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American Heritage Dictionary:

pro·line

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(prō'lēn') pronunciation
n.
An amino acid, C4H8NCOOH, that is found in most proteins and is a major constituent of collagen.

[Short for pyrrolidine, one of its constituents : PYRROL(E) + -ID(E) + -INE2.]


Britannica Concise Encyclopedia:

proline

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One of the nonessential amino acids, found in many proteins, especially collagen. Because the nitrogen atom of its amino group is part of a ring structure (making it a heterocyclic compound), its chemical properties differ from those of the other amino acids in proteins. It is used in biochemical, nutritional, and microbiological research and as a dietary supplement.

For more information on proline, visit Britannica.com.

Columbia Encyclopedia:

proline

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proline (prō'lēn), organic compound, one of the 20 amino acids commonly found in animal proteins. Only the L-stereoisomer appears in mammalian protein. It is not essential to the human diet, since it can be synthesized in the body from glutamic acid. The amino group through which it can link to other amino acids (see peptide, protein) is part of a circlelike array of atoms-unique to proline. This is significant because when the amino acid is incorporated into protein, its peculiar structure leads to sharp bends, or kinks, in the peptide chain, thus figuring prominently in the determination of the protein's shape. Proline and its derivate hydroxyproline, make up some 21% of the amino-acid residues found in collagen, the fibrous protein of connective tissue. Its chemical synthesis was accomplished in 1900; in 1901 proline was isolated from casein, the milk protein, and its structure was shown to be the same as that of the synthetic compound.

Oxford Dictionary of Biochemistry:

proline

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the trivial name for pyrrolidine-2-carboxylic acid, (C4H7NH)−COOH; a chiral cyclic N-alkylated α-amino acid. l-proline (symbol: P or Pro), (S)-pyrrolidine-2-carboxylic acid, is a coded amino acid found in peptide linkage in proteins; codon: CCA, CCC, CCG, or CCU; by virtue of its more constrained molecular structure relative to most other α-amino acids, it usually does not participate in α-helix formation in globular proteins, but does occur in transmembrane helices, in which it introduces a pronounced kink. In mammals, it is a non-essential dietary amino acid, and is glucogenic. It is formed from glutamate 5-semialdehyde by reduction by NADPH. d-Proline (symbol: d-Pro or dPro), (R)-pyrrolidine-2-carboxylic acid, is not known to occur naturally. See also hydroxyproline.





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Saunders Veterinary Dictionary:

proline

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Pro; a cyclic amino acid occurring in proteins; it is a major constituent of collagen.

Mosby's Dental Dictionary:

proline

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n

A nonessential amino acid found in many proteins of the body, particularly collagen.

Wikipedia on Answers.com:

Proline

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For other uses, see Proline (disambiguation).
Proline
IUPAC name

Proline
Systematic name

Pyrrolidine-2-carboxylic acid[1]
Identifiers
CAS number 609-36-9 YesY, 344-25-2 (R) YesY, 147-85-3 (S) YesY
PubChem 614, 8988 (R), 145742 (S)
ChemSpider 594 YesY, 8640 (R) YesY, 128566 (S) YesY
UNII DCS9E77JPQ YesY
EC number 210-189-3
DrugBank DB02853
KEGG C16435 YesY
MeSH Proline
ChEBI CHEBI:26271 YesY
ChEMBL CHEMBL72275 YesY
RTECS number TW3584000
Beilstein Reference 80812
Gmelin Reference 26927
Jmol-3D images Image 1
Image 2
Properties
Molecular formula C5H9NO2
Molar mass 115.13 g mol−1
Appearance Transparent crystals
Melting point

205-228 °C, 478-501 K, 401-442 °F (decomposes)
Solubility 1.5g/100g ethanol 19 degC [2]
log P -0.06
Acidity (pKa) 2.351
Hazards
MSDS External MSDS
S-phrases S22, S24/25
Supplementary data page
Structure and
properties		 n, εr, etc.
Thermodynamic
data		 Phase behaviour
Solid, liquid, gas
Spectral data UV, IR, NMR, MS
 N (verify) (what is: YesY/N?)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa)
Infobox references

Proline (abbreviated as Pro or P) is an α-amino acid, one of the twenty DNA-encoded amino acids. Its codons are CCU, CCC, CCA, and CCG. It is not an essential amino acid, which means that the human body can synthesize it. It is unique among the 20 protein-forming amino acids in that the α-amino group is secondary. The more common L form has S stereochemistry.

