Add to ORKGThe Drosophila larva is an excellent model organism to study the neural correlates of behavior. It possesses a tractable yet complex nervous system that is capable of integrating and transforming multimodal sensory stimuli into complex navigational decisions. In the larva, activity of individual neurons –the building blocks of the nervous system– could be reliably monitored and manipulated thanks to the unmatched genetic tools available in Drosophila. Recent efforts to reconstruct the connectome of the whole larval nervous system enable circuit-level analysis of the neural mechanisms underlying the larval behavior. The larva exhibits robust navigation in the presence of volatile chemical cues (chemotaxis). Larval chemotaxis comprises alt...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
En este estudio hemos aprovechado la simplicidad numérica del sistema nervioso de la larva de la Dro...
The Drosophila larva is an excellent model organism to study the neural correlates of behavior. It p...
The Drosophila larva is an excellent model organism to study the neural correlates of behavior. It p...
Drosophila larvae present unique opportunity for anatomical and functional mapping of their nervous ...
Drosophila larvae present unique opportunity for anatomical and functional mapping of their nervous ...
Sensory navigation results from coordinated transitions between distinct behavioral programs. During...
Sensory navigation results from coordinated transitions between distinct behavioral programs. During...
Chemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate changes...
Chemotaxis is a powerful paradigm to study how sensory stimulations drive orientation behaviors in ...
Chemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate changes...
Chemotaxis is a powerful paradigm to study how sensory stimulations drive orientation behaviors in ...
SummaryChemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate ...
SummaryChemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate ...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
En este estudio hemos aprovechado la simplicidad numérica del sistema nervioso de la larva de la Dro...
The Drosophila larva is an excellent model organism to study the neural correlates of behavior. It p...
The Drosophila larva is an excellent model organism to study the neural correlates of behavior. It p...
Drosophila larvae present unique opportunity for anatomical and functional mapping of their nervous ...
Drosophila larvae present unique opportunity for anatomical and functional mapping of their nervous ...
Sensory navigation results from coordinated transitions between distinct behavioral programs. During...
Sensory navigation results from coordinated transitions between distinct behavioral programs. During...
Chemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate changes...
Chemotaxis is a powerful paradigm to study how sensory stimulations drive orientation behaviors in ...
Chemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate changes...
Chemotaxis is a powerful paradigm to study how sensory stimulations drive orientation behaviors in ...
SummaryChemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate ...
SummaryChemotaxis is a powerful paradigm to investigate how nervous systems represent and integrate ...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
More than 30 years of studies into Drosophila melanogaster neurogenesis have revealed fundamental in...
En este estudio hemos aprovechado la simplicidad numérica del sistema nervioso de la larva de la Dro...