Oxoglutaric acid (YMDB00153)

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Identification

YMDB ID

YMDB00153

Name

Oxoglutaric acid

Species

Saccharomyces cerevisiae

Strain

Baker's yeast

Description

Oxoglutaric acid, also known as oxoglutarate or a-ketoglutarate, belongs to the class of organic compounds known as gamma-keto acids and derivatives. These are organic compounds containing an aldehyde substituted with a keto group on the C4 carbon atom. Oxoglutaric acid is an extremely weak basic (essentially neutral) compound (based on its pKa). Oxoglutaric acid exists in all living species, ranging from bacteria to humans. Within yeast, oxoglutaric acid participates in a number of enzymatic reactions. In particular, ornithine and oxoglutaric acid can be converted into L-glutamic acid and L-glutamic gamma-semialdehyde through its interaction with the enzyme ornithine aminotransferase, mitochondrial. In addition, oxoglutaric acid and ammonium can be biosynthesized from L-glutamic acid; which is catalyzed by the enzyme glutamate dehydrogenase, mitochondrial. In yeast, oxoglutaric acid is involved in the metabolic pathway called the glutamate metabolism pathway. Oxoglutaric acid is a potentially toxic compound.

Structure

MOL SDF 3D-SDF PDB SMILES InChI View 3D Structure

Synonyms

2-Ketoglutarate
2-Ketoglutaric acid
2-Oxo-1,5-pentanedioate
2-Oxo-1,5-pentanedioic acid
2-Oxoglutarate
2-Oxoglutaric acid
2-Oxopentanedioate
2-Oxopentanedioic acid
2-oxopentanedioic acid, ion(2-)
alpha-ketoglutarate
Oxoglutarate
alpha-Ketoglutaric acid
a-Ketoglutarate
a-Ketoglutaric acid
Α-ketoglutarate
Α-ketoglutaric acid
alpha-Ketoglutaric acid, calcium salt (2:1)
alpha-Ketoglutaric acid, sodium salt
Calcium alpha-ketoglutarate
alpha-Ketoglutaric acid, disodium salt
alpha-Ketoglutaric acid, monosodium salt
Calcium ketoglutarate
alpha-Ketoglutaric acid, diammonium salt
alpha-Ketoglutaric acid, dipotassium salt
alpha-Ketoglutaric acid, monopotassium salt
alpha-Ketoglutaric acid, potassium salt
alpha-Oxoglutarate
Oxogluric acid
2 Oxoglutaric acid
Calcium alpha ketoglutarate
Ketoglutaric acid
alpha Ketoglutaric acid
alpha Ketoglutaric acid, potassium salt
2 Ketoglutaric acid
alpha Ketoglutarate
alpha Ketoglutaric acid, diammonium salt
alpha Ketoglutaric acid, dipotassium salt
alpha Ketoglutaric acid, sodium salt
alpha Oxoglutarate
2 Ketoglutarate
alpha Ketoglutaric acid, disodium salt
alpha Ketoglutaric acid, monosodium salt
alpha-Ketoglutarate, calcium
2 Oxoglutarate
Ketoglutaric acids
Oxoglutarates
alpha Ketoglutaric acid, monopotassium salt

CAS number

328-50-7

Weight

Average: 146.0981
Monoisotopic: 146.021523302

InChI Key

KPGXRSRHYNQIFN-UHFFFAOYSA-N

InChI

InChI=1S/C5H6O5/c6-3(5(9)10)1-2-4(7)8/h1-2H2,(H,7,8)(H,9,10)

IUPAC Name

2-oxopentanedioic acid

Traditional IUPAC Name

oxoglutarate

Chemical Formula

C₅H₆O₅

SMILES

[H]OC(=O)C(=O)C([H])([H])C([H])([H])C(=O)O[H]

Chemical Taxonomy

Description

belongs to the class of organic compounds known as gamma-keto acids and derivatives. These are organic compounds containing an aldehyde substituted with a keto group on the C4 carbon atom.

