Suppl. material to TIME - Temporal Information of Subsecond Sensory Stimuli is Encoded by High-Dimensional Population Vectors in Primary Visual Cortex

<p dir="ltr">Whether in music, language, baking, or memory, our experience of the world is fundamentally linked to time. However, it is unclear how temporal information is encoded, particularly in the range of milliseconds to seconds. Temporal processing at this scale is critical to prediction and survival, such as in a prey anticipating not only where a charging predator will go but also when the predator will arrive at that location. Several models of timing have been proposed that suggest that either time is encoded intrinsically in the dynamics of a network or that time is encoded by mechanisms that are explicitly dedicated to temporal processing. To determine how temporal information is encoded, we recorded neural activity in primary visual cortex (V1) as mice (male and female) performed a goal-directed sensory discrimination task, in which patterns of subsecond stimuli differed only in their temporal profiles. We found that temporal information was encoded in the changing population vector of the network and that the space between these vectors was maximized in learned sessions. Our results suggest that temporal information in the subsecond range is encoded intrinsically and does not rely upon specialized timing mechanisms.</p>