Difference between revisions of "Attached cells"
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* [[Jones_2010_Biochim_Biophys_Acta|Jones TT, Brewer GJ (2010) Age-related deficiencies in Complex I endogenous substrate availability and reserve capacity of Complex IV in cortical neuron electron transport.Β Biochim Biophys Acta Bioenergetics 1797: 167-176]]. | * [[Jones_2010_Biochim_Biophys_Acta|Jones TT, Brewer GJ (2010) Age-related deficiencies in Complex I endogenous substrate availability and reserve capacity of Complex IV in cortical neuron electron transport.Β Biochim Biophys Acta Bioenergetics 1797: 167-176]]. | ||
Additional general information is provided in the entry on [[ | Additional general information is provided in the entry on [[living cells]]. |
Revision as of 08:22, 15 May 2019
The Oroboros-O2k is principally designed to measure respiration in non-adherent, suspended samples, i.e. suspensions of cells or mitochondria, tissue homogenates or permeabilized fibers. However, successful efforts have been made to apply the Oroboros-O2k for measurements on adherent cells. Specifically, the lab of Gregory Brewer developed techniques for high-resolution respirometry with the Oroboros-O2k of neuronal cells attached to a substrate:
- Jones TT, Brewer GJ (2009) Critical age-related loss of cofactors of neuron cytochrome c oxidase reversed by estrogen. Exp Neurology 215: 212-219
- Jones TT, Brewer GJ (2010) Age-related deficiencies in Complex I endogenous substrate availability and reserve capacity of Complex IV in cortical neuron electron transport. Biochim Biophys Acta Bioenergetics 1797: 167-176.
Additional general information is provided in the entry on living cells.