Malonic Acid Biosynthesis in Bush Bean Roots. I. Evidence for Oxaloacetate as Immediate Precursor.

@article{Vellis1963MalonicAB,
  title={Malonic Acid Biosynthesis in Bush Bean Roots. I. Evidence for Oxaloacetate as Immediate Precursor.},
  author={J. de Vellis and L. Shannon and J. Y. Lew},
  journal={Plant physiology},
  year={1963},
  volume={38 6},
  pages={
          686-90
        }
}
At least 10 clifferent metabolic pathwvavs leadling to the formation of malonlate have beenl rieported. The enzymes participatiing in these pathways include: AcetylCoA carboxylase (6, 10, 11, 20, 37), transcarboxylase (1, 10, 14, 15, 16, 24), thiokinase and thioesterase (11), barbiturase (12), malonic senmialdehyde dehydrogenase (22, 31, 32), B-alanine transaminase (18), AcylCoA-CO., exchange (33), and metmyglobin (34, 35). Aimiong these enzymes, acetylCoA carboxylase has received the greatest… Expand
Biosynthesis of the pyridine ring of ricinine from quinolinic acid glycerol and aspartic acid
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AAE13 encodes a dual-localized malonyl-CoA synthetase that is crucial for mitochondrial fatty acid biosynthesis.
  • Xin Guan, B. Nikolau
  • Biology, Medicine
  • The Plant journal : for cell and molecular biology
  • 2016
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It is demonstrated that malonyl-CoA synthetase encoded by the Arabidopsis AAE13 (AT3G16170) gene is localized in both the cytosol and the mitochondria, and Phenotypes of the aae13-1 mutant are transgenically reversed only if the mitochondrial pre-sequence is present in the ectopically expressed Aae13 proteins. Expand
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Cl cloning of a eukaryotic malonyl-CoA synthetase gene, Acyl Activating Enzyme13 (AAE13; At3g16170), from Arabidopsis thaliana is reported, demonstrating that the maloneyl- coA synthenase encoded by AAE13 is essential for healthy growth and development. Expand
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