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Difference between revisions of "Flux"

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{{MitoPedia
{{MitoPedia
|abbr=''J''
|abbr=''J''
|description='''Flux''', ''J'', is a [[specific quantity]]. Flux is [[flow]], ''I'' [MU·s<sup>-1</sup> per system] (an [[extensive quantity]]), divided by system size.  Flux (''e.g.'', [[oxygen flux]]) may be volume-specific (flow per volume [MU·s<sup>-1</sup>·L<sup>-1</sup>]), mass-specific (flow per mass [MU·s<sup>-1</sup>·kg<sup>-1</sup>]), or marker-specific (e.g. flow per mtEU). The motive unit [MU] of chemical flow or flux is the advancement of reaction [mol] in the chemical format.
|description='''Flux''', ''J'', is a [[specific quantity]]. Flux is [[flow]], ''I'' [MU·s<sup>-1</sup> per system] (an [[extensive quantity]]), divided by system size.  Flux (''e.g.'', [[oxygen flux]]) may be volume-specific (flow per volume [MU·s<sup>-1</sup>·L<sup>-1</sup>]), mass-specific (flow per mass [MU·s<sup>-1</sup>·kg<sup>-1</sup>]), or marker-specific (e.g. flow per mtEU). The [[motive unit]] [MU] of chemical flow or flux is the advancement of reaction [mol] in the chemical format.
|info=[[Gnaiger 2019 MitoFit Preprint Arch]], [[Gnaiger 1993 Pure Appl Chem]]
|info=[[BEC 2020.1]], [[Gnaiger 1993 Pure Appl Chem]]
}}
}}
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{{MitoPedia concepts
{{MitoPedia concepts

Revision as of 11:29, 23 May 2020


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Flux

Description

Flux, J, is a specific quantity. Flux is flow, I [MU·s-1 per system] (an extensive quantity), divided by system size. Flux (e.g., oxygen flux) may be volume-specific (flow per volume [MU·s-1·L-1]), mass-specific (flow per mass [MU·s-1·kg-1]), or marker-specific (e.g. flow per mtEU). The motive unit [MU] of chemical flow or flux is the advancement of reaction [mol] in the chemical format.

Abbreviation: J

Reference: BEC 2020.1, Gnaiger 1993 Pure Appl Chem

References

Bioblast linkReferenceYear
Gnaiger E (1993) Efficiency and power strategies under hypoxia. Is low efficiency at high glycolytic ATP production a paradox? In: Surviving hypoxia: Mechanisms of control and adaptation. Hochachka PW, Lutz PL, Sick T, Rosenthal M, Van den Thillart G (eds) CRC Press, Boca Raton, Ann Arbor, London, Tokyo:77-109.1993
Gnaiger E (1993) Nonequilibrium thermodynamics of energy transformations. Pure Appl Chem 65:1983-2002. http://dx.doi.org/10.1351/pac1993650919831993
Gnaiger E (2020) Mitochondrial pathways and respiratory control. An introduction to OXPHOS analysis. 5th ed. Bioenerg Commun 2020.2. https://doi.org/10.26124/bec:2020-00022020
Gnaiger E et al ― MitoEAGLE Task Group (2020) Mitochondrial physiology. Bioenerg Commun 2020.1. https://doi.org/10.26124/bec:2020-0001.v12020


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