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Salin 2015 Proc Biol Sci

From Bioblast
Publications in the MiPMap
Salin K, Auer SK, Rey B, Selman C, Metcalfe NB (2015) Variation in the link between oxygen consumption and ATP production, and its relevance for animal performance. Proc Biol Sci 282.pii:20151028.

Β» PMID: 26203001 Open Access

Salin K, Auer SK, Rey B, Selman C, Metcalfe NB (2015) Proc Biol Sci

Abstract: It is often assumed that an animal's metabolic rate can be estimated through measuring the whole-organism oxygen consumption rate. However, oxygen consumption alone is unlikely to be a sufficient marker of energy metabolism in many situations. This is due to the inherent variability in the link between oxidation and phosphorylation; that is, the amount of adenosine triphosphate (ATP) generated per molecule of oxygen consumed by mitochondria (P/O ratio). In this article, we describe how the P/O ratio can vary within and among individuals, and in response to a number of environmental parameters, including diet and temperature. As the P/O ratio affects the efficiency of cellular energy production, its variability may have significant consequences for animal performance, such as growth rate and reproductive output. We explore the adaptive significance of such variability and hypothesize that while a reduction in the P/O ratio is energetically costly, it may be associated with advantages in terms of somatic maintenance through reduced production of reactive oxygen species. Finally, we discuss how considering variation in mitochondrial efficiency, together with whole-organism oxygen consumption, can permit a better understanding of the relationship between energy metabolism and life history for studies in evolutionary ecology. β€’ Keywords: Mitochondrial coupling efficiency, Life history, Oxidative stress, Reactive oxygen species, Trade-off, Uncoupling

β€’ O2k-Network Lab: FR Plouzane Salin K, UK Aberdeen Selman C, UK Glasgow Metcalfe NB


Labels: MiParea: Respiration, mt-Membrane, Comparative MiP;environmental MiP, Exercise physiology;nutrition;life style 

Stress:Temperature