Voluntary motor control requires circuits in the brain to develop synchronously with spinal motor circuitry. In this issue of Developmental Cell, Reimer et al. (2013) demonstrate that this process is coordinated in zebrafish: dopamine released from descending projections modulates formation of motor neurons by attenuating the response of progenitors to Shh signaling
In this issue of Neuron, three papers, Severi et al. (2014), Thiele et al. (2014), and Wang and McLe...
To determine the impact of a controlled loss of dopaminergic neurons on locomotor function, we gener...
The catecholamines dopamine and noradrenaline provide some of the major neuromodulatory systems with...
SummaryCoordinated development of brain stem and spinal target neurons is pivotal for the emergence ...
Coordinated development of brain stem and spinal target neurons is pivotal for the emergence of a pr...
Dopamine (DA) plays an important role in modulating spinal motor circuits. Studies of both developin...
Dopamine is a key neuromodulator of locomotory circuits, yet, the role that dopamine plays during de...
SummaryBackgroundDopamine (DA) has long been known to have modulatory effects on vertebrate motor ci...
Essential components of animal behaviour are modulated by dopaminergic (DA) and noradrenergic circui...
The mechanisms stimulating adult neurogenesis are unclear. Here, the authors show the contribution o...
The development of spinal circuits underlying motor behaviors was examined in zebrafish. Zebrafish e...
Dopamine (DA) is a known modulator of motor circuits. Here, Jay et al. use the zebrafish to study in...
Zebrafish have become an important model organism to study the genetic control of vertebrate nervous...
A basic question in the field of motor control is how different actions are represented by activity ...
Voluntary motor control requires circuits in the brain to develop synchronously with spinal motor ci...
In this issue of Neuron, three papers, Severi et al. (2014), Thiele et al. (2014), and Wang and McLe...
To determine the impact of a controlled loss of dopaminergic neurons on locomotor function, we gener...
The catecholamines dopamine and noradrenaline provide some of the major neuromodulatory systems with...
SummaryCoordinated development of brain stem and spinal target neurons is pivotal for the emergence ...
Coordinated development of brain stem and spinal target neurons is pivotal for the emergence of a pr...
Dopamine (DA) plays an important role in modulating spinal motor circuits. Studies of both developin...
Dopamine is a key neuromodulator of locomotory circuits, yet, the role that dopamine plays during de...
SummaryBackgroundDopamine (DA) has long been known to have modulatory effects on vertebrate motor ci...
Essential components of animal behaviour are modulated by dopaminergic (DA) and noradrenergic circui...
The mechanisms stimulating adult neurogenesis are unclear. Here, the authors show the contribution o...
The development of spinal circuits underlying motor behaviors was examined in zebrafish. Zebrafish e...
Dopamine (DA) is a known modulator of motor circuits. Here, Jay et al. use the zebrafish to study in...
Zebrafish have become an important model organism to study the genetic control of vertebrate nervous...
A basic question in the field of motor control is how different actions are represented by activity ...
Voluntary motor control requires circuits in the brain to develop synchronously with spinal motor ci...
In this issue of Neuron, three papers, Severi et al. (2014), Thiele et al. (2014), and Wang and McLe...
To determine the impact of a controlled loss of dopaminergic neurons on locomotor function, we gener...
The catecholamines dopamine and noradrenaline provide some of the major neuromodulatory systems with...
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