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Threonine

February 15, 2024

Not to be confused with Theanine.

Threonine (symbol Thr or T)[2] is an amino acid that is used in the biosynthesis of proteins. It contains an α-amino group (which is in the protonated −NH+
3 form under biological conditions), a carboxyl group (which is in the deprotonated −COO form under biological conditions), and a side chain containing a hydroxyl group, making it a polar, uncharged amino acid. It is essential in humans, meaning the body cannot synthesize it: it must be obtained from the diet. Threonine is synthesized from aspartate in bacteria such as E. coli.[3] It is encoded by all the codons starting AC (ACU, ACC, ACA, and ACG).

Threonine

Skeletal formula of L-threonine
Ball-and-stick model
Space-filling model
Names
IUPAC name
Threonine
Other names
2-Amino-3-hydroxybutanoic acid
Identifiers
  • L: 72-19-5 Y
  • D/L: 80-68-2 Y
3D model (JSmol)
  • L: Interactive image
  • L Zwitterion: Interactive image
ChEBI
  • L: CHEBI:16857 Y
ChEMBL
  • L: ChEMBL291747 Y
ChemSpider
  • L: 6051 Y
DrugBank
  • L: DB00156 Y
ECHA InfoCard 100.000.704
EC Number
  • L: 200-774-1
  • L: 4785
KEGG
  • L: D00041
  • L: 6288
UNII
  • L: 2ZD004190S Y
  • D/L: TFM6DU5S6A Y
  • L: DTXSID70893087 DTXSID2046412, DTXSID70893087
  • InChI=1S/C4H9NO3/c1-2(6)3(5)4(7)8/h2-3,6H,5H2,1H3,(H,7,8)/t2-,3+/m1/s1 Y
    Key: AYFVYJQAPQTCCC-GBXIJSLDSA-N Y
  • D/L: Key: AYFVYJQAPQTCCC-FGNFWGHYNA-N
  • L: C[C@H]([C@@H](C(=O)O)N)O
  • L Zwitterion: C[C@H]([C@@H](C(=O)[O-])[NH3+])O
Properties
C4H9NO3
Molar mass 119.120 g·mol−1
(H2O, g/dl) 10.6(30°),14.1(52°),19.0(61°)
Acidity (pKa) 2.63 (carboxyl), 10.43 (amino)[1]
Supplementary data page
Threonine (data page)
Except where otherwise noted, data are given for materials in their standard state (at 25 °C [77 °F], 100 kPa).

Threonine sidechains are often hydrogen bonded; the most common small motifs formed are based on interactions with serine: ST turns, ST motifs (often at the beginning of alpha helices) and ST staples (usually at the middle of alpha helices).

Modifications edit

The threonine residue is susceptible to numerous posttranslational modifications. The hydroxyl side-chain can undergo O-linked glycosylation. In addition, threonine residues undergo phosphorylation through the action of a threonine kinase. In its phosphorylated form, it can be referred to as phosphothreonine. Phosphothreonine has three potential coordination sites (carboxyl, amine and phosphate group) and determination of the mode of coordination between phosphorylated ligands and metal ions occurring in an organism is important to explain the function of the phosphothreonine in biological processes.[4]

History edit

Threonine was the last of the 20 common proteinogenic amino acids to be discovered. It was discovered in 1936 by William Cumming Rose,[5] collaborating with Curtis Meyer. The amino acid was named threonine because it was similar in structure to threonic acid, a four-carbon monosaccharide with molecular formula C4H8O5[6]

Stereoisomers edit

   
L-Threonine (2S,3R) and D-Threonine (2R,3S)
   
L-Allothreonine (2S,3S) and D-Allothreonine (2R,3R)

Threonine is one of two proteinogenic amino acids with two stereogenic centers, the other being isoleucine. Threonine can exist in four possible stereoisomers with the following configurations: (2S,3R), (2R,3S), (2S,3S) and (2R,3R). However, the name L-threonine is used for one single stereoisomer, (2S,3R)-2-amino-3-hydroxybutanoic acid. The stereoisomer (2S,3S), which is rarely present in nature, is called L-allothreonine.[7]

Biosynthesis edit

As an essential amino acid, threonine is not synthesized in humans, and needs to be present in proteins in the diet. Adult humans require about 20 mg/kg body weight/day.[8] In plants and microorganisms, threonine is synthesized from aspartic acid via α-aspartyl-semialdehyde and homoserine. Homoserine undergoes O-phosphorylation; this phosphate ester undergoes hydrolysis concomitant with relocation of the OH group.[9] Enzymes involved in a typical biosynthesis of threonine include:

  1. aspartokinase
  2. β-aspartate semialdehyde dehydrogenase
  3. homoserine dehydrogenase
  4. homoserine kinase
  5. threonine synthase.
 
