Add to ORKGPresynaptic homeostatic plasticity stabilizes information transfer at synaptic connections in organisms ranging from insect to human. By analogy with principles of engineering and control theory, the molecular implementation of PHP is thought to require postsynaptic signaling modules that encode homeostatic sensors, a set point, and a controller that regulates transsynaptic negative feedback. The molecular basis for these postsynaptic, homeostatic signaling elements remains unknown. Here, an electrophysiology-based screen of the Drosophila kinome and phosphatome defines a postsynaptic signaling platform that includes a required function for PI3K-cII, PI3K-cIII and the small GTPase Rab11 during the rapid and sustained expression of PHP. We p...
AbstractRetrograde signaling plays an important role in synaptic homeostasis, growth, and plasticity...
Phosphoinositides (PI) are lipid molecules reversibly phosphorylated by kinases at the 3’, 4’ and 5’...
SummaryGiven the complexity of the nervous system and its capacity for change, it is remarkable that...
Presynaptic homeostatic plasticity stabilizes information transfer at synaptic connections in organi...
Homeostatic plasticity mechanisms stabilize neural function in organisms ranging from insect to huma...
Presynaptic homeostatic plasticity (PHP) compensates for impaired postsynaptic neurotransmitter rece...
Presynaptic homeostatic plasticity (PHP) stabilizes synaptic transmission by counteracting impaired ...
Plastic changes in synaptic transmission are thought to underlie learning and memory formation. Howe...
We define a homeostatic function for innate immune signaling within neurons. A genetic analysis of t...
Retrograde signaling systems are fundamental modes of communication synapses utilize to dynamically ...
Presynaptic homeostatic plasticity (PHP) compensates for impaired postsynaptic neurotransmitter rece...
Presynaptic homeostatic plasticity (PHP) compensates for impaired postsynaptic neurotransmitter rece...
PI3K activation is the starting point of signaling pathways relaying on changes in the phosphorylati...
The number of synapses is a major determinant of behavior and many neural diseases exhibit deviation...
The number of synapses is a major determinant of behavior and many neural diseases exhibit deviation...
AbstractRetrograde signaling plays an important role in synaptic homeostasis, growth, and plasticity...
Phosphoinositides (PI) are lipid molecules reversibly phosphorylated by kinases at the 3’, 4’ and 5’...
SummaryGiven the complexity of the nervous system and its capacity for change, it is remarkable that...
Presynaptic homeostatic plasticity stabilizes information transfer at synaptic connections in organi...
Homeostatic plasticity mechanisms stabilize neural function in organisms ranging from insect to huma...
Presynaptic homeostatic plasticity (PHP) compensates for impaired postsynaptic neurotransmitter rece...
Presynaptic homeostatic plasticity (PHP) stabilizes synaptic transmission by counteracting impaired ...
Plastic changes in synaptic transmission are thought to underlie learning and memory formation. Howe...
We define a homeostatic function for innate immune signaling within neurons. A genetic analysis of t...
Retrograde signaling systems are fundamental modes of communication synapses utilize to dynamically ...
Presynaptic homeostatic plasticity (PHP) compensates for impaired postsynaptic neurotransmitter rece...
Presynaptic homeostatic plasticity (PHP) compensates for impaired postsynaptic neurotransmitter rece...
PI3K activation is the starting point of signaling pathways relaying on changes in the phosphorylati...
The number of synapses is a major determinant of behavior and many neural diseases exhibit deviation...
The number of synapses is a major determinant of behavior and many neural diseases exhibit deviation...
AbstractRetrograde signaling plays an important role in synaptic homeostasis, growth, and plasticity...
Phosphoinositides (PI) are lipid molecules reversibly phosphorylated by kinases at the 3’, 4’ and 5’...
SummaryGiven the complexity of the nervous system and its capacity for change, it is remarkable that...