Karaduman_2023_Neurobiol.Aging_130_12

Reference

Title : Zebrafish optomotor response to second-order motion illustrates that age-related changes in motion detection depend on the activated motion system - Karaduman_2023_Neurobiol.Aging_130_12
Author(s) : Karaduman A , Karoglu-Eravsar ET , Kaya U , Aydin A , Adams MM , Kafaligonul H
Ref : Neurobiology of Aging , 130 :12 , 2023
Abstract :

Various aspects of visual functioning, including motion perception, change with age. Yet, there is a lack of comprehensive understanding of age-related alterations at different stages of motion processing and in each motion system. To understand the effects of aging on second-order motion processing, we investigated optomotor responses (OMR) in younger and older wild-type (AB-strain) and acetylcholinesterase (ache(sb55/+)) mutant zebrafish. The mutant fish with decreased levels of acetylcholinesterase have been shown to have delayed age-related cognitive decline. Compared to previous results on first-order motion, we found distinct changes in OMR to second-order motion. The polarity of OMR was dependent on age, such that second-order stimulation led to mainly negative OMR in the younger group while older zebrafish had positive responses. Hence, these findings revealed an overall aging effect on the detection of second-order motion. Moreover, neither the genotype of zebrafish nor the spatial frequency of motion significantly changed the response magnitude. Our findings support the view that age-related changes in motion detection depend on the activated motion system.

PubMedSearch : Karaduman_2023_Neurobiol.Aging_130_12
PubMedID: 37419077
Gene_locus related to this paper: danre-ACHE

Related information

Gene_locus danre-ACHE

Citations formats

Karaduman A, Karoglu-Eravsar ET, Kaya U, Aydin A, Adams MM, Kafaligonul H (2023)
Zebrafish optomotor response to second-order motion illustrates that age-related changes in motion detection depend on the activated motion system
Neurobiology of Aging 130 :12

Karaduman A, Karoglu-Eravsar ET, Kaya U, Aydin A, Adams MM, Kafaligonul H (2023)
Neurobiology of Aging 130 :12