Kingdom

Organic compounds

Super Class

Organic acids and derivatives

Class

Keto acids and derivatives

Sub Class

Gamma-keto acids and derivatives

Direct Parent

Gamma-keto acids and derivatives

Alternative Parents

Substituents

Gamma-keto acid
Short-chain keto acid
Dicarboxylic acid or derivatives
Alpha-keto acid
Alpha-hydroxy ketone
Ketone
Carboxylic acid
Carboxylic acid derivative
Organic oxygen compound
Organic oxide
Hydrocarbon derivative
Organooxygen compound
Carbonyl group
Aliphatic acyclic compound

Molecular Framework

Aliphatic acyclic compounds

External Descriptors

oxo dicarboxylic acid (CHEBI:30915 )

Physical Properties

State

Solid

Charge

Melting point

115.5 °C

Experimental Properties

Property	Value	Reference
Water Solubility	541.5 mg/mL [Free acid, HMP experimental]	PhysProp
LogP	Not Available	PhysProp

Predicted Properties

Property	Value	Source
Water Solubility	53.1 g/L	ALOGPS
logP	-0.6	ALOGPS
logP	-0.11	ChemAxon
logS	-0.44	ALOGPS
pKa (Strongest Acidic)	2.66	ChemAxon
pKa (Strongest Basic)	-9.7	ChemAxon
Physiological Charge	-2	ChemAxon
Hydrogen Acceptor Count	5	ChemAxon
Hydrogen Donor Count	2	ChemAxon
Polar Surface Area	91.67 Å²	ChemAxon
Rotatable Bond Count	4	ChemAxon
Refractivity	28.88 m³·mol⁻¹	ChemAxon
Polarizability	12.17 Å³	ChemAxon
Number of Rings	0	ChemAxon
Bioavailability	1	ChemAxon
Rule of Five	Yes	ChemAxon
Ghose Filter	Yes	ChemAxon
Veber's Rule	Yes	ChemAxon
MDDR-like Rule	Yes	ChemAxon

Biological Properties

Cellular Locations

Cytoplasm
Extracellular
Mitochondrion
Nucleus
Peroxisome

Organoleptic Properties

Flavour/Odour	Source
Odorless	FDB003361

SMPDB Pathways

Tryptophan metabolism	PW002442
Tyrosine metabolism	PW002441
Valine Biosynthesis	PW002474
Valine Degradation	PW002489
Vitamin B6	PW002488

KEGG Pathways

Alanine, aspartate and glutamate metabolism	ec00250
Butanoate metabolism	ec00650
Citrate cycle (TCA cycle)	ec00020
Glyoxylate and dicarboxylate metabolism	ec00630
Histidine metabolism	ec00340

SMPDB Reactions

Saccharopine + NAD + water → NADH + hydron + Oxoglutaric acid + L-Lysine

keto-phenylpyruvic acid + L-Glutamic acid → L-Phenylalanine + Oxoglutaric acid

(4-hydroxyphenyl)pyruvic acid + L-Glutamic acid → Oxoglutaric acid + L-Tyrosine

L-Tryptophan + Oxoglutaric acid → L-Glutamic acid + 3-(indol-3-yl)pyruvate

NADH + Oxoglutaric acid → NAD + L-2-Hydroxyglutaric acid

KEGG Reactions

Oxoglutaric acid + L-Valine ↔ L-Glutamic acid + Alpha-Ketoisovaleric acid

Oxoglutaric acid + L-Valine → L-Glutamic acid + Alpha-Ketoisovaleric acid

Concentrations

Intracellular Concentrations

Intracellular Concentration	Substrate	Growth Conditions	Strain	Citation
410 ± 195 µM	Synthetic medium with 20 g/L glucose	aerobic	Baker's yeast	PMID: 12584756
5500 ± 500 µM	Minimal medium supplemented with ammonia salts and glucose	aerobic;resting cells	Baker's yeast	PMID: 4578278
1300 ± 0 µM	Minimal medium supplemented with ammonia salts and glucose	anaerobic;resting cells	Baker's yeast	PMID: 4578278
10 ± 0 µM	Minimal medium supplemented with ammonia salts and galactose	aerobic;growing cells	Baker's yeast	PMID: 4578278
2500 ± 2300 µM	Minimal medium supplemented with ammonia salts and glucose	aerobic;growing cells	Baker's yeast	PMID: 4578278
5000 ± 200 µM	Synthetic medium with 2% glucose	aerobic;growing cells	Baker's yeast	PMID: 6229402
210 ± 10 µM	Synthetic medium with 2% glucose	aerobic;resting cells	Baker's yeast	PMID: 6229402
1500 ± 400 µM	Synthetic medium with 2% glucose	anaerobic;resting cells	Baker's yeast	PMID: 6229402
3700 ± 700 µM	Synthetic medium with 2% galactose	aerobic;resting cells	Baker's yeast	PMID: 6229402
Conversion Details Here

Extracellular Concentrations

Intracellular Concentration	Substrate	Growth Conditions	Strain	Citation
80 ± 24 µM	Synthetic medium with 20 g/L glucose	aerobic	Baker's yeast	PMID: 12584756
Conversion Details Here