Contents

Biosynthesis

Proline is biosynthetically derived from the amino acid L-glutamate and its immediate precursor is the imino acid (S)-1-pyrroline-5-carboxylate (P5C). Enzymes involved in a typical biosynthesis include:[3]

  1. Glutamate 5-kinase, Glutamate 1-kinase (ATP-dependent)
  2. Glutamate dehydrogenase (requires NADH or NADPH)
  3. Pyrroline-5-carboxylate reductase (requires NADH or NADPH)
Zwitterionic structure of both proline enantiomers: (S)-proline (left) and (R)-proline

Structural properties

The distinctive cyclic structure of proline's side chain locks its φ backbone dihedral angle at approximately −60°, giving proline an exceptional conformational rigidity compared to other amino acids. Hence, proline loses less conformational entropy upon folding, which may account for its higher prevalence in the proteins of thermophilic organisms. Proline acts as a structural disruptor in the middle of regular secondary structure elements such as alpha helices and beta sheets; however, proline is commonly found as the first residue of an alpha helix and also in the edge strands of beta sheets. Proline is also commonly found in turns, which may account for the curious fact that proline is usually solvent-exposed, despite having a completely aliphatic side chain. Because proline lacks a hydrogen on the amide group, it cannot act as a hydrogen bond donor, only as a hydrogen bond acceptor. The distinct side chain/amine group interactions allow proline to aid in the formation of beta turns and also explains why it is not apparent in alpha helices.

A plastic ball-and-stick model of a proline molecule

Multiple prolines and/or hydroxyprolines in a row can create a polyproline helix, the predominant secondary structure in collagen. The hydroxylation of proline by prolyl hydroxylase (or other additions of electron-withdrawing substituents such as fluorine) increases the conformational stability of collagen significantly.[4] Hence, the hydroxylation of proline is a critical biochemical process for maintaining the connective tissue of higher organisms. Severe diseases such as scurvy can result from defects in this hydroxylation, e.g., mutations in the enzyme prolyl hydroxylase or lack of the necessary ascorbate (vitamin C) cofactor.

Sequences of proline and 2-aminoisobutyric acid (Aib) also form a helical turn structure.[citation needed]

In 2006, scientists at ASU discovered that solutions of TiO2 illuminated with ultraviolet radiation can serve as an extremely cost-effective and accurate protein cleavage catalyst. The TiO2 catalyst preferentially and rapidly cleaves protein at sites where proline is present, while taking much longer to degrade the protein from its endpoints.[5]

Peptide bond formation with incoming Pro-tRNAPro is considerably slower than with any other tRNAs, which is a general feature of N-alkylamino acids.[6]

Cis-trans isomerization

Peptide bonds to proline, and to other N-substituted amino acids (such as sarcosine), are able to populate both the cis and trans isomers. Most peptide bonds overwhelmingly adopt the trans isomer (typically 99.9% under unstrained conditions), chiefly because the amide hydrogen (trans isomer) offers less steric repulsion to the preceding \mathrm{C}^{\alpha} atom than does the following \mathrm{C}^{\alpha} atom (cis isomer). By contrast, the cis and trans isomers of the X-Pro peptide bond (where X represents any amino acid) both experience steric clashes with the neighboring substitution and are nearly equal energetically. Hence, the fraction of X-Pro peptide bonds in the cis isomer under unstrained conditions ranges from 10-40%; the fraction depends slightly on the preceding amino acid, with aromatic residues favoring the cis isomer slightly.

From a kinetic standpoint, cis-trans proline isomerization is a very slow process that can impede the progress of protein folding by trapping one or more proline residues crucial for folding in the non-native isomer, especially when the native protein requires the cis isomer. This is because proline residues are exclusively synthesized in the ribosome as the trans isomer form. All organisms possess prolyl isomerase enzymes to catalyze this isomerization, and some bacteria have specialized prolyl isomerases associated with the ribosome. However, not all prolines are essential for folding, and protein folding may proceed at a normal rate despite having non-native conformers of many X-Pro peptide bonds.

Uses

Proline and its derivatives are often used as asymmetric catalysts in organic reactions. The CBS reduction and proline catalysed aldol condensation are prominent examples.

L-Proline is an osmoprotectant and therefore is used in many pharmaceutical, biotechnological applications.

In brewing, proteins rich in proline combine with polyphenols to produce haze (turbidity).[7]

Specialities

Proline is one of the two amino acids that do not follow along with the typical Ramachandran plot, along with glycine. Due to the ring formation connected to the Beta-carbon, the ψ and φ angles about the peptide bond have less allowable degrees of rotation. As a result it is often found in "turns" of proteins as its free entropy (ΔS) is not as comparatively large to other amino acids and thus in a folded form vs. unfolded form, the change in entropy is less. Furthermore, proline is rarely found in α and β structures as it would reduce the stability of such structures, because its side chain α-N can only form one hydrogen bond.

Additionally, proline is the only amino acid that does not form a blue/purple colour when developed by spraying with ninhydrin for uses in chromatography. Proline, instead, produces an orange/yellow colour.