Threonine biosynthesis

Metabolism edit

Threonine is metabolized in at least three ways:

Metabolic diseases edit

The degradation of threonine is impaired in the following metabolic diseases:

Sources edit

Foods high in threonine include cottage cheese, poultry, fish, meat, lentils, black turtle bean[15] and sesame seeds.[16]

Racemic threonine can be prepared from crotonic acid by alpha-functionalization using mercury(II) acetate.[17]

References edit

  1. ^ Dawson, R.M.C., et al., Data for Biochemical Research, Oxford, Clarendon Press, 1959.
  2. ^ "Nomenclature and Symbolism for Amino Acids and Peptides". IUPAC-IUB Joint Commission on Biochemical Nomenclature. 1983. from the original on 9 October 2008. Retrieved 5 March 2018.
  3. ^ Raïs, Badr; Chassagnole, Christophe; Lettelier, Thierry; Fell, David; Mazat, Jean-Pierre (2001). "Threonine synthesis from aspartate in Escherichia coli cell-free extracts: pathway dynamics". Biochem J. 356 (Pt 2): 425–32. doi:10.1042/bj3560425. PMC 1221853. PMID 11368769.
  4. ^ Jastrzab, Renata (2013). "Studies of new phosphothreonine complexes formed in binary and ternary systems including biogenic amines and copper(II)". Journal of Coordination Chemistry. 66 (1): 98–113. doi:10.1080/00958972.2012.746678
  5. ^ A Dictionary of scientists. Daintith, John., Gjertsen, Derek. Oxford: Oxford University Press. 1999. p. 459. ISBN 9780192800862. OCLC 44963215.{{cite book}}: CS1 maint: others (link)
  6. ^ Meyer, Curtis (20 July 1936). "The Spatial Configuation of Alpha-Amino-Beta-Hydroxy-n-Butyric Acid" (PDF). Journal of Biological Chemistry. 115 (3): 721–729. doi:10.1016/S0021-9258(18)74711-X.
  7. ^ "Nomenclature and symbolism for amino acids and peptides (Recommendations 1983)". Pure and Applied Chemistry. 56 (5): 601, 603, 608. 1 January 1984. doi:10.1351/pac198456050595.
  8. ^ Institute of Medicine (2002). "Protein and Amino Acids". Dietary Reference Intakes for Energy, Carbohydrates, Fiber, Fat, Fatty Acids, Cholesterol, Protein, and Amino Acids. Washington, DC: The National Academies Press. pp. 589–768. doi:10.17226/10490. ISBN 978-0-309-08525-0.
  9. ^ Lehninger, Albert L.; Nelson, David L.; Cox, Michael M. (2000). Principles of Biochemistry (3rd ed.). New York: W. H. Freeman. ISBN 1-57259-153-6..
  10. ^ Stipanuk, Martha H.; Caudill, Marie A. (2013). Biochemical, Physiological, and Molecular Aspects of Human Nutrition – E-Book. Elsevier Health Sciences. ISBN 9780323266956.
  11. ^ Bhardwaj, Uma; Bhardwaj, Ravindra. Biochemistry for Nurses. Pearson Education India. ISBN 9788131795286.
  12. ^ Fang, H; Kang, J; Zhang, D (30 January 2017). "Microbial production of vitamin B12: a review and future perspectives". Microbial Cell Factories. 16 (1): 15. doi:10.1186/s12934-017-0631-y. PMC 5282855. PMID 28137297.
  13. ^ Adeva-Andany, M; Souto-Adeva, G; Ameneiros-Rodríguez, E; Fernández-Fernández, C; Donapetry-García, C; Domínguez-Montero, A (January 2018). "Insulin resistance and glycine metabolism in humans". Amino Acids. 50 (1): 11–27. doi:10.1007/s00726-017-2508-0. PMID 29094215. S2CID 3708658.
  14. ^ Dalangin, R; Kim, A; Campbell, RE (27 August 2020). "The Role of Amino Acids in Neurotransmission and Fluorescent Tools for Their Detection". International Journal of Molecular Sciences. 21 (17): 6197. doi:10.3390/ijms21176197. PMC 7503967. PMID 32867295.
  15. ^ . ndb.nal.usda.gov. Archived from the original on 2018-11-16. Retrieved 2013-05-29.
  16. ^ "SELF Nutrition Data - Food Facts, Information & Calorie Calculator". nutritiondata.self.com. Retrieved 27 March 2018.
  17. ^ Carter, Herbert E.; West, Harold D. (1940). "dl-Threonine". Organic Syntheses. 20: 101.; Collective Volume, vol. 3, p. 813.

