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Pathway Description
Mevalonate Pathway
Arabidopsis thaliana
Category:
Metabolite Pathway
Sub-Category:
Metabolic
Created: 2019-05-09
Last Updated: 2023-10-28
The mevalonate pathway, also known as the isoprenoid pathway, plays an essential role in creating the chemicals needed for many plants to function. This pathway, combined with the MEP/DOXP pathway give many plants their scents, such as cinnamon and ginger, and are responsible for the red colour in tomatoes. The pathway begins with acetyl-CoA, having come from the glycolysis pathway. Acetyl-CoA immediately becomes acetoacetyl-CoA through the enzyme acetyl-CoA acetyltransferase 1/2. Combined, acetoacetyl-CoA and acetyl-CoA react with hydroxymethylglutaryl-CoA synthase to create 3-hydroxy-3methylglutaryl-CoA. From here, this compound is catalyzed by 3-hydroxy-3-methylglutaryl-coenzyme A reductase 1 and becomes (R)-mevalonate. Mevalonate is paired with mevalonate kinase to produce mevalonic acid-5P. In turn, mevalonic acid-5P reacts with phosphomevalonate kinase, and entering the peroxisome and becoming (R)-mevalonic acid-5-pyrophosphate. Remaining in the peroxisome, diphosphomevalonate decarboxylase MVD1 is used alongside (R)-mevalonic acid-5-pyrophosphate to create isopentenyl pyrophosphate, bringing the pathway into the chloroplast. Dimethylallylpyrophosphate is produced after isopentenyl pyrophosphate and isopentenyl diphosphate delta-isomerase II team up to catalyze it. Dimethylallylpyrophosphate then joins forces with isopentenyl again, this time adding geranylgeranyl pyrophosphate synthase 6 and moving into the mitochondria to produce geranyl-PP. This is followed by monoterpenoid biosynthesis.
References
Mevalonate Pathway References
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Pubmed: 7496400
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Salanoubat M, Lemcke K, Rieger M, Ansorge W, Unseld M, Fartmann B, Valle G, Blocker H, Perez-Alonso M, Obermaier B, Delseny M, Boutry M, Grivell LA, Mache R, Puigdomenech P, De Simone V, Choisne N, Artiguenave F, Robert C, Brottier P, Wincker P, Cattolico L, Weissenbach J, Saurin W, Quetier F, Schafer M, Muller-Auer S, Gabel C, Fuchs M, Benes V, Wurmbach E, Drzonek H, Erfle H, Jordan N, Bangert S, Wiedelmann R, Kranz H, Voss H, Holland R, Brandt P, Nyakatura G, Vezzi A, D'Angelo M, Pallavicini A, Toppo S, Simionati B, Conrad A, Hornischer K, Kauer G, Lohnert TH, Nordsiek G, Reichelt J, Scharfe M, Schon O, Bargues M, Terol J, Climent J, Navarro P, Collado C, Perez-Perez A, Ottenwalder B, Duchemin D, Cooke R, Laudie M, Berger-Llauro C, Purnelle B, Masuy D, de Haan M, Maarse AC, Alcaraz JP, Cottet A, Casacuberta E, Monfort A, Argiriou A, flores M, Liguori R, Vitale D, Mannhaupt G, Haase D, Schoof H, Rudd S, Zaccaria P, Mewes HW, Mayer KF, Kaul S, Town CD, Koo HL, Tallon LJ, Jenkins J, Rooney T, Rizzo M, Walts A, Utterback T, Fujii CY, Shea TP, Creasy TH, Haas B, Maiti R, Wu D, Peterson J, Van Aken S, Pai G, Militscher J, Sellers P, Gill JE, Feldblyum TV, Preuss D, Lin X, Nierman WC, Salzberg SL, White O, Venter JC, Fraser CM, Kaneko T, Nakamura Y, Sato S, Kato T, Asamizu E, Sasamoto S, Kimura T, Idesawa K, Kawashima K, Kishida Y, Kiyokawa C, Kohara M, Matsumoto M, Matsuno A, Muraki A, Nakayama S, Nakazaki N, Shinpo S, Takeuchi C, Wada T, Watanabe A, Yamada M, Yasuda M, Tabata S: Sequence and analysis of chromosome 3 of the plant Arabidopsis thaliana. Nature. 2000 Dec 14;408(6814):820-2. doi: 10.1038/35048706.
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