus scrofa)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Bos taurus)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Canis familiaris)
1-acyl LPI is acylated to PI by MBOAT7 (Homo sapiens)
2-acyl LPI is acylated to PI by MBOAT7 (Homo sapiens)
2-acyl LPC is acylated to PC by LPCAT (Homo sapiens)
1-acyl LPC is acylated to PC by LPCAT (Homo sapiens)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Homo sapiens)
G3P is acylated to 1-acyl LPA by AGPAT6 (Homo sapiens)
2-acyl LPE is acylated to PE by LPEAT (Homo sapiens)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Mus musculus)
1-acyl LPC is acylated to PC by LPCAT (Mus musculus)
2-acyl LPC is acylated to PC by LPCAT (Mus musculus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Mus musculus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Homo sapiens)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Rattus norvegicus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Canis familiaris)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Bos taurus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Sus scrofa)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Danio rerio)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Xenopus tropicalis)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Gallus gallus)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Drosophila melanogaster)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Caenorhabditis elegans)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Dictyostelium discoideum)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Schizosaccharomyces pombe)
AWAT2 transfers acyl group from acyl-CoA to MAG, forming DAG (Saccharomyces cerevisiae)
DAG is acylated to TAG by DGAT1/2 (Mus musculus)
DAG is acylated to TAG by DGAT1/2 (Homo sapiens)
DAG is acylated to TAG by DGAT1/2 (Rattus norvegicus)
DAG is acylated to TAG by DGAT1/2 (Canis familiaris)
DAG is acylated to TAG by DGAT1/2 (Bos taurus)
DAG is acylated to TAG by DGAT1/2 (Sus scrofa)
DAG is acylated to TAG by DGAT1/2 (Danio rerio)
DAG is acylated to TAG by DGAT1/2 (Xenopus tropicalis)
DAG is acylated to TAG by DGAT1/2 (Gallus gallus)
DAG is acylated to TAG by DGAT1/2 (Drosophila melanogaster)
DAG is acylated to TAG by DGAT1/2 (Caenorhabditis elegans)
DAG is acylated to TAG by DGAT1/2 (Plasmodium falciparum)
DAG is acylated to TAG by DGAT1/2 (Dictyostelium discoideum)
DAG is acylated to TAG by DGAT1/2 (Schizosaccharomyces pombe)
DAG is acylated to TAG by DGAT1/2 (Saccharomyces cerevisiae)
2-acyl LPC is acylated to PC by LPCAT (Rattus norvegicus)
1-acyl LPC is acylated to PC by LPCAT (Rattus norvegicus)
1-acyl LPA is acylated to PA by AGPAT (LPAAT) (Rattus norvegicus)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Rattus norvegicus)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Homo sapiens)
glycerol 3-phosphate + acyl-CoA => 1-acylglycerol 3-phosphate + CoASH [mitochondrial membrane-associated] (Mus musculus)
This entity regulates
Negatively
PANK2 phosphorylates PanK
(Drosophila melanogaster)
PANK2 phosphorylates PanK
(Gallus gallus)
PANK2 phosphorylates PanK
(Xenopus tropicalis)
PANK2 phosphorylates PanK
(Sus scrofa)
PANK2 phosphorylates PanK
(Bos taurus)
PANK2 phosphorylates PanK
(Canis familiaris)
PANK2 phosphorylates PanK
(Rattus norvegicus)
PANK2 phosphorylates PanK
(Mus musculus)
PANK2 phosphorylates PanK
(Homo sapiens)
Other forms of this molecule
CoA-SH [extracellular region]
CoA-SH [lysosomal lumen]
CoA-SH [endoplasmic reticulum-Golgi intermediate compartment]
CoA-SH [endoplasmic reticulum lumen]
CoA-SH [mitochondrial matrix]
CoA-SH [peroxisomal matrix]
CoA-SH [nucleoplasm]
Cross References
COMPOUND
C00010
ZINC
000008551087
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