Methionine

Methionine

Chemical structure of Methionine

Methionine

Systematic (IUPAC) name

(S)-2-amino-4-(methylsulfanyl)-butanoic acid

Identifiers

CAS number 63-68-3

PubChem 876

Chemical data

Formula C₅H₁₁N O₂S

Molar mass 149.21 g/mol

SMILES CSCC[C@H](N)C(O)=O

Complete data

Methionine (pronounced /mɛˈθaɪəˌnin, -nɪn/; abbreviated as Met or M)^[1] is an α-amino acid with the chemical formula HO₂CCH(NH₂)CH₂CH₂SCH₃. This essential amino acid is classified as nonpolar. Together with cysteine, methionine is one of two sulfur-containing proteinogenic amino acids. Its derivative S-adenosyl methionine (SAM) serves as a methyl donor. Methionine is an intermediate in the biosynthesis of cysteine, carnitine, taurine, lecithin, phosphatidylcholine, and other phospholipids. Improper conversion of methionine can lead to atherosclerosis.

Methionine is one of only two amino acids encoded by a single codon (AUG) in the standard genetic code (tryptophan, encoded by UGG, is the other). The codon AUG is also significant, in that it carries the "Start" message for a ribosome that signals the initiation of protein translation from mRNA. As a consequence, methionine is incorporated into the N-terminal position of all proteins in eukaryotes and archaea during translation, although it is usually removed by post-translational modification.

1 Biosynthesis
2 Other biochemical pathways
3 Synthesis
4 Dietary aspects
5 See also
6 References
7 External links

Biosynthesis

As an essential amino acid, methionine is not synthesized in humans, hence we must ingest methionine or methionine-containing proteins. In plants and microorganisms, methionine is synthesized via a pathway that uses both aspartic acid and cysteine. First, aspartic acid is converted via β-aspartyl-semialdehyde into homoserine, introducing the pair of contiguous methylene groups. Homoserine converts to O-succinyl homoserine, which then reacts with cysteine to produce cystathionine, which is cleaved to yield homocysteine. Subsequent methylation of the thiol group by folates affords methionine. Both cystathionine-γ-synthase and cystathionine-β-lyase require Pyridoxyl-5'-phosphate as a cofactor, whereas homocysteine methyltransferase requires Vitamin B12 as a cofactor.^[2]

Enzymes involved in methionine biosynthesis:

aspartokinase
β-aspartate semialdehyde dehydrogenase
homoserine dehydrogenase
homoserine acyltransferase
cystathionine-γ-synthase
cystathionine-β-lyase
methionine synthase (in mammals, this step is performed by homocysteine methyltransferase)

Other biochemical pathways

Although mammals cannot synthesize methionine, they can still utilize it in a variety of biochemical pathways:

Methionine is converted to S-adenosylmethionine (SAM) by (1) methionine adenosyltransferase. SAM serves as a methyl-donor in many (2) methyltransferase reactions and is converted to S-adenosylhomocysteine (SAH). (3) adenosylhomocysteinase converts SAH to homocysteine.

There are two fates of homocysteine:

Methionine can be regenerated from homocysteine via (4) methionine synthase. It can also be remethylated using glycine betaine (NNN-trimethyl glycine) to methionine via the enzyme Betaine-homocysteine methyltransferase (E.C.2.1.1.5, BHMT). BHMT makes up to 1.5% of all the soluble protein of the liver, and recent evidence suggests that it may have a greater influence on methionine and homocysteine homeostasis than methionine synthase.
Homocysteine can be converted to cysteine. (5) Cystathionine-β-synthase (a PLP-dependent enzyme) combines homocysteine and serine to produce cystathionine. Instead of degrading cystathionine via cystathionine-β-lyase, as in the biosynthetic pathway, cystathionine is broken down to cysteine and α-ketobutyrate via (6) cystathionine-γ-lyase. (7) α-ketoacid dehydrogenase converts α-ketobutyrate to propionyl-CoA, which is metabolized to succinyl-CoA in a three-step process (see propionyl-CoA for pathway).

Synthesis

Racemic methionine can be synthesized from diethyl sodium phthalimidomalonate by alkylation with chloroethylmethylsulfide (ClCH₂CH₂SCH₃) followed by hydrolysis and decarboxylation.^[3]

Dietary aspects

High levels of methionine can be found in sesame seeds, Brazil nuts, fish, meats, and some other plant seeds.^{citation needed} Most fruits and vegetables contain very little of it; however, some have significant amounts, such as spinach, potatoes, and boiled corn.^{citation needed} Most legumes, though high in protein, are also low in methionine. DL-methionine is sometimes added as an ingredient to pet foods.^[4] Methionine, cysteine, and soy protein heated in a small amount of water creates a meat-like aroma.

References

British National Formulary 55, March 2008; ISBN 978 085369 776 3

^ 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.
^ Nelson, D. L.; Cox, M. M. "Lehninger, Principles of Biochemistry" 3rd Ed. Worth Publishing: New York, 2000. ISBN 1-57259-153-6.
^ Barger, G.; Weichselbaum, T. E. (1943). "dl-Methionine". Org. Synth.; Coll. Vol. 2: 384.
^ What's in your dog's food?

External links

v • d • e The 20 Common Amino Acids ("dp" = data page)

Branched-chain amino acids	Isoleucine (dp) \| Leucine (dp) \| Valine (dp)

Non Branch-chain	Alanine (dp) \| Arginine (dp) \| Asparagine (dp) \| Aspartic acid (dp) \| Cysteine (dp) \| Glutamic acid (dp) \| Glutamine (dp) \| Glycine (dp) \| Histidine (dp) \| Lysine (dp) \| Methionine (dp) \| Phenylalanine (dp) \| Proline (dp) \| Serine (dp) \| Threonine (dp) \| Tryptophan (dp) \| Tyrosine (dp)

Other classifications	Essential amino acids \| Ketogenic amino acid \| Glucogenic amino acid

Major families of biochemicals Saccharides \| Carbohydrates \| Glycosides \| \| Amino acids \| Peptides \| Proteins \| Glycoproteins \| \| Lipids \| Terpenes \| Steroids \| Carotenoids Alkaloids \| Nucleobases \| Nucleic acids \| \| Enzyme cofactors \| Flavonoids \| Polyketides \| Tetrapyrroles

v • d • e Antidotes (V03AB)

Methanol / Ethylene glycol	Ethanol - Fomepizole

Paracetamol (Acetaminophen)	Acetylcysteine - Glutathione - Methionine

Arsenic	Dimercaprol - Succimer

Cyanide	4-Dimethylaminophenol - Amyl nitrite - Hydroxocobalamin - Methylene blue - Sodium nitrite - Sodium thiosulfate

Heparin	Protamine

Nerve agent / Organophosphate pesticide	Atropine - Biperiden - Diazepam - Oximes (Pralidoxime, Obidoxime) - see also Cholinesterase

Opioid	Diprenorphine - Doxapram - Nalorphine - Naloxone - Naltrexone - Nalmefene

Barbiturate	Bemegride - Ethamivan

Benzodiazepine	Cyprodenate - Flumazenil

GHB	Lorazepam - Physostigmine - SCH-50911

Toxic metals (Cadmium, Mercury, Lead, Thallium)	Edetates - Dimercaprol - Prussian blue

Other	Ipecacuanha - Prednisolone/promethazine - Methylthioninium chloride - Potassium permanganate - Copper sulfate - Potassium iodide - Digoxin Immune Fab

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