L-Glutamine
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| L-Glutamine |
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| IUPAC name |
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| Other names |
2-Amino-4-carbamoylbutanoic acid |
| Identifiers |
| Abbreviations |
Gln, Q |
| CAS number |
56-85-9  Y |
| PubChem |
738 |
| EC-number |
200-292-1 |
| SMILES |
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| ChemSpider ID |
718 |
| Properties[1] |
| Molecular formula |
C5H10N2O3 |
| Molar mass |
146.14 g mol1 |
| Melting point |
185186 ºC decomp.
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| Solubility in water |
soluble |
| Chiral rotation []D |
+6.5º (H2O, c = 2) |
| Supplementary data page |
Structure and
properties |
n, r, etc. |
Thermodynamic
data |
Phase behaviour
Solid, liquid, gas |
| Spectral data |
UV, IR, NMR, MS |
 Y (what is this?) (verify)
Except where noted otherwise, data are given for materials in their standard state (at 25 °C, 100 kPa) |
| Infobox references |
Glutamine (abbreviated as Gln or Q) is one of the 20 amino acids encoded by the standard genetic code. Its side chain is an amide formed by replacing the side-chain hydroxyl of glutamic acid with an amine functional group. It can therefore be considered the amide of glutamic acid. Its codons are CAA and CAG. In human blood glutamine is the most abundant free amino acid with a concentration of about 500-900 µmol/l.[2]
Betain structure
Glutamine zwitterionic forms at neutral pH: L-glutamine (left) and D-glutamine (right)
Functions
Glutamine has a variety of biochemical functions including:
- As any other amino acid, a major role in protein synthesis
- Regulation of acid-base balance in the kidney by producing ammonium[3]
- Cellular energy source, next to glucose[4]
- Nitrogen donor for many anabolic processes[2]
- Carbon source, refilling the Citric acid cycle[5]
Producing and consuming organs
Producers
Glutamine is synthetized by the enzyme glutamine synthetase from glutamate and ammonia. The most relevant glutamine producing organ is the muscle mass accounting for about 90% of all glutamine synthesized. To minor parts glutamine is released by the lung and the brain.[6] Although the liver is capable of relevant glutamine synthesis, its role in glutamine metabolism is more regulatory than producing, since the liver takes up large amounts of glutamine derived from gut.[2]
Consumers
Most eager consumers of glutamine are the cells of intestines[2], the kidney cells for the acid base balance, activated immune cells[7] and many cancer cells.[5]
Examples for the usage of glutamine
In catabolic states of injury and illness, glutamine becomes conditionally-essential (requiring intake from food or supplements). Glutamine has been studied extensively over the past 1015 years and has been shown to be useful in treatment of serious illnesses, injury, trauma, burns, and treatment related side-effects of cancer as well as in wound healing for postoperative patients.[8] Glutamine is also marketed as a supplement used for muscle growth in weightlifting, bodybuilding, endurance, and other sports.[9]
Aiding recovery after surgery
It is also known that glutamine has various effects in reducing healing time after operations. Hospital-stay times after abdominal surgery can be reduced by providing parenteral nutrition regimes containing high amounts of glutamine to patients. Clinical trials have revealed that patients on supplementation regimes containing glutamine have improved nitrogen balances, generation of cysteinyl-leukotrienes from polymorphonuclear neutrophil granulocytes and improved lymphocyte recovery and intestinal permeability (in postoperative patients) - in comparison to those who had no glutamine within their dietary regime; all without any side-effects.[10]
Nutrition
Occurrences in nature
Glutamine is the most abundant naturally occurring, non-essential amino acid in the human body and one of the few amino acids which directly crosses the blood-brain barrier.[11] In the body it is found circulating in the blood as well as stored in the skeletal muscles. It becomes conditionally essential (requiring intake from food or supplements) in states of illness or injury.[8]
Dietary sources
Dietary sources of L-glutamine include beef, chicken, fish, eggs, milk, dairy products, wheat, cabbage, beets, beans, spinach, and parsley. Small amounts of free L-glutamine are also found in vegetable juices and fermented foods, such as miso.[12]
Aiding gastrointestinal function
In recent studies, glutamine-enriched diets have been linked with intestinal effects including maintenance of gut barrier function, and cell differentiation. This may relate to the fact that the intestinal extraction rate of glutamine is higher than that for other amino acids, and is therefore thought to be the most viable option when attempting to alleviate conditions relating to the gastrointestinal tract. These conditions were discovered after comparing plasma concentration within the gut between glutamine-enriched and non glutamine-enriched diets. However, even though glutamine is thought to have "cleansing" properties and effects, it is unknown to what extent glutamine has clinical benefits, due to the varied concentrations of glutamine in varieties of food.[13]
References
- ^ Weast, Robert C., ed. (1981), CRC Handbook of Chemistry and Physics (62nd ed.), Boca Raton, FL: CRC Press, p. C-311, ISBN 0-8493-0462-8 .
