Difference between revisions of "Glutamate"
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|abbr=G | |abbr=G | ||
|description=[[File:Glutamic_acid.jpg|left|100px|Glutamic acid]] | |description=[[File:Glutamic_acid.jpg|left|100px|Glutamic acid]] | ||
'''Glutamic acid''', C<sub>5</sub>H<sub>9</sub>NO<sub>4</sub>, is an amino acid which occurs under physiological conditions mainly as the anion '''glutamate<sup>-</sup>, G''', with ''p''K<sub>a1</sub> = 2.1, ''p''K<sub>a2</sub> = 4.07 and ''p''K<sub>a3</sub> = 9.47. Glutamate&malate is a substrate combination supporting an N-linked pathway control state, when glutamate is transported into the mt-matrix via the [[glutamate-aspartate carrier]] and reacts with [[oxaloacetate]] in the [[transaminase]] reaction to form [[aspartate]] and [[oxoglutarate]]. Glutamate as the sole substrate is transported by the electroneutral glutamate<sup>-</sup>/OH<sup>-</sup> exchanger, and is oxidized in the mitochondrial matrix by [[glutamate dehydrogenase]] to α-ketoglutarate ([[oxoglutarate | 2-oxoglutarate]]), representing the [[glutamate anaplerotic pathway control state]]. Ammonia (the byproduct of the reaction) passes freely through the mitochondrial membrane. | '''Glutamic acid''', C<sub>5</sub>H<sub>9</sub>NO<sub>4</sub>, is an amino acid which occurs under physiological conditions mainly as the anion '''glutamate<sup>-</sup>, G''', with ''p''K<sub>a1</sub> = 2.1, ''p''K<sub>a2</sub> = 4.07 and ''p''K<sub>a3</sub> = 9.47. Glutamate&malate is a substrate combination supporting an N-linked pathway control state, when glutamate is transported into the mt-matrix via the [[glutamate-aspartate carrier]] and reacts with [[oxaloacetate]] in the [[transaminase]] reaction to form [[aspartate]] and [[oxoglutarate]]. Glutamate as the sole substrate is transported by the electroneutral glutamate<sup>-</sup>/OH<sup>-</sup> exchanger, and is oxidized in the mitochondrial matrix by [[glutamate dehydrogenase]] to α-ketoglutarate ([[oxoglutarate | 2-oxoglutarate]]), representing the [[glutamate-anaplerotic pathway control state]]. Ammonia (the byproduct of the reaction) passes freely through the mitochondrial membrane. | ||
|info=[[Gnaiger 2014 MitoPathways]] | |info=[[Gnaiger 2014 MitoPathways]] | ||
}} | }} | ||
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|mitopedia topic=Substrate and metabolite | |mitopedia topic=Substrate and metabolite | ||
}} | }} | ||
[[File:G.jpg|right|240px|link=Glutamate anaplerotic pathway control state|G]] | [[File:G.jpg|right|240px|link=Glutamate-anaplerotic pathway control state|G]] | ||
== Application in [[HRR]] == | == Application in [[HRR]] == | ||
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:::» [[MitoPedia: SUIT]] | :::» [[MitoPedia: SUIT]] | ||
::::» [[Glutamate anaplerotic pathway control state]] | ::::» [[Glutamate-anaplerotic pathway control state]] | ||
Revision as of 11:31, 3 June 2020
Description
Glutamic acid, C5H9NO4, is an amino acid which occurs under physiological conditions mainly as the anion glutamate-, G, with pKa1 = 2.1, pKa2 = 4.07 and pKa3 = 9.47. Glutamate&malate is a substrate combination supporting an N-linked pathway control state, when glutamate is transported into the mt-matrix via the glutamate-aspartate carrier and reacts with oxaloacetate in the transaminase reaction to form aspartate and oxoglutarate. Glutamate as the sole substrate is transported by the electroneutral glutamate-/OH- exchanger, and is oxidized in the mitochondrial matrix by glutamate dehydrogenase to α-ketoglutarate ( 2-oxoglutarate), representing the glutamate-anaplerotic pathway control state. Ammonia (the byproduct of the reaction) passes freely through the mitochondrial membrane.
Abbreviation: G
Reference: Gnaiger 2014 MitoPathways
MitoPedia topics:
Substrate and metabolite
Application in HRR
- G: Glutamate (L-Glutamic acid, monosodium salt hydrate, C5H8NO4Na; contains 1 mol H2O /mol); Sigma G 1626, 100 g, store at R.T.; FW = 169.1)
- Preparation of 2 M stock solution (dissolved in H2O)
- Weigh 1.691 g L-Glutamic acid, monosodium salt hydrate, and transfer to a 5 mL volumetric glass flask.
- Add 3 mL H2O.
- Adjust pH with 5 M KOH to pH 7.0.
- Adjust final volume to 5 mL and divide into 0.5 mL portions.
- Store at -20 °C.
- » O2k manual titrations MiPNet09.12 O2k-Titrations
- Titration volume: 10 µL using a 25 µl syringe (2 mL O2k-Chamber).
- Final concentration: 10 mM.