ORIGIN OF TWENTY PROTEINOGENIC AMINO ACIDS

Nino Karkashadze; Rusudan Uridia; Nana Tserodze; Nino Kavtaradze; Liparit Dolidze; Revaz Zedginidze

doi:10.52340/gs.2023.05.01.15

ORIGIN OF TWENTY PROTEINOGENIC AMINO ACIDS

Authors

Nino Karkashadze Tbilisi State University
Rusudan Uridia Tbilisi State University
Nana Tserodze Tbilisi State University
Nino Kavtaradze Tbilisi State University
Liparit Dolidze Tbilisi State University
Revaz Zedginidze Samtskhe-Javakheti State University

DOI:

https://doi.org/10.52340/gs.2023.05.01.15

Keywords:

Amino acids, Proteinogenic amino acids, Natural materials

Abstract

“Protein structure alphabet” – that is a name of L-configuration amino acids, which always or frequently occur in protein hydrolysates. Discovery of proteinogenic amino acids was a quite long process and took many years from 1806 to1935. According to Wicker and Schmidt a presence of amino acids in protein hydrolysate is considered to be established if at least two researchers derived them independently of each other and if its structure is confirmed by synthetic pathway [1]. Even today these requirements are valid in relation to newly discovered amino acids. Each amino acid, except for a name foreseen by the international nomenclature has its trivial (conventional) name, which points either at the source, from which this amino acid was derived first, or notes some of its special characteristics. The presented work provides chronological review of the history of discovery of twenty proteinogenic amino acids.

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Vickery H.B., Schmidt C. L. A. Nomenclature and Symbolism for Amino Acids and Peptides Chem. Revs. 1931., v.9, p.169.

Vauquelin L. N., Robiquer P. J. Ann. chim. (Paris). 1806, v. 57, p. 88.

Hasiwetz H., Habermann. J. Ueber die proteinstoffe. Ann. 1873, v. 169, p.150.

Damodaran M., Jaaback G., Chibnall A. C. The isolation of glutamine from an enzymic digest of gliadin . Biochem. J. 1932, v. 26, № 5. p. 1704.

Wollaston W. H. Ann. Chim. (Paris). 1810, 76. p. 21.

Morner K.A.H. Z. physiol. Chem., 1899. 28. p. 595.

Olcott H.S., Fraenkel- Conral H. J. Biol. Chem. 1947, 171. p. 583.

Baumann E. Z. physiol. Chem. 1884, 8, p. 299.

Erlenmeyer E. jr. Ber. 1903, 36, p. 2720.

Erlenmeyer E. jr ., Stoop F. Ann. 1904, 337, p.222.

Strickland R. D., Martin E. L., Riebsonner J.L. J Biol. Chem. 1954, 207, p. 903.

Sullivan M. X.., Hess W. C., Howard H.W. J Biol. Chem. 1942, 145, p. 621.

Proust M. Ann.chim et phys. 1819, 10, p. 29.

Bracommot H. Ann chim et phys. 1820, 13, p. 113.

Schulze E., Likiernik A. Ber. 1891., 24, p. 669.

Cahours A. Ann. 1857, 103, p. 87.

Cahours A. Ann. 1858, 107, p.147.

Haworth R. D. MacGillivray. R Peacock D. H. Naturee. 1951, 167, p.1068.

В. Н. Ермакова – Эффуктивность сочетания Тауфона с антиадренегическими препаратами при первичной открытоугольной глаукоме. Российский офталмологический журнал 2008., 2:12-17

В. В. Науменко. Применение прерарата Тауфон при контактной коррекции миопии. Вестник офталмологии 4. 2014

Liebig J. Ann. 1848, 57, p. 127.

De La Rue W. Ann. 1848, 64, p. 1.

Bopp F. Ann. 1849, 69, p. 16.

Erlenmeyer E, Lipp A. Ann. 1883, 219, p. 161.

Strecker A. Ann. 1850, 75, p. 27.

Weyl T. Ber. 1888, 21, p. 1407.

Fischer E., Skita A. Z. physiol. Chem. 1901, 33, p. 177.

Gorup-Besanez E. Ann. 1856, 98, p. 1.

Schutzenberger P. Ann. chim. et phys. 1879, 16, 289.

Fischer E. Z. physiol. 1906, 39, p. 2320.

Cramer E. J. prakt. Chem. 1865, 96, p. 76.

Fischer E., Leuchs H. Ber. 1902, 35, p. 3787.

Schulze E., Steiger E. Ber. 1886, 19. p. 1177.

Schulze E., Winterstein E. Ber. 1897. 30. p. 2879.

Sorensen S. P. L. Ber. 1910, 43, p. 643.

Fox S. W. J. Biol. Chem. 1938, 123, p. 687.

Ritthausen H. J. prakt. Chem. 1866, 99, p. 454.

Wolff L. Ann. 1890, 260, p. 79.

Ritthausen H. J. prakt. Chem. 1868, 103, p. 213.

Dessaignes V. Comp. rend. 1850. 30, p. 324., 1850, 31, p. 432.

Schulze E., Barbieri J. Ber. 1879, 12, p. 1924.

Erlenmeyer E. Lipp A. Ber. 1882, 15, p. 1006.

Schulze E., Bosshard E. Landwirtsch. Vers. Sta. 1883, 29, p. 295.

Damodaran M., Jaaback G., Chibnall A. C. Biochem. J. 1932, 26, p. 1704.

Bergmann M., Zervas L., Salzmann L. Ber. 1953, 66, p. 1288.

Drechsel E. J. prakt. Chem. 1889, 39, p. 425.

Fisher E., Weigert F. Ber. 1902., 35, p. 3772.

Kassel A. Z. physiol. Chem. 1896, 22, p. 176.

Pyman F. L. Trans. Chem. Soc. 1911, 99, p. 1386.

Willstatter R. Bet. 1900, 33, p. 1160.

Fisher E. Z. physiol. Chem. 1901, 33, p. 151.

Hopkins F. G. Cole S. W. Proc. Roy. Soc. 1901, 68, p. 21.

Ellinger A. Flamand C. Ber. 1907, 40, p. 3029.

Rebouche C. J. Kinetics, pharmacokinetics, and regulation of L- carnitine and acetyl-L-Carnitine metabolism. Ann NY Acad Sci. 2004., 1033: 30-41.

Ehrlich F. Ber. 1904, 37, p. 1809., 1907, 40, p.2538., 1908, 41, p. 1453.

Mueller J. H. Proc. Roy. Soc. Exptl. Biol. Med. 1922, 19, p. 161.

Barger G.m, Coyne F. P. The amino-acid methionine ; constitution and synthesis. Biochem J. 1928, v. 176, 22, p. 1417.

Rose W. C., McCoy R. H., Meyer C. E., Carter H. E. Womack M., Mettz E. T. J. Biological Chemistry. 1935, v. 109, p. 77.

Carter H.E. Synthesis of α- Amino-β- hydroxyl- n- butyric Acids. J. Biological Chemistry. 1935, v. 112, p. 769.

ORIGIN OF TWENTY PROTEINOGENIC AMINO ACIDS

ORIGIN OF TWENTY PROTEINOGENIC AMINO ACIDS

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