Category:Optic cup (embryology)
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Subcategories
This category has the following 5 subcategories, out of 5 total.
Media in category "Optic cup (embryology)"
The following 160 files are in this category, out of 160 total.
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41392 2022 1024 Fig1 HTML.webp 1,799 × 1,357; 128 KB
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Actin dynamics during retinal neuroepithelium (RNE) morphogenesis.ogv 15 s, 300 × 398; 412 KB
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Actin dynamics during rim involution video 7.ogv 23 s, 248 × 282; 527 KB
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Actin dynamics during rim involution.ogv 17 s, 292 × 340; 867 KB
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Apical domain dynamics during rim involution.ogv 23 s, 290 × 290; 587 KB
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Auge Entwicklung.jpg 3,908 × 2,547; 2.41 MB
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Auge evolution eye-degen.gif 1,149 × 237; 30 KB
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Auge evolution eye-wish.gif 1,053 × 157; 23 KB
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Auge evolution eye.png 700 × 700; 37 KB
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Augenentwicklung-1-nltxt.jpg 1,280 × 720; 170 KB
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Augenentwicklung-2 nltxt.jpg 1,064 × 715; 316 KB
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Augenentwicklung-2.jpg 