Publication date
January 2014
DOIAbstract
doi: 10.3389/fphys.2014.00117 Building a brain under nutritional restriction: insights on sparing and plasticity from Drosophila studies Elodie Lanet and Cédric Maurange
doi: 10.3389/fphys.2014.00117 Building a brain under nutritional restriction: insights on sparing and plasticity from Drosophila studies Elodie Lanet and Cédric Maurange
Drosophila has been an ideal system in which to identify molecules and define pathways involved in d...
Grewal* The larval period of the Drosophila life cycle is characterized by immense growth. In nutrie...
International audienceSystemic signals provided by nutrients and hormones are known to coordinate th...
International audienceWhile the growth of the developing brain is known to be well-protected compare...
Abstract: Background: Drosophila neuroblasts (NBs) are neural stem cells whose maintenance relies on...
Background Animal growth is influenced by the genetic background and the environmental circumsta...
The adaptable transcriptional response to changes in food availability not only ensures animal survi...
When developing animals encounter nutrient restriction, most tissues stop growing. Some vital tissue...
The neuroendocrine architecture and insulin/insulin-like signaling (IIS) events in Drosophila are re...
The brain regulates energy homeostasis in the organism. Under resource shortage, the brain takes pri...
Gene-diet interactions play a crucial but poorly understood role in susceptibility to obesity. Accor...
SummaryDeveloping animals survive periods of starvation by protecting the growth of critical organs ...
Animal growth is influenced by the genetic background and the environmental circumstances. How genes...
Dietary restriction (DR) extends life span in many organisms, through unknown mechanisms that may or...
Dietary restriction (DR) extends life span across taxa. Despite considerable research, universal mec...
Drosophila has been an ideal system in which to identify molecules and define pathways involved in d...
Grewal* The larval period of the Drosophila life cycle is characterized by immense growth. In nutrie...
International audienceSystemic signals provided by nutrients and hormones are known to coordinate th...
International audienceWhile the growth of the developing brain is known to be well-protected compare...
Abstract: Background: Drosophila neuroblasts (NBs) are neural stem cells whose maintenance relies on...
Background Animal growth is influenced by the genetic background and the environmental circumsta...
The adaptable transcriptional response to changes in food availability not only ensures animal survi...
When developing animals encounter nutrient restriction, most tissues stop growing. Some vital tissue...
The neuroendocrine architecture and insulin/insulin-like signaling (IIS) events in Drosophila are re...
The brain regulates energy homeostasis in the organism. Under resource shortage, the brain takes pri...
Gene-diet interactions play a crucial but poorly understood role in susceptibility to obesity. Accor...
SummaryDeveloping animals survive periods of starvation by protecting the growth of critical organs ...
Animal growth is influenced by the genetic background and the environmental circumstances. How genes...
Dietary restriction (DR) extends life span in many organisms, through unknown mechanisms that may or...
Dietary restriction (DR) extends life span across taxa. Despite considerable research, universal mec...
Drosophila has been an ideal system in which to identify molecules and define pathways involved in d...
Grewal* The larval period of the Drosophila life cycle is characterized by immense growth. In nutrie...
International audienceSystemic signals provided by nutrients and hormones are known to coordinate th...
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