Difference between revisions of "ET capacity"
From Bioblast
m |
|||
Line 1: | Line 1: | ||
Respiratory electron transfer system capacity of mitochondria in the experimentally induced state of [[non-coupled respiration]] (fully uncoupled; state ''E''), obtained in intact cells or mitochondrial preparations with defined substrates, by titration of an established [[uncoupler]] up to optimum concentration at maximum flux.Β Non-coupled respiration yields an estimate of ETS capacity.Β In this state ''[[E]]'', the mt-membrane potential is collapsed, which provides a reference state for flux control ratios and for measurement of the mt-membrane potential. | {{MitoPedia | ||
|description='''Respiratory [[electron transfer system]] capacity''' of mitochondria in the experimentally induced state of [[non-coupled respiration]] (fully uncoupled; state ''E''), obtained in intact cells or mitochondrial preparations with defined substrates, by titration of an established [[uncoupler]] up to optimum concentration at maximum flux.Β Non-coupled respiration yields an estimate of ETS capacity.Β In this state ''[[E]]'', the mt-membrane potential is collapsed, which provides a reference state for flux control ratios and for measurement of the mt-membrane potential. | |||
Β | |||
{{ | |info=[[MiPNet12.15]]; [[Gnaiger_2009_IJCBC]] | ||
|type=Respiration | |||
}} | |||
{{Labeling | |||
|discipline=Mitochondrial Physiology | |||
}} |
Revision as of 11:41, 14 September 2010
Description
Respiratory electron transfer system capacity of mitochondria in the experimentally induced state of non-coupled respiration (fully uncoupled; state E), obtained in intact cells or mitochondrial preparations with defined substrates, by titration of an established uncoupler up to optimum concentration at maximum flux. Non-coupled respiration yields an estimate of ETS capacity. In this state E, the mt-membrane potential is collapsed, which provides a reference state for flux control ratios and for measurement of the mt-membrane potential.
Reference: MiPNet12.15; Gnaiger_2009_IJCBC
Labels: