Mitochondrial efficiency flexibility in fasting Muscovy ducklings and king penguin chicks

Throughout their life, wild species face periods of food-deprivation that induce energy tradeoffs between survival, growth and reproduction. These fasting periods occur either when food availability is lacking due to adverse climatic conditions or because individuals are engaged in biological proces...

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Bibliographic Details
Main Author: Monternier, Pierre-Axel
Other Authors: Lyon 1, Roussel, Damien
Format: Thesis
Language:French
Published: 2015
Subjects:
Efficacité mitochondriale
Jeûne
Muscle squelettique
Manchot royal
Canard de barbarie
Mitochondrial efficiency
Fast
Skeletal muscles
King penguin
Muscovy ducklings
envir
geo
Antarctic
Manchot
Antarc*
King Penguins
Online Access:http://www.theses.fr/2015LYO10139
Description
Summary:Throughout their life, wild species face periods of food-deprivation that induce energy tradeoffs between survival, growth and reproduction. These fasting periods occur either when food availability is lacking due to adverse climatic conditions or because individuals are engaged in biological processes that prevent food access. This later reason is particularly well illustrated in the king penguin (Aptenodytes patagonicus), a sea bird that has to moult and reproduce on shore whereas he feed exclusively at sea. Moreover king penguin chicks exhibit exceptional survival capacities during their first year of life when they experience a long period of fast in winter. Thus, this species that lives in sub-Antarctic latitudes, is exposed to environmental and physiological energy constraints during food shortage periods. Since king penguins are endotherms, they need to maintain their body temperature at high level despite variations of ambient temperature. Thus thermoregulation is one of the most expensive process and skeletal muscles account for the greater part of heat production in birds. Several studies showed that despite long term cold exposure, energy expenditure of fasting birds decreases allowing energy savings and especially protein sparing. Since skeletal muscles have high implications in energy expenditure and heat production the question of their implication in energy saving mechanisms arises. During my PhD project I studied skeletal muscle metabolism through mitochondrial efficiency. These sub-cellular organelles are the last effectors of energy transduction from nutrient into ATP, an usable energy for cells. Our hypothesis is based on the flexibility of mitochondrial efficiency as a regulator of energy sparing mechanisms which would explain long term resistance to starvation. My studies were conducted in a wild species, the king penguin chicks, that are naturally acclimated to cold environment and experienced long term fasting stage. To further investigate mitochondrial plasticity in response to energy ...

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