Spectra

Spectrum Type	Description	Splash Key	View
GC-MS	GC-MS Spectrum - GC-EI-TOF (Pegasus III TOF-MS system, Leco; GC 6890, Agilent Technologies) (2 TMS)	splash10-000b-3910000000-4097b7eb52c2910a4277	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-EI-TOF (Pegasus III TOF-MS system, Leco; GC 6890, Agilent Technologies) (Non-derivatized)	splash10-0002-1910000000-3277227b9c4da4baa1f7	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-EI-TOF (Pegasus III TOF-MS system, Leco; GC 6890, Agilent Technologies) (2 TMS; 1 MEOX)	splash10-00di-9300000000-974bce546caa4fbe6b0f	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-MS (1 MEOX; 2 TMS)	splash10-000i-9710000000-d0aea11e947b042571f9	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-MS (1 MEOX; 2 TMS)	splash10-052s-4920000000-bf7ed92c68fd4c8dbb6b	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-EI-TOF (Non-derivatized)	splash10-000b-3910000000-4097b7eb52c2910a4277	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-EI-TOF (Non-derivatized)	splash10-0002-1910000000-3277227b9c4da4baa1f7	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-EI-TOF (Non-derivatized)	splash10-00di-9300000000-974bce546caa4fbe6b0f	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-MS (Non-derivatized)	splash10-000i-9710000000-d0aea11e947b042571f9	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-MS (Non-derivatized)	splash10-052s-4920000000-bf7ed92c68fd4c8dbb6b	JSpectraViewer \| MoNA
GC-MS	GC-MS Spectrum - GC-EI-TOF (Non-derivatized)	splash10-000b-2900000000-e514f7afea2490bbe9ed	JSpectraViewer \| MoNA
Predicted GC-MS	Predicted GC-MS Spectrum - GC-MS (Non-derivatized) - 70eV, Positive	splash10-0kfx-9200000000-0ee77a39e9862659f8a7	JSpectraViewer
Predicted GC-MS	Predicted GC-MS Spectrum - GC-MS (2 TMS) - 70eV, Positive	splash10-00di-9730000000-5e17bd8cfd944963c79f	JSpectraViewer
LC-MS/MS	LC-MS/MS Spectrum - Quattro_QQQ 10V, Negative (Annotated)	splash10-0zfr-6900000000-7fc343a243ce5d2a4f39	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - Quattro_QQQ 25V, Negative (Annotated)	splash10-0a4i-9200000000-1a7af9946604baa8b3d2	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - Quattro_QQQ 40V, Negative (Annotated)	splash10-0a4l-9800000000-30495b2afdd3526854e7	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-0002-0925200000-af33449c9638276466c2	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-0a4i-9000000000-6e43f767847790112b65	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-03di-0900000000-4cacc41705b7b385e91e	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-0udi-0900000000-1367eeeb6ad64c67a0aa	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-000t-0915051100-91cda631ee54800322b8	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-0a4i-9000000000-4f842c3673925d29c402	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-0udi-0900000000-5e751351656f6eb62de3	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-ITFT (LTQ Orbitrap XL, Thermo Scientfic) , Negative	splash10-001i-0910000000-7729faa24733fbad77b7	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-QQ (API3000, Applied Biosystems) 10V, Negative	splash10-0002-0900000000-c3c62f83bff99f44f7ab	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-QQ (API3000, Applied Biosystems) 20V, Negative	splash10-0zfr-6900000000-b6d8379db3e3f1480b14	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-QQ (API3000, Applied Biosystems) 30V, Negative	splash10-0a4i-9300000000-4fde39bb93cde5a27f23	JSpectraViewer \| MoNA
LC-MS/MS	LC-MS/MS Spectrum - LC-ESI-QQ (API3000, Applied Biosystems) 40V, Negative	splash10-00i0-9000000000-4343832f3a55842423a9	JSpectraViewer \| MoNA
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 10V, Positive	splash10-004i-2900000000-5aa3d6d620db1d733a65	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 20V, Positive	splash10-0m30-7900000000-fc77f69ad43f915bf23e	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 40V, Positive	splash10-0a6r-9000000000-c597f1f5e416037aa82d	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 10V, Positive	splash10-004i-2900000000-5aa3d6d620db1d733a65	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 20V, Positive	splash10-0m30-7900000000-fc77f69ad43f915bf23e	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 40V, Positive	splash10-0a6r-9000000000-c597f1f5e416037aa82d	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 10V, Negative	splash10-0002-1900000000-f2b463076a150a514f0c	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 20V, Negative	splash10-0f9t-8900000000-b2d3fa8d7ab01a220d9a	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 40V, Negative	splash10-053r-9100000000-554bfbd6839bc376cba0	JSpectraViewer
Predicted LC-MS/MS	Predicted LC-MS/MS Spectrum - 10V, Negative	splash10-0002-1900000000-f2b463076a150a514f0c	JSpectraViewer
MS	Mass Spectrum (Electron Ionization)	splash10-0fba-9200000000-4e367c66e94c51eb1a1b	JSpectraViewer \| MoNA
1D NMR	1H NMR Spectrum	Not Available	JSpectraViewer
1D NMR	13C NMR Spectrum	Not Available	JSpectraViewer
1D NMR	1H NMR Spectrum	Not Available	JSpectraViewer
1D NMR	13C NMR Spectrum	Not Available	JSpectraViewer
1D NMR	1H NMR Spectrum	Not Available	JSpectraViewer
2D NMR	[1H,13C] 2D NMR Spectrum	Not Available	JSpectraViewer

