Pol Bech
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Cell-class-specific orofacial motor maps in mouse neocortex Open
Cortical motor maps represent fundamental organizing principles for voluntary motor control,1 yet their underlying structure remains poorly understood, including regions of sensory2,3 and parietal cortex,4 as well as the classical frontal …
Cell class-specific long-range axonal projections of neurons in mouse whisker-related somatosensory cortices Open
Long-range axonal projections of diverse classes of neocortical excitatory neurons likely contribute to brain-wide interactions processing sensory, cognitive and motor signals. Here, we performed light-sheet imaging of fluorescently labele…
Cell class-specific long-range axonal projections of neurons in mouse whisker-related somatosensory cortices Open
The extensive long-range axonal projections of diverse classes of neocortical excitatory neurons are thought to contribute importantly to the highly integrative brain-wide interactions underlying the processing of sensory, cognitive and mo…
Cell class-specific long-range axonal projections of neurons in mouse whisker-related somatosensory cortices Open
The extensive long-range axonal projections of various classes of neocortical excitatory neurons are thought to contribute importantly to the highly integrative brain-wide interactions underlying the processing of sensory, cognitive and mo…
Cell class-specific long-range axonal projections of neurons in mouse whisker-related somatosensory cortices Open
Long-range axonal projections of diverse classes of neocortical excitatory neurons likely contribute to brain-wide interactions processing sensory, cognitive and motor signals. Here, we performed light-sheet imaging of fluorescently labele…
Cell class-specific long-range axonal projections of neurons in mouse whisker-related somatosensory cortices Open
The extensive long-range axonal projections of diverse classes of neocortical excitatory neurons are thought to contribute importantly to the highly integrative brain-wide interactions underlying the processing of sensory, cognitive and mo…
Striatal Dopamine Signals and Reward Learning Open
We are constantly bombarded by sensory information and constantly making decisions on how to act. In order to optimally adapt behavior, we must judge which sequences of sensory inputs and actions lead to successful outcomes in specific cir…
A unified framework for dopamine signals across timescales Open
Rapid phasic activity of midbrain dopamine neurons are thought to signal reward prediction errors (RPEs), resembling temporal difference errors used in machine learning. Recent studies describing slowly increasing dopamine signals have ins…