External links edit

  • Threonine biosynthesis
  • CID 205
  • CID 6288

February 15, 2024
threonine, confused, with, theanine, symbol, amino, acid, that, used, biosynthesis, proteins, contains, amino, group, which, protonated, form, under, biological, conditions, carboxyl, group, which, deprotonated, form, under, biological, conditions, side, chain. Not to be confused with Theanine Threonine symbol Thr or T 2 is an amino acid that is used in the biosynthesis of proteins It contains an a amino group which is in the protonated NH 3 form under biological conditions a carboxyl group which is in the deprotonated COO form under biological conditions and a side chain containing a hydroxyl group making it a polar uncharged amino acid It is essential in humans meaning the body cannot synthesize it it must be obtained from the diet Threonine is synthesized from aspartate in bacteria such as E coli 3 It is encoded by all the codons starting AC ACU ACC ACA and ACG Threonine Skeletal formula of L threonineBall and stick modelBall and stick model Space filling modelSpace filling modelNamesIUPAC name ThreonineOther names 2 Amino 3 hydroxybutanoic acidIdentifiersCAS Number L 72 19 5 YD L 80 68 2 Y3D model JSmol L Interactive imageL Zwitterion Interactive imageChEBI L CHEBI 16857 YChEMBL L ChEMBL291747 YChemSpider L 6051 YDrugBank L DB00156 YECHA InfoCard 100 000 704EC Number L 200 774 1IUPHAR BPS L 4785KEGG L D00041PubChem CID L 6288UNII L 2ZD004190S YD L TFM6DU5S6A YCompTox Dashboard EPA L DTXSID70893087 DTXSID2046412 DTXSID70893087InChI InChI 1S C4H9NO3 c1 2 6 3 5 4 7 8 h2 3 6H 5H2 1H3 H 7 8 t2 3 m1 s1 YKey AYFVYJQAPQTCCC GBXIJSLDSA N YD L Key AYFVYJQAPQTCCC FGNFWGHYNA NSMILES L C C H C H C O O N OL Zwitterion C C H C H C O O NH3 OPropertiesChemical formula C 4H 9N O 3Molar mass 119 120 g mol 1Solubility in water H2O g dl 10 6 30 14 1 52 19 0 61 Acidity pKa 2 63 carboxyl 10 43 amino 1 Supplementary data pageThreonine data page Except where otherwise noted data are given for materials in their standard state at 25 C 77 F 100 kPa Infobox references Threonine sidechains are often hydrogen bonded the most common small motifs formed are based on interactions with serine ST turns ST motifs often at the beginning of alpha helices and ST staples usually at the middle of alpha helices Contents 1 Modifications 2 History 3 Stereoisomers 4 Biosynthesis 5 Metabolism 6 Metabolic diseases 7 Sources 8 References 9 External linksModifications editThe threonine residue is susceptible to numerous posttranslational modifications The hydroxyl side chain can undergo O linked glycosylation In addition threonine residues undergo phosphorylation through the action of a threonine kinase In its phosphorylated form it can be referred to as phosphothreonine Phosphothreonine has three potential coordination sites carboxyl amine and phosphate group and determination of the mode of coordination between phosphorylated ligands and metal ions occurring in an organism is important to explain the function of the phosphothreonine in biological processes 4 History editThreonine was the last of the 20 common proteinogenic amino acids to be discovered It was discovered in 1936 by William Cumming Rose 5 collaborating with Curtis Meyer The amino acid was named threonine because it was similar in structure to threonic acid a four carbon monosaccharide with molecular formula C4H8O5 6 Stereoisomers edit nbsp nbsp L Threonine 2S 3R and D Threonine 2R 3S nbsp nbsp L Allothreonine 2S 3S and D Allothreonine 2R 3R Threonine is one of two proteinogenic amino acids with two stereogenic centers the other being isoleucine Threonine can exist in four possible stereoisomers with the following configurations 2S 3R 2R 3S 2S 3S and 2R 3R However the name L threonine is used for one single stereoisomer 2S 3R 2 amino 3 hydroxybutanoic acid The stereoisomer 2S 3S which is rarely present in nature is called L allothreonine 7 Biosynthesis editAs an essential amino acid threonine is not synthesized in humans and needs to be present in proteins in the diet Adult humans require about 20 mg kg body weight day 8 In plants and microorganisms threonine is synthesized from aspartic acid via a aspartyl semialdehyde and homoserine Homoserine undergoes O phosphorylation this phosphate ester undergoes hydrolysis concomitant with relocation of the OH group 9 Enzymes involved in a typical biosynthesis of threonine include aspartokinase b aspartate semialdehyde dehydrogenase homoserine dehydrogenase homoserine kinase threonine synthase nbsp Threonine biosynthesisMetabolism editThreonine is metabolized in at least three ways In many animals it is converted to pyruvate