SummaryGlia cells are uniquely positioned at synapses, contacting pre- and post-synaptic terminals. At the Drosophila neuromuscular junction, a novel glia-derived TGF-β ligand has been found that modulates a retrograde synaptogenic signal
<div><p>Glia are integral participants in synaptic physiology, remodeling and maturation from blowfl...
We found that glia secrete myoglianin, a TGF-beta ligand, to instruct developmental neural remodelin...
AbstractThe formation of functional synapses requires precise coordination between neurons and their...
SummaryGlial cells are crucial regulators of synapse formation, elimination, and plasticity [1, 2]. ...
SummaryGlial cells are crucial regulators of synapse formation, elimination, and plasticity [1, 2]. ...
SummaryGlia cells are uniquely positioned at synapses, contacting pre- and post-synaptic terminals. ...
Glial cells are crucial regulators of synapse formation, elimination, and plasticity [1, 2]. In vitr...
Emerging evidence in both vertebrates and invertebrates is redefining glia as active players in the ...
Emerging evidence in both vertebrates and invertebrates is redefining glia as active and mobile play...
SummaryBackgroundCell-to-cell communication at the synapse involves synaptic transmission as well as...
Neural circuits are remodeled in response to developmental and environmental cues. Here we show that...
SummaryWe provide evidence for a prodegenerative, glial-derived signaling framework in the Drosophil...
Glial cells are emerging as important regulators of synapse formation, maturation, and plasticity th...
Intercellular signaling is vital for the coordinated development of multicellular organisms. This is...
AbstractMotor neurons that innervate the dorsal longitudinal (flight) muscles, DLMs, make multiple p...
<div><p>Glia are integral participants in synaptic physiology, remodeling and maturation from blowfl...
We found that glia secrete myoglianin, a TGF-beta ligand, to instruct developmental neural remodelin...
AbstractThe formation of functional synapses requires precise coordination between neurons and their...
SummaryGlial cells are crucial regulators of synapse formation, elimination, and plasticity [1, 2]. ...
SummaryGlial cells are crucial regulators of synapse formation, elimination, and plasticity [1, 2]. ...
SummaryGlia cells are uniquely positioned at synapses, contacting pre- and post-synaptic terminals. ...
Glial cells are crucial regulators of synapse formation, elimination, and plasticity [1, 2]. In vitr...
Emerging evidence in both vertebrates and invertebrates is redefining glia as active players in the ...
Emerging evidence in both vertebrates and invertebrates is redefining glia as active and mobile play...
SummaryBackgroundCell-to-cell communication at the synapse involves synaptic transmission as well as...
Neural circuits are remodeled in response to developmental and environmental cues. Here we show that...
SummaryWe provide evidence for a prodegenerative, glial-derived signaling framework in the Drosophil...
Glial cells are emerging as important regulators of synapse formation, maturation, and plasticity th...
Intercellular signaling is vital for the coordinated development of multicellular organisms. This is...
AbstractMotor neurons that innervate the dorsal longitudinal (flight) muscles, DLMs, make multiple p...
<div><p>Glia are integral participants in synaptic physiology, remodeling and maturation from blowfl...
We found that glia secrete myoglianin, a TGF-beta ligand, to instruct developmental neural remodelin...
AbstractThe formation of functional synapses requires precise coordination between neurons and their...
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