FIGURE

FIGURE 2

ID
ZDB-FIG-230321-21
Publication
Brown-Panton et al., 2023 - Gap junction Delta-2b (gjd2b/Cx35.1) depletion causes hyperopia and visual-motor deficiencies in the zebrafish
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FIGURE 2

Shortening of the Eye Axial Length Induces a Hyperopic Shift in Adult Gjd2b/Cx35.1−/− Fish. Representative SD-OCT (A) B-mode and (B) en face images of a zebrafish eye (scale bars = 500 µm); geometrical parameters extracted from the OCT datasets are shown and annotated with different colors; the spherical lens is seen as an oval in the B-mode image (panel A) due to a significantly higher refractive index of lens compared to soft tissue. The quantification of (C) the body length (mm), (D) the lens ratio (µm/µm) as a measure of circulatiry, and (E) the retinal thickness (µm) revealed no statistically significant difference between TL controls and gjd2b −/− /Cx35.1−/−. However, the (F) axial length (from top of the lens to the RPE) normalized by body length (µm/mm), the (G) lens radius (µm), and the (H) retinal radius (from the center of the lens to the RPE; µm) collectively showed significantly smaller values (i.e., reduction in size of the eye) in gjd2b −/− /Cx35.1−/−. The (I) calculated relative refractive error (RRE; see text for definition) was significantly higher in gjd2b −/− /Cx35.1−/− which suggested a hyperopic shift, presumably, due to loss of gjd2b/Cx35.1 function. The sample size (N) was 26 for each of the TL and gjd2b −/− /Cx35.1−/− adult fish groups.

Expression Data

Expression Detail
Antibody Labeling
Phenotype Data

Phenotype Detail
Acknowledgments
This image is the copyrighted work of the attributed author or publisher, and ZFIN has permission only to display this image to its users. Additional permissions should be obtained from the applicable author or publisher of the image. Full text @ Front Cell Dev Biol