References

References:

UniProt Consortium (2011). "Ongoing and future developments at the Universal Protein Resource." Nucleic Acids Res 39:D214-D219.21051339
Scheer, M., Grote, A., Chang, A., Schomburg, I., Munaretto, C., Rother, M., Sohngen, C., Stelzer, M., Thiele, J., Schomburg, D. (2011). "BRENDA, the enzyme information system in 2011." Nucleic Acids Res 39:D670-D676.21062828
Herrgard, M. J., Swainston, N., Dobson, P., Dunn, W. B., Arga, K. Y., Arvas, M., Bluthgen, N., Borger, S., Costenoble, R., Heinemann, M., Hucka, M., Le Novere, N., Li, P., Liebermeister, W., Mo, M. L., Oliveira, A. P., Petranovic, D., Pettifer, S., Simeonidis, E., Smallbone, K., Spasic, I., Weichart, D., Brent, R., Broomhead, D. S., Westerhoff, H. V., Kirdar, B., Penttila, M., Klipp, E., Palsson, B. O., Sauer, U., Oliver, S. G., Mendes, P., Nielsen, J., Kell, D. B. (2008). "A consensus yeast metabolic network reconstruction obtained from a community approach to systems biology." Nat Biotechnol 26:1155-1160.18846089
Roon, R. J., Even, H. L., Larimore, F. (1974). "Glutamate synthase: properties of the reduced nicotinamide adenine dinucleotide-dependent enzyme from Saccharomyces cerevisiae." J Bacteriol 118:89-95.4362465
Takada, Y., Noguchi, T. (1985). "Characteristics of alanine: glyoxylate aminotransferase from Saccharomyces cerevisiae, a regulatory enzyme in the glyoxylate pathway of glycine and serine biosynthesis from tricarboxylic acid-cycle intermediates." Biochem J 231:157-163.3933486
Hans, M. A., Heinzle, E., Wittmann, C. (2003). "Free intracellular amino acid pools during autonomous oscillations in Saccharomyces cerevisiae." Biotechnol Bioeng 82:143-151.12584756
Moreira dos Santos, M., Thygesen, G., Kotter, P., Olsson, L., Nielsen, J. (2003). "Aerobic physiology of redox-engineered Saccharomyces cerevisiae strains modified in the ammonium assimilation for increased NADPH availability." FEMS Yeast Res 4:59-68.14554197
Hogan, D. A., Auchtung, T. A., Hausinger, R. P. (1999). "Cloning and characterization of a sulfonate/alpha-ketoglutarate dioxygenase from Saccharomyces cerevisiae." J Bacteriol 181:5876-5879.10482536
Bhattacharjee, J. K. (1985). "alpha-Aminoadipate pathway for the biosynthesis of lysine in lower eukaryotes." Crit Rev Microbiol 12:131-151.3928261
Cupp, J. R., McAlister-Henn, L. (1992). "Cloning and characterization of the gene encoding the IDH1 subunit of NAD(+)-dependent isocitrate dehydrogenase from Saccharomyces cerevisiae." J Biol Chem 267:16417-16423.1644826
Verleur, N., Elgersma, Y., Van Roermund, C. W., Tabak, H. F., Wanders, R. J. (1997). "Cytosolic aspartate aminotransferase encoded by the AAT2 gene is targeted to the peroxisomes in oleate-grown Saccharomyces cerevisiae." Eur J Biochem 247:972-980.9288922
Dickinson, J. R., Harrison, S. J., Hewlins, M. J. (1998). "An investigation of the metabolism of valine to isobutyl alcohol in Saccharomyces cerevisiae." J Biol Chem 273:25751-25756.9748245
Belhumeur, P., Fortin, N., Clark, M. W. (1994). "A gene from Saccharomyces cerevisiae which codes for a protein with significant homology to the bacterial 3-phosphoserine aminotransferase." Yeast 10:385-389.8017107
Minard, K. I., Jennings, G. T., Loftus, T. M., Xuan, D., McAlister-Henn, L. (1998). "Sources of NADPH and expression of mammalian NADP+-specific isocitrate dehydrogenases in Saccharomyces cerevisiae." J Biol Chem 273:31486-31493.9813062
Przybyla-Zawislak, B., Gadde, D. M., Ducharme, K., McCammon, M. T. (1999). "Genetic and biochemical interactions involving tricarboxylic acid cycle (TCA) function using a collection of mutants defective in all TCA cycle genes." Genetics 152:153-166.10224250
Valenzuela, L., Ballario, P., Aranda, C., Filetici, P., Gonzalez, A. (1998). "Regulation of expression of GLT1, the gene encoding glutamate synthase in Saccharomyces cerevisiae." J Bacteriol 180:3533-3540.9657994
Iraqui, I., Vissers, S., Cartiaux, M., Urrestarazu, A. (1998). "Characterisation of Saccharomyces cerevisiae ARO8 and ARO9 genes encoding aromatic aminotransferases I and II reveals a new aminotransferase subfamily." Mol Gen Genet 257:238-248.9491083
Kispal, G., Steiner, H., Court, D. A., Rolinski, B., Lill, R. (1996). "Mitochondrial and cytosolic branched-chain amino acid transaminases from yeast, homologs of the myc oncogene-regulated Eca39 protein." J Biol Chem 271:24458-24464.8798704
Boer, V. M., Crutchfield, C. A., Bradley, P. H., Botstein, D., Rabinowitz, J. D. (2010). "Growth-limiting intracellular metabolites in yeast growing under diverse nutrient limitations." Mol Biol Cell 21:198-211.19889834
Gancedo, J. M., Gancedo, C. (1973). "Concentrations of intermediary metabolites in yeast." Biochimie 55:205-211.4578278
Lagunas, R., Gancedo, C. (1983). "Role of phosphate in the regulation of the Pasteur effect in Saccharomyces cerevisiae." Eur J Biochem 137:479-483.6229402
Castrillo, J. I., Zeef, L. A., Hoyle, D. C., Zhang, N., Hayes, A., Gardner, D. C., Cornell, M. J., Petty, J., Hakes, L., Wardleworth, L., Rash, B., Brown, M., Dunn, W. B., Broadhurst, D., O'Donoghue, K., Hester, S. S., Dunkley, T. P., Hart, S. R., Swainston, N., Li, P., Gaskell, S. J., Paton, N. W., Lilley, K. S., Kell, D. B., Oliver, S. G. (2007). "Growth control of the eukaryote cell: a systems biology study in yeast." J Biol 6:4.17439666

