Serine

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Skeletal formula of serine
Stick model of the serine molecule

Serine
Systematic (IUPAC) name
(S)-2-amino-3-hydroxypropanoic acid
Identifiers
CAS number 56-45-1
PubChem         617
Chemical data
Formula C3H7NO3 
Molar mass 105.09 g/mol
SMILES OCC(N)C(=O)O
Complete data

Serine (abbreviated as Ser or S)[1] is an organic compound with the formula HO2CCH(NH2)CH2OH.


Contents

Occurrence

It is one of the 20 naturally occurring proteinogenic amino acids. Its codons are UCU, UCC, UCA, UCG, AGU and AGC. Only the L-stereoisomer appears naturally in proteins. It is not essential to the human diet, since it is synthesized in the body from other metabolites, including glycine. Serine was first obtained from silk protein, a particularly rich source, in 1865. Its name is derived from the Latin for silk, sericum. Serine's structure was established in 1902. By virtue of the hydroxyl group, serine is classified as a polar amino acid.

Biosynthesis

The biosynthesis of serine starts with the oxidation of 3-phosphoglycerate to 3-phosphohydroxypyruvate and NADH. Reductive amination of this ketone followed by hydrolysis gives serine. Serine hydroxymethyltransferase catalyzes the reversible, simultaneous conversions of L-serine to glycine (retro-aldol cleavage) and 5,6,7,8-tetrahydrofolate to 5,10-methylenetetrahydrofolate (hydrolysis).[2]

Chemical synthesis

Racemic serine can be prepared from methyl acrylate via several steps.[3]

Function

Metabolic

Serine is important in metabolism in that it participates in the biosynthesis of purines and pyrimidines. It is also the precursor to several amino acids, including glycine, cysteine, and, in bacteria, tryptophan. It is also the precursor to numerous of other metabolites, including sphingolipids. Serine is also a precursor to folate, which is the principal donor of one carbon fragments in biosynthesis.

Structural role

Serine plays an important role in the catalytic function of many enzymes. It has been shown to occur in the active sites of chymotrypsin, trypsin, and many other enzymes. The so-called nerve gases and many substances used in insecticides have been shown to act by combining with a residue of serine in the active site of acetylcholine esterase, inhibiting the enzyme completely. The unmetabolized acetylcholine cannot be recycled into the nerve for signaling. This results in depletion of acetylcholine at the neuromuscular junction, resulting in the inability to control muscles, which results in asphyxiation, and death.

As a constituent (residue) of proteins, its side chain can undergo O-linked glycosylation, which may be functionally related to diabetes. It is one of three amino acid residues that are commonly phosphorylated by kinases during cell signaling in eukaryotes. Phosphorylated serine residues are often referred to as phosphoserine. Serine proteases are a common type of protease.

Signaling

D-serine, synthesized by serine racemase from L-serine, serves as a neuronal signal by activating NMDA receptors in the brain.[4]

See also

References

  1. ^ IUPAC-IUBMB Joint Commission on Biochemical Nomenclature. "Nomenclature and Symbolism for Amino Acids and Peptides". Recommendations on Organic & Biochemical Nomenclature, Symbols & Terminology etc. Retrieved on 2007-05-17.
  2. ^ Nelson, D. L.; Cox, M. M. "Lehninger, Principles of Biochemistry" 3rd Ed. Worth Publishing: New York, 2000. ISBN 1-57259-153-6.
  3. ^ Carter, H. E.; West, H. D. (1955). "dl-Serine". Org. Synth.; Coll. Vol. 3: 774. 
  4. ^ Jean-Pierre Mothet; Angèle T. Parent; Herman Wolosker; Roscoe O. Brady, Jr.; David J. Linden; Christopher D. Ferris; Michael A. Rogawski; Solomon H. Snyder (April 2000). "D-serine is an endogenous ligand for the glycine site of the N-methyl-D-aspartate receptor". Proc. Natl. Acad. Sci. U.S.A. 97 (9): 4926–31. PMID 10781100. PMC:18334. 
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Wikipedia content modification information:

  • This page was last modified on 10 October 2008, at 11:53.

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