Pichaud 2010 J Exp Biol: Difference between revisions
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Supplementary material available online at http://jeb.biologists.org/cgi/content/full/213/10/1665/DC1 | Supplementary material available online at http://jeb.biologists.org/cgi/content/full/213/10/1665/DC1 | ||
|keywords=Drosophila simulans, metabolism, mitochondrial DNA, mitochondrial respiration, temperature, thermal sensitivity. | |keywords=Drosophila simulans, metabolism, mitochondrial DNA, mitochondrial respiration, temperature, thermal sensitivity. | ||
|mipnetlab=CA_Rimouski_Blier PU, | |mipnetlab=CA_Rimouski_Blier PU, AU Sydney Ballard JWO | ||
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{{Labeling | {{Labeling | ||
|organism=Other Non-Mammal | |instruments=Oxygraph-2k | ||
|injuries=z in prep | |||
|organism=z in prep, Other Non-Mammal | |||
|preparations=Isolated Mitochondria | |preparations=Isolated Mitochondria | ||
|enzymes=Complex I, Complex III | |enzymes=Complex I, Complex III | ||
|kinetics=Temperature | |||
|topics=z in prep | |||
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Revision as of 10:36, 16 February 2012
| Pichaud N, Chatelain HE, Ballard JWO, Tanguay R, Morrow G, Blier PU (2010)Thermal sensitivity of mitochondrial metabolism in two distinct mitotypes of Drosophila simulans: evaluation of mitochondrial plasticity. J. Exp. Biol. 213: 1665-1675. |
ยป [[Has info::PMID:20435817]]
Pichaud N, Chatelain HE, Ballard JWO, Tanguay R, Morrow G, Blier PU (2010) J. Exp. Biol.
Abstract: The overall aim of this study was to (1) evaluate the adaptive value of mitochondrial DNA by comparing mitochondrial performance in populations possessing different haplotypes and distribution, and to (2) evaluate the sensitivity of different enzymes of the electron transport system (ETS) during temperature-induced changes. We measured the impact of temperature of mitochondrial respiration and several key enzymes of mitochondrial metabolism in two mitotypes (siII and siIII) of Drosophila simulans. The temperature dependencies of oxygen consumption for mitochondria isolated from flight muscle was assessed with complex I substrates (pyruvate + malate + proline) and with sn glycerol-3-phosphate (to reduce complex III via glycerophosphate dehydrogenase) in both coupled and uncoupled states. Activities of citrate synthase, cytochrome c oxidase (COX), catalase and aconitase, and the excess capacity of COX at high convergent pathway flux were also measured as a function of temperature. Overall, our results showed that functional differences between the two mitotypes are few. Results suggest that differences between the two mitotypes could hardly explain the temperature-specific differences measured in mitochondria performances. It suggests that some other factor(s) may be driving the maintenance of mitotypes. We also show that the different enzymes of the ETS have different thermal sensitivities. The catalytic capacities of these enzymes vary with temperature changes, and the corresponding involvement of the different steps on mitochondrial regulation probably varies with temperature. For example, the excess COX capacity is low, even non-existent, at high and intermediate temperatures (18ยฐC, 24ยฐC and 28ยฐC) whereas it is quite high at a lower temperature (12ยฐC), suggesting release of respiration control by COX at low temperature.
Supplementary material available online at http://jeb.biologists.org/cgi/content/full/213/10/1665/DC1 โข Keywords: Drosophila simulans, metabolism, mitochondrial DNA, mitochondrial respiration, temperature, thermal sensitivity.
โข O2k-Network Lab: CA_Rimouski_Blier PU, AU Sydney Ballard JWO
Labels:
Stress:z in prep Organism: z in prep, Other Non-Mammal
Preparation: Isolated Mitochondria Enzyme: Complex I, Complex III Regulation: z in prep
HRR: Oxygraph-2k
