Switching Gears, Structuring the Right Search Strategy.
Felsenberg J. and Waddell S., (2019), Neuron, 102, 273 - 275
Editorial overview: Neurobiology of learning and plasticity.
Waddell S. and Sjöström PJ., (2019), Curr Opin Neurobiol, 54, iii - vi
Integration of Parallel Opposing Memories Underlies Memory Extinction.
Felsenberg J. et al, (2018), Cell, 175, 709 - 722.e15
Cellular diversity in the Drosophila midbrain revealed by single-cell transcriptomics.
Croset V. et al, (2018), Elife, 7
Do the right thing: neural network mechanisms of memory formation, expression and update in Drosophila.
Cognigni P. et al, (2018), Curr Opin Neurobiol, 49, 51 - 58
Rapid adaptive remote focusing microscope for sensing of volumetric neural activity.
Žurauskas M. et al, (2017), Biomed Opt Express, 8, 4369 - 4379
Single molecule fluorescence in situ hybridisation for quantitating post-transcriptional regulation in Drosophila brains.
Yang L. et al, (2017), Methods, 126, 166 - 176
Resolving the prevalence of somatic transposition in Drosophila.
Treiber CD. and Waddell S., (2017), Elife, 6
Re-evaluation of learned information in Drosophila.
Felsenberg J. et al, (2017), Nature, 544, 240 - 244
Neural Networks for a Reward System in Drosophila
Felsenberg J. and Waddell S., (2017), Learning and Memory: A Comprehensive Reference, 505 - 522
Aversive Learning and Appetitive Motivation Toggle Feed-Forward Inhibition in the Drosophila Mushroom Body.
Perisse E. et al, (2016), Neuron, 90, 1086 - 1099
Memory-Relevant Mushroom Body Output Synapses Are Cholinergic.
Barnstedt O. et al, (2016), Neuron, 89, 1237 - 1247
Neural Plasticity: Dopamine Tunes the Mushroom Body Output Network.
Waddell S., (2016), Curr Biol, 26, R109 - R112
Neural networks for a reward system in drosophila
Felsenberg J. and Waddell S., (2016), The Curated Reference Collection in Neuroscience and Biobehavioral Psychology, 505 - 522
Olfactory learning skews mushroom body output pathways to steer behavioral choice in Drosophila.
Owald D. and Waddell S., (2015), Curr Opin Neurobiol, 35, 178 - 184
Light, heat, action: neural control of fruit fly behaviour.
Owald D. et al, (2015), Philos Trans R Soc Lond B Biol Sci, 370
Understanding the brain by controlling neural activity.
Krug K. et al, (2015), Philos Trans R Soc Lond B Biol Sci, 370
Activity of defined mushroom body output neurons underlies learned olfactory behavior in Drosophila.
Owald D. et al, (2015), Neuron, 86, 417 - 427
Sweet taste and nutrient value subdivide rewarding dopaminergic neurons in Drosophila.
Huetteroth W. et al, (2015), Curr Biol, 25, 751 - 758