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Pathway Description
Valine Biosynthesis
Saccharomyces cerevisiae
Metabolic Pathway
The pathway of valine biosynthesis starts with pyruvic acid interacting with a hydrogen ion through a acetolactate synthase / acetohydroxybutanoate synthase or a acetohydroxybutanoate synthase / acetolactate synthase resulting in the release of carbon dioxide and (S)-2-acetolactate. The latter compound then interacts with a hydrogen ion through an NADPH driven acetohydroxy acid isomeroreductase resulting in the release of a NADP and an (R) 2,3-dihydroxy-3-methylvalerate. The latter compound is then dehydrated by a dihydroxy acid dehydratase resulting in the release of water and isovaleric acid. Isovaleric acid interacts with an L-glutamic acid through a Valine Transaminase resulting in a oxoglutaric acid and an L-valine.
References
Valine Biosynthesis References
Andreadis A, Hsu YP, Hermodson M, Kohlhaw G, Schimmel P: Yeast LEU2. Repression of mRNA levels by leucine and primary structure of the gene product. J Biol Chem. 1984 Jul 10;259(13):8059-62.
Pubmed: 6330094
Bollon AP: Regulation of the ilv 1 multifunctional gene in Saccharomyces cerevisiae. Mol Gen Genet. 1975 Dec 23;142(1):1-12.
Pubmed: 765733
Branduardi P, Longo V, Berterame NM, Rossi G, Porro D: A novel pathway to produce butanol and isobutanol in Saccharomyces cerevisiae. Biotechnol Biofuels. 2013 May 4;6(1):68. doi: 10.1186/1754-6834-6-68.
Pubmed: 23642236
Eden A, Simchen G, Benvenisty N: Two yeast homologs of ECA39, a target for c-Myc regulation, code for cytosolic and mitochondrial branched-chain amino acid aminotransferases. J Biol Chem. 1996 Aug 23;271(34):20242-5.
Pubmed: 8702755
Holmberg S, Petersen JG: Regulation of isoleucine-valine biosynthesis in Saccharomyces cerevisiae. Curr Genet. 1988 Mar;13(3):207-17.
Pubmed: 3289762
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