RT Journal Article SR Electronic T1 Organization of Neural Population Code in Mouse Visual System JF eneuro JO eNeuro FD Society for Neuroscience SP ENEURO.0414-17.2018 DO 10.1523/ENEURO.0414-17.2018 VO 5 IS 4 A1 Kathleen Esfahany A1 Isabel Siergiej A1 Yuan Zhao A1 Il Memming Park YR 2018 UL http://www.eneuro.org/content/5/4/ENEURO.0414-17.2018.abstract AB The mammalian visual system consists of several anatomically distinct areas, layers, and cell types. To understand the role of these subpopulations in visual information processing, we analyzed neural signals recorded from excitatory neurons from various anatomical and functional structures. For each of 186 mice, one of six genetically tagged cell types and one of six visual areas were targeted while the mouse was passively viewing various visual stimuli. We trained linear classifiers to decode one of six visual stimulus categories with distinct spatiotemporal structures from the population neural activity. We found that neurons in both the primary visual cortex and secondary visual areas show varying degrees of stimulus-specific decodability, and neurons in superficial layers tend to be more informative about the stimulus categories. Additional decoding analyses of directional motion were consistent with these findings. We observed synergy in the population code of direction in several visual areas suggesting area-specific organization of information representation across neurons. These differences in decoding capacities shed light on the specialized organization of neural information processing across anatomically distinct subpopulations, and further establish the mouse as a model for understanding visual perception.