Synthesis Reference:

Tanaka, Katsunobu; kimura, Kazu; Yamaguchi, Ken. Fermentative production of a-oxoglutaric acid. U.S. (1973), 4 pp.

External Links:

Resource	Link
CHEBI ID	30915
HMDB ID	HMDB00208
Pubchem Compound ID	51
Kegg ID	C00026
ChemSpider ID	50
FOODB ID	FDB003361
Wikipedia	Alpha-Ketoglutaric_acid
BioCyc ID	2-KETOGLUTARATE

Isocitrate + NADP(+) → 2-oxoglutarate + CO(2) + NADPH.
Oxalosuccinate + NADP(+) → 2-oxoglutarate + CO(2) + NADPH.

Isocitrate + NADP(+) → 2-oxoglutarate + CO(2) + NADPH.
Oxalosuccinate + NADP(+) → 2-oxoglutarate + CO(2) + NADPH.

Isocitrate + NADP(+) → 2-oxoglutarate + CO(2) + NADPH.
Oxalosuccinate + NADP(+) → 2-oxoglutarate + CO(2) + NADPH.

3-phospho-D-glycerate + NAD(+) → 3-phosphonooxypyruvate + NADH.
2-hydroxyglutarate + NAD(+) → 2-oxoglutarate + NADH.

Structure for #<Compound:0xa482d9b8>

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