via threonine dehydrogenase An intermediate in this pathway can undergo thiolysis with CoA to produce acetyl CoA and glycine In humans the gene for threonine dehydrogenase is an inactive pseudogene 10 so threonine is converted to a ketobutyrate The mechanism of the first step is analogous to that catalyzed by serine dehydratase and the serine and threonine dehydratase reactions are probably catalyzed by the same enzyme 11 In many organisms it is O phosphorylated by a kinase preparatory to further metabolism This is especially important in bacteria as part of the biosynthesis of cobalamin Vitamin B12 as the product is converted to R 1 aminopropan 2 ol for incorporation into the vitamin s sidechain 12 Threonine is used to synthesize glycine during the endogenous production of L carnitine in the brain and liver of rats 13 14 Metabolic diseases editThis section does not cite any sources Please help improve this section by adding citations to reliable sources Unsourced material may be challenged and removed November 2023 Learn how and when to remove this template message The degradation of threonine is impaired in the following metabolic diseases Combined malonic and methylmalonic aciduria CMAMMA Methylmalonic acidemia Propionic acidemiaSources editFoods high in threonine include cottage cheese poultry fish meat lentils black turtle bean 15 and sesame seeds 16 Racemic threonine can be prepared from crotonic acid by alpha functionalization using mercury II acetate 17 References edit Dawson R M C et al Data for Biochemical Research Oxford Clarendon Press 1959 Nomenclature and Symbolism for Amino Acids and Peptides IUPAC IUB Joint Commission on Biochemical Nomenclature 1983 Archived from the original on 9 October 2008 Retrieved 5 March 2018 Rais Badr Chassagnole Christophe Lettelier Thierry Fell David Mazat Jean Pierre 2001 Threonine synthesis from aspartate in Escherichia coli cell free extracts pathway dynamics Biochem J 356 Pt 2 425 32 doi 10 1042 bj3560425 PMC 1221853 PMID 11368769 Jastrzab Renata 2013 Studies of new phosphothreonine complexes formed in binary and ternary systems including biogenic amines and copper II Journal of Coordination Chemistry 66 1 98 113 doi 10 1080 00958972 2012 746678 A Dictionary of scientists Daintith John Gjertsen Derek Oxford Oxford University Press 1999 p 459 ISBN 9780192800862 OCLC 44963215 a href Template Cite book html title Template Cite book cite book a CS1 maint others link Meyer Curtis 20 July 1936 The Spatial Configuation of Alpha Amino Beta Hydroxy n Butyric Acid PDF Journal of Biological Chemistry 115 3 721 729 doi 10 1016 S0021 9258 18 74711 X Nomenclature and symbolism for amino acids and peptides Recommendations 1983 Pure and Applied Chemistry 56 5 601 603 608 1 January 1984 doi 10 1351 pac198456050595 Institute of Medicine 2002 Protein and Amino Acids Dietary Reference Intakes for Energy Carbohydrates Fiber Fat Fatty Acids Cholesterol Protein and Amino Acids Washington DC The National Academies Press pp 589 768 doi 10 17226 10490 ISBN 978 0 309 08525 0 Lehninger Albert L Nelson David L Cox Michael M 2000 Principles of Biochemistry 3rd ed New York W H Freeman ISBN 1 57259 153 6 Stipanuk Martha H Caudill Marie A 2013 Biochemical Physiological and Molecular Aspects of Human Nutrition E Book Elsevier Health Sciences ISBN 9780323266956 Bhardwaj Uma Bhardwaj Ravindra Biochemistry for Nurses Pearson Education India ISBN 9788131795286 Fang H Kang J Zhang D 30 January 2017 Microbial production of vitamin B12 a review and future perspectives Microbial Cell Factories 16 1 15 doi 10 1186 s12934 017 0631 y PMC 5282855 PMID 28137297 Adeva Andany M Souto Adeva G Ameneiros Rodriguez E Fernandez Fernandez C Donapetry Garcia C Dominguez Montero A January 2018 Insulin resistance and glycine metabolism in humans Amino Acids 50 1 11 27 doi 10 1007 s00726 017 2508 0 PMID 29094215 S2CID 3708658 Dalangin R Kim A Campbell RE 27 August 2020 The Role of Amino Acids in Neurotransmission and Fluorescent Tools for Their Detection International Journal of Molecular Sciences 21 17 6197 doi 10 3390 ijms21176197 PMC 7503967 PMID 32867295 Error ndb nal usda gov Archived from the original on 2018 11 16 Retrieved 2013 05 29 SELF Nutrition Data Food Facts Information amp Calorie Calculator nutritiondata self com Retrieved 27 March 2018 Carter Herbert E West Harold D 1940 dl Threonine Organic Syntheses 20 101 Collective Volume vol 3 p 813 External links editThreonine biosynthesis CID 205 CID 6288 Retrieved from https en wikipedia org w index php title Threonine amp oldid 1202930642, wikipedia, wiki, book, books, library,

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