Add to ORKGHibernation is characterized by prolonged periods of inactivity with concomitantly low nutrient intake, conditions that would typically result in muscle atrophy combined with a loss of oxidative fibers. Yet, hibernators consistently emerge from winter with very little atrophy, frequently accompanied by a slight shift in fiber ratios to more oxidative fiber types. Preservation of muscle morphology is combined with down-regulation of glycolytic pathways and increased reliance on lipid metabolism instead. Furthermore, while rates of protein synthesis are reduced during hibernation, balance is maintained by correspondingly low rates of protein degradation. Proposed mechanisms include a number of signaling pathways and transcription factors that...
The maintenance of sufficient muscle function to support flight is essential to successful hibernati...
International audienceOxidative stress, which is believed to promote muscle atrophy, has been report...
Mammalian hibernation is a strategy employed by many species to survive fluctuations in resource ava...
Hibernation is characterized by prolonged periods of inactivity with concomitantly low nutrient inta...
BACKGROUND: Skeletal muscle is able to react in a rapid, dynamic way to metabolic and mechanical sti...
Striated muscle shows an amazing ability to adapt its structural apparatus based on contractile acti...
Background: In mammals, the hibernating state is characterized by biochemical adjustments, which inc...
International audienceProteins are not only the major structural components of living cells but also...
Hibernating animals exhibit an unexplained physiological characteristic of skeletal muscles being at...
Myostatin, a negative regulator of muscle mass, is elevated during disuse and starvation. Mammalian ...
Smooth and skeletal muscle changes were compared from overwintering white-tailed prairie dogs, spont...
Hibernating mammals experience prolonged periods of torpor and starvation during winter for up to 5-...
The maintenance of sufficient muscle function to support flight is essential to successful hibernati...
International audienceOxidative stress, which is believed to promote muscle atrophy, has been report...
Mammalian hibernation is a strategy employed by many species to survive fluctuations in resource ava...
Hibernation is characterized by prolonged periods of inactivity with concomitantly low nutrient inta...
BACKGROUND: Skeletal muscle is able to react in a rapid, dynamic way to metabolic and mechanical sti...
Striated muscle shows an amazing ability to adapt its structural apparatus based on contractile acti...
Background: In mammals, the hibernating state is characterized by biochemical adjustments, which inc...
International audienceProteins are not only the major structural components of living cells but also...
Hibernating animals exhibit an unexplained physiological characteristic of skeletal muscles being at...
Myostatin, a negative regulator of muscle mass, is elevated during disuse and starvation. Mammalian ...
Smooth and skeletal muscle changes were compared from overwintering white-tailed prairie dogs, spont...
Hibernating mammals experience prolonged periods of torpor and starvation during winter for up to 5-...
The maintenance of sufficient muscle function to support flight is essential to successful hibernati...
International audienceOxidative stress, which is believed to promote muscle atrophy, has been report...
Mammalian hibernation is a strategy employed by many species to survive fluctuations in resource ava...