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Amino acid biosynthesis Chemistry 256

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Page 1: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Amino acid biosynthesis

Chemistry 256

Page 2: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Why biosynthesis?

• So that every amino acid is not an essential one. In other words, humans do not have to consume a non-essential amino acid in order to have it for use in the cells.

Page 3: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Some non-essential amino acid syntheses are straightforward

• These have been seen else-where in the text.

Page 4: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Others less so...

Page 5: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Especially the aromatic ones!

Page 6: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

A study in regulation: Glutamine synthetase

• D6 symmetry; mammalian glutamine synthetase is controlled by α-ketoglutarate to prevent ammonia accumulation.

Page 7: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Bacterial glutamine synthetase regulation• Much more complex; requires adenylylation, which is

the addition of an AMP to key tyrosine residues.• The enzyme adenylyltransferase is activated by

uridylylation, the addition of a UMP, a reaction catalyzed by uridylyltransferase.

• So, if there is high [α-ketoglutarate], this triggers uridylylation of adenylyltransferase, which activates it to adenylylate glutamine synthetase, which activates that to produce more glutamine.

• Not a digital system: different levels of uridylylation and adenylylation lead to different rates.

Page 8: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Woolfolk C. A., Stadtman E. R. , “Cumulative feedback inhibition in the multiple end-product regulation of glutamine synthetase activity in Escherichia coli”, Biochem. Biophys. Res. Commun. (1964).

Page 9: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Some amino acid syntheses are complex

• Glutamate leads to proline, ornithine, arginine (several steps)

• 3-phosphoglycerate (3PG) leads to serine, cysteine, glycine (several steps)

• Plants and microorganisms synthesize aspartate into lysine, methionine and threonine; pyruvate into leucine, isoleucine and valine; and so forth.

• The synthesis of histidine in plants is similar to the synthesis of nucleotides.

Page 10: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Westley, J., and Ceithaml, J., “Synthesis of Histidine in Escherichia Coli”, Arch. Biochem. And Biophys. (1955)

Page 11: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Heme is synthesized from glycine and succinyl-CoA

• Shemin, D., London, I.M., Rittenberg, D., “The in vitro synthesis of heme from glycine by nucleated red blood cells”, J Biol Chem (1948)

Page 12: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Heme is degraded and excreted

Page 13: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

A variety of neurotransmitters and hormones are synthesized from amino acids

Page 14: Amino acid biosynthesis Chemistry 256. Why biosynthesis? So that every amino acid is not an essential one. In other words, humans do not have to consume

Nitrogen fixation by some bacteria (diazotrophs) requires nitrogenase

Yes, molybdenum is a nutrient!(for these bacteria, anyway)


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