Analysis of zebrafish Cryptochrome 2 and 4 expression in UV cone photoreceptors

This study provides a more detailed annotation of cry2 and cry4 expression within the zebrafish retina and highlights the feasibility of a well-established ablation paradigm to test if photoreceptors are required for magnetoreception in fish. Although evidence of magnetoreception in adult zebrafish has gained considerable evidence over the last decade (Shcherbakov et al., 2005; Takebe et al., 2012; Krylov et al., 2016; Myklatun et al., 2018) the mediating mechanism(s) remain unknown. Additionally, despite limited evidence that larval zebrafish are magnetoreceptive, many other larval fish have a characterized magnetic sense; sockeye salmon fry, larval coral reef fish, larval medaka and larval Atlantic haddock have been shown to be responsive to magnetic fields (Quinn; 1980; Bottesch et al., 2016; O'Connor and Muheim. 2017; Myklatun et al., 2018; Cresci, et al. 2019). If cry-cone interactions are conserved within fish, our findings may suggest one potential mechanism, such that UV cones appear poised for light-dependent magnetoreception via photoreceptor subtype-specific expression of cry.
Source: Gene Expression Patterns - Category: Genetics & Stem Cells Source Type: research
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