Figure 2
- ID
- ZDB-FIG-211216-207
- Publication
- Ranawat et al., 2021 - Mechanisms underlying microglial colonization of developing neural retina in zebrafish
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(A) Live confocal images of Tg[kdrl:EGFP; mfap4:tdTomato-CAAX] retinas at 30 hpf. Microglial precursors and blood vessels are visualized using fluorescence of mfap4tdTomato-CAAX (magenta) and kdrl:EGFP (green), respectively. Higher magnification image of a dotted square in the left panel is shown in the right panel. The first microglial precursor (arrow) approaches along developing hyaloid blood vessels near the lens through the choroid fissure. Arrowheads indicate peripheral macrophages outside the optic cup. Scale bar: 30 μm. (B) Time-lapse 3D snapshots of Tg[kdrl:EGFP; mfap4:tdTomato-CAAX] eyes for around 3.5 hr after 32 hpf. Ocular microglial precursors and peripheral macrophages outside the optic cup are indicated as yellow- and magenta-colored, surface-rendered objects, respectively, which were prepared from the original scanning image (Figure 2—figure supplement 1). Ocular blood vessels are visualized in green. Microglia associated with hyaloid blood vessels around the lens (white arrows) gradually increase and infiltrate neurogenic retinal tissue (Video 3). Scale bar: 30 μm. (C) Live 3D images of eyes of Tg[kdrl:EGFP; mfap4:tdTomato-CAAX] embryos injected with standard MO and tnnt2a MO. kdrl:EGFP-positive blood vessels (green) are thinner in tnnt2a morphants. Scale bar: 50 μm. (D) Histogram of the number of intraocular microglial precursors in embryos injected with standard MO and tnnt2a MO. Bars and lines indicate means ± SD. ***p < 0.001.
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