- ^ a b c d Brosnan, John T. (2003), "Interorgan amino acid transport and its regulation", J. Nutr. 133 (6): 2068S72S, http://jn.nutrition.org/cgi/content/full/133/6/2068S .
- ^ Guyton, Arthur C.; Hall, John E. (2005), Textbook of Medical Physiology (11th ed.), Saunders, p. 393, ISBN 0721602401 .
- ^ J. Carlos, Aledo (2004), "Glutamine breakdown in rapidly dividing cells: waste or investment?", BioEssays 26 (7): 77885, doi:10.1002/bies.20063 .
- ^ a b Yuneva, Mariia; Zamboni, Nicola; Oefner, Peter; Sachidanandam, Ravi; Lazebnik, Yuri (2007), "Defiency in glutamine but not glucose induces MYC-dependent apoptosis in human cells", J. Cell Biol. 178 (1): 93105, doi:10.1083/jcb.200703099, http://jcb.rupress.org/cgi/content/full/178/1/93 .
- ^ Newsholme, P.; Lima, M. M. R.; Procopio, J.; Pithon-Curi, T. C.; Doi, S. Q.; Bazotte, R. B.; Curi, R. (2003), "Glutamine and glutamate as vital metabolites", Braz. J. Med. Biol. Res. 36 (2): 15363, doi:10.1590/S0100-879X2003000200002, http://www.scielo.br/scielo.php?script=sci_arttext&pid=S0100-879X2003000200002&lng=en&nrm=iso&tlng=en .
- ^ Newsholme, Philip (2001), "Why Is L-Glutamine Metabolism Important to Cells of the Immune System in Health, Postinjury, Surgery or Infection?", J. Nutr. 131 (9): 2515S22S, http://jn.nutrition.org/cgi/content/full/131/9/2515S .
- ^ a b Glutamine, University of Maryland Medical Center, http://www.umm.edu/altmed/articles/glutamine-000307.htm, retrieved 2009-09-06 .
- ^ Ivy, John; Portman, Robert (2004), Nutrient Timing: The Future of Sports Nutrition, Laguna Beach, CA: Basic Health, p. 57, ISBN 1591201411 .
- ^ Morlion, Bart J.; Stehle, Peter; Wachtler, Paul; Siedhoff, Hans-P.; Köller, Manfred; König, Wolfgang; Fürst, Peter; Puchstein, Christoph (1998), "Total parenteral nutrition with glutamine dipeptide after major abdominal surgery: a randomized, double-blind, controlled study", Ann. Surg. 227 (2): 3028, doi:10.1097/00000658-199802000-00022, http://www.annalsofsurgery.com/pt/re/annos/fulltext.00000658-199802000-00022.htm .
- ^ Lee, Wha-Joon; Hawkins, Richard A.; Viña, Juan R.; Peterson, Darryl R. (1998), "Glutamine transport by the blood-brain barrier: a possible mechanism for nitrogen removal", Am. J. Physiol. Cell Physiol. 274 (4): C11017, http://ajpcell.physiology.org/cgi/content/full/274/4/C1101 .
