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Zebrafish UCL

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Images


Images

View fullsize  Image by Xhuljana Durmishi
View fullsize Section of 96 hpf zerbafish retina Tg(tp1:Venus) anti-Ca1  in green,  anti-zrf1 in red and DAPI in blue
View fullsize  By Xhuljana Durmishi
View fullsize  Image by Gregory Patient  A three round IBEX on a five days post fertilisation zebrafish retinal section, showing nuclei, different photoreceptor components, Müller glia, microglia, amacrine and retinal ganglion cells. The markers are: green – Gluta
View fullsize  Image by Manuela Lahne
View fullsize Section cell body.jpg
View fullsize Glutamine synthetase
View fullsize  Image by Ryan MacDonald
View fullsize  By Xhuljana Durmishi
View fullsize  Image by Elisabeth Kugler  False-colour illustration of zebrafish retina neurons (blue) and glia progenitors (yellow) at 48 hours post fertilization, acquired with Zeiss AiryScan microscopy. Image processing was conducted with Fiji software.
View fullsize Tg(gfap:gfp)
View fullsize Müller glia and retinal neurons
View fullsize Glial cells support healthy neurons
View fullsize The retina connects to the visual centres in the brain
View fullsize 202305 zpr-1-magenta_DAPI-cyan_12wo-killifish.jpg
View fullsize Semi-super resolution reconstruction of Müller glia cells
View fullsize HCR in a 4-day old zebrafish transgenic (tp1:Venus) retina, showing Vsx1 (magenta) mRNA
View fullsize Muller glia in the zebrafish retina
View fullsize  Image by Xhuljana Durmishi
View fullsize zpr-3 killifish.jpg
View fullsize  Image by Elisabeth Kugler  Image shows multi-colour false segmentation of the zebrafish retina at 3dpf. Image processing was conducted with Fiji software.
View fullsize Muller glia connections.
View fullsize Between the eyes
View fullsize  Image by Gregory Patient  A multiplex of four rabbit antibodies on the same five days post fertilisation zebrafish retinal section using micro-conjugation kits. Photoreceptors shown in green by GNAT2, Müller glia cells in magenta with RLBP1 and syna
View fullsize Muller glia support synapses
View fullsize  Image by Manuela Lahne
View fullsize  Image by Elisabeth Kugler
View fullsize  Image by Elisabeth Kugler
View fullsize  Image by Elisabeth Kugler
View fullsize  Image by Elisabeth Kugler
View fullsize HCR in 5 dpf wildtype zebrafish retina, showing cyp26a1 mRNA
View fullsize Killifish retina
View fullsize  Image by Isabel Bravo
View fullsize zpr-1 killifish 2.jpg
View fullsize  By Xhuljana Durmishi
View fullsize  By Xhuljana Durmishi
View fullsize Actin cytoskeleton of Müller glia
View fullsize  Image by Natalia Jaroszynska
View fullsize Actin cytoskeleton of Müller glia
View fullsize 3 day old zebrafish retina
View fullsize  Image by Gregory Patient  Immunohistochemistry on a five days post fertilisation zebrafish retinal section, showing Müller glia, amacrine, retinal ganglion cells and F-Actin. The markers are: green – Glutamate Synthetase, cyan – HuC/D, magenta – Pha
View fullsize Glial cytoskeleton
View fullsize The inner plexiform layer
View fullsize  Image by Manuela Lahne
View fullsize  Image by Elisabeth Kugler  In the mature retina Müller glia cells “tile” to make an elaborate non-overlapping support network for neurons. Each Müller glia cell is morphologically specialised at each layer of the retina and will establish its’ own u
View fullsize Section of 96 hpf zebrafish retina Tg(tp1:Venus) anti-HuC/D in magenta, anti-GS in red and DAPI in blue
View fullsize  Image by Ryan MacDonald  The star of the show: In the retina the principal glial type are the Müller glia (blue). These cells are elaborately shaped to contact neurons (yellow) and provide them with support so they function properly. I want to know
View fullsize HCR pRs killifish.jpg
View fullsize Section of 5 dpf zebrafish retina anti-PKCb

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