Spectral receptive field properties of neurons in the feline superior colliculus

Wioletta J. Waleszczyk, Attila Nagy, Marek Wypych, Antal Berényi, Zsuzsanna Paróczy, Gabriella Eördegh, Anaida Ghazaryan, György Benedek

Research output: Contribution to journalArticle

17 Citations (Scopus)

Abstract

The spatio-temporal frequency response profiles of 73 neurons located in the superficial, retino-recipient layers of the feline superior colliculus (SC) were investigated. The majority of the SC cells responded optimally to very low spatial frequencies with a mean of 0.1 cycles/degree (c/deg). The spatial resolution was also low with a mean of 0.31 c/deg. The spatial frequency tuning functions were either low-pass or band-pass with a mean spatial frequency bandwidth of 1.84 octaves. The cells responded optimally to a range of temporal frequencies between 0.74 cycles/s (c/s) and 26.41 c/s with a mean of 6.84 c/s. The majority (68%) of the SC cells showed band-pass temporal frequency tuning with a mean temporal frequency bandwidth of 2.4 octaves, while smaller proportions of the SC units displayed high-pass (19%), low-pass (8%) or broad-band (5%) temporal tuning. Most of the SC units exhibited simple spectral tuning with a single maximum in the spatio-temporal frequency domain, while some neurons were tuned for spatial or temporal frequencies or speed tuned. Further, we found cells excited by gratings moving at high temporal and low spatial frequencies and cells whose activity was suppressed by high velocity movement. The spatio-temporal filter properties of the SC neurons show close similarities to those of their retinal Y and W inputs as well as those of their inputs from the cortical visual motion detector areas, suggesting their common role in motion analysis and related behavioral actions.

Original languageEnglish
Pages (from-to)87-98
Number of pages12
JournalExperimental brain research
Volume181
Issue number1
DOIs
Publication statusPublished - Jul 1 2007

Keywords

  • Spatial frequency tuning
  • Spectral receptive fields
  • Speed tuning
  • Superior colliculus
  • Temporal frequency tuning

ASJC Scopus subject areas

  • Neuroscience(all)

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