Cookies help us deliver our services. By using our services, you agree to our use of cookies. More information

Difference between revisions of "Attached cells"

From Bioblast
(Created page with "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...")
ย 
Line 2: Line 2:
* [[Jones_2009_ExpNeurol|Jones TT, Brewer GJ (2009) Critical age-related loss of cofactors of neuron cytochrome c oxidase reversed by estrogen.ย  Exp Neurology 215: 212-219]]
* [[Jones_2009_ExpNeurol|Jones TT, Brewer GJ (2009) Critical age-related loss of cofactors of neuron cytochrome c oxidase reversed by estrogen.ย  Exp Neurology 215: 212-219]]
* [[Jones_2010_BBA|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.ย  Biochim Biophys Acta Bioenergetics 1797: 167-176]].
* [[Jones_2010_BBA|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.ย  Biochim Biophys Acta Bioenergetics 1797: 167-176]].
Additional general information is provided in the entry on [[intact cells]].

Revision as of 11:28, 25 November 2013

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:

Additional general information is provided in the entry on intact cells.