- ^ "Glutamine", Vitamins Supplements Guide, http://www.vitamins-supplements.org/amino-acids/glutamine.php, retrieved 2007-11-01 .
- ^ Jian, Zhu Ming; Cao, J. D.; Zhu, X. G.; Zhao, W. X.; Yu, J. C.; Ma, E. L.; Wang, X. R.; Zhu, M. W. et al. (1999), "The impact of alanyl-glutamine on clinical safety, nitrogen balance, intestinal permeability, and clinical outcome in postoperative patients: a randomized, double-blind, controlled study of 120 patients", J. Parenteral Enteral Nutr. 23 (5 Suppl): S6266, doi:10.1177/014860719902300516, PMID 10483898 .
External links
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Glutamatergics |
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Agonists: Glutamate/Acite Site Competitive Agonists: Aspartate Glutamate Homoquinolinic Acid Ibotenic Acid NMDA Quinolinic Acid Tetrazolylglycine; Glycine Site Agonists: ACBD ACPC ACPD Alanine CCG Cycloserine DHPG Fluoroalanine Glycine HA-966 L-687,414 Milacemide Sarcosine Serine Tetrazolylglycine; Polyamine Site Agonists: Acamprosate Spermidine Spermine
Antagonists: Competitive Antagonists: AP5 (APV) AP7 CGP-37849 CGP-39551 CGP-39653 CGP-40116 CGS-19755 CPP LY-233,053 LY-235,959 LY-274,614 MDL-100,453 Midafotel (d-CPPene) NPC-12,626 NPC-17,742 PBPD PEAQX Perzinfotel PPDA SDZ-220581 Selfotel (CGS-19,755); Noncompetitive Antagonists: ARR-15,896 Caroverine Dexanabinol (HU-211) FPL-12495 FR-115,427 Hodgkinsine Magnesium MDL-27,266 NPS-1506 Psychotridine Zinc; Uncompetitive Pore Blockers: 2-MDP 8A-PDHQ Amantadine Aptiganel (CNS-1102) ARL-12,495 ARL-15,896-AR ARL-16,247 Budipine Delucemine Dexoxadrol Dieticyclidine Dizocilpine (MK-801) Endopsychosin Esketamine Etoxadrol Eticyclidine Gacyclidine Ibogaine Indantadol (CHF-3381) Ketamine Ketobemidone Loperamide Memantine Meperidine (Pethidine) Methadone Methorphan ( Dextromethorphan, Levomethorphan) Milnacipran Morphanol ( Dextrorphan, Levorphanol) NEFA Neramexane Nitrous Oxide Noribogaine Orphenadrine Phencyclamine Phencyclidine Propoxyphene Remacemide Rhynchophylline Riluzole Rimantadine Rolicyclidine Tenocyclidine Tiletamine Tramadol Xenon; Glycine Site Antagonists: ACEA-1021 ACEA-1328 ACPC Carisoprodol CGP-39653 CKA DCKA Felbamate Gavestinel (GV-150,526) GV-196,771 Kynurenic Acid L-689,560 L-701,324 Lacosamide Licostinel (ACEA-1021) LU-73,068 MDL-105,519 Meprobamate MRZ 2/576 PNQX ZD-9379; NR2B Subunit Antagonists: Besonprodil CO-101,244 (PD-174,494) CP-101,606 Eliprodil Haloperidol Ifenprodil Isoxsuprine Nylidrin Ro8-4304 Ro25-6981 Traxoprodil; Polyamine Site Antagonists: Arcaine Co 101676 Diaminopropane Diethylenetriamine Huperzine A Putrescine Ro 25-6981; Unclassified/Unsorted Antagonists: Chloroform Diethyl Ether Enflurane Ethanol (Alcohol) Halothane Isoflurane Methoxyflurane
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This article is from Wikipedia. All text is available under the terms of the GFDL (GNU Free Documentation License)
http://en.wikipedia.org/wiki/L-Glutamine
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drug_details.asp Last Updated November 9 2009
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