History

Richard Willstätter synthesized proline by the reaction of sodium salt of diethyl malonate with 1,3-Dibromopropane in 1900. In 1901, Hermann Emil Fischer isolated proline from casein and the decomposition products of γ-phthalimido-propylmalonic ester.[8]

See also

Synthesis

Racemic proline can be synthesized from diethyl malonate and acrylonitrile:[9]

DL-Proline synth.png

References

  1. ^ http://pubchem.ncbi.nlm.nih.gov/summary/summary.cgi?cid=614&loc=ec_rcs
  2. ^ http://books.google.ch/books?id=xteiARU46SQC&pg=PA15&lpg=PA15&dq=methionine+solubility+in+ethanol&source=bl&ots=HzHueOPPoB&sig=KjMXxDNgjSvG1CddED9lfaYEhKQ&hl=en&sa=X&ei=2-26T-bZK-mX0QWt3I2ACA&redir_esc=y#v=onepage&q=methionine%20solubility%20in%20ethanol&f=false
  3. ^ 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 .
  4. ^ Szpak, Paul (2011). "Fish bone chemistry and ultrastructure: implications for taphonomy and stable isotope analysis". Journal of Archaeological Science 38 (12): 3358–3372. doi:10.1016/j.jas.2011.07.022. http://uwo.academia.edu/PaulSzpak/Papers/827788/Fish_Bone_Chemistry_and_Ultrastructure_Implications_for_Taphonomy_and_Stable_Isotope_Analysis. 
  5. ^ Jones, Barbara J.; Vergne, Matthew J.; Bunk, David M.; Locascio, Laurie E.; Hayes, Mark A. (2007), "Cleavage of Peptides and Proteins Using Light-Generated Radicals from Titanium Dioxide", Anal. Chem. 79 (4): 1327–32, doi:10.1021/ac0613737, PMID 17297930 .
  6. ^ Pavlov, Michael Y; Watts, Richard E; Tan, Zhongping; Cornish, Virginia W; Forster, Måns; Forster, Anthony C (2010), "Slow peptide bond formation by proline and other N-alkylamino acids in translation", PNAS 106 (1): 50–54, doi:10.1073/pnas.0809211106, PMC 2629218, PMID 19104062 .
  7. ^ K.J. Siebert, "Haze and Foam", <http://www.nysaes.cornell.edu/fst/faculty/siebert/haze.html> Accessed July 12, 2010.
  8. ^ R.H.A. Plimmer (1912) [1908], R.H.A. Plimmer & F.G. Hopkins, ed., The chemical composition of the proteins, Monographs on biochemistry, Part I. Analysis (2nd ed.), London: Longmans, Green and Co., p. 130, http://books.google.com/?id=7JM8AAAAIAAJ&pg=PA130, retrieved September 20, 2010 
  9. ^ Vogel, Practical Organic Chemistry 5th edition

Further reading

  • Balbach, J.; Schmid, F. X. (2000), "Proline isomerization and its catalysis in protein folding", in Pain, R. H., Mechanisms of Protein Folding (2nd ed.), Oxford University Press, pp. 212–49, ISBN 0-19-963788-1 .
  • For a thorough scientific overview of disorders of proline and hydroxyproline metabolism, one can consult chapter 81 of OMMBID Charles Scriver, Beaudet, A.L., Valle, D., Sly, W.S., Vogelstein, B., Childs, B., Kinzler, K.W. (Accessed 2007). The Online Metabolic and Molecular Bases of Inherited Disease. New York: McGraw-Hill. - Summaries of 255 chapters, full text through many universities. There is also the OMMBID blog.
  • For more online resources and references, see inborn errors of metabolism.

External links
By properties
Polar, uncharged
Positive charge (pKa)
Negative charge (pKa)
General
Other classifications
Kacetyl-CoA
G
proline
other
Other

M: MET

mt, k, c/g/r/p/y/i, f/h/s/l/o/e, a/u, n, m

k, cgrp/y/i, f/h/s/l/o/e, au, n, m, epon

m(A16/C10),i(k, c/g/r/p/y/i, f/h/s/o/e, a/u, n, m)

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American Heritage Dictionary The American Heritage® Dictionary of the English Language, Fourth Edition Copyright © 2007, 2000 by Houghton Mifflin Company. Updated in 2009. Published by Houghton Mifflin Company. All rights reserved. Read more
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Oxford Dictionary of Biochemistry Oxford University Press. Oxford Dictionary of Biochemistry and Molecular Biology © 1997, 2000, 2006 All rights reserved. Read more
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Saunders Veterinary Dictionary Saunders Comprehensive Veterinary Dictionary 3rd Edition. Copyright © 2007 by D.C. Blood, V.P. Studdert and C.C. Gay, Elsevier. All rights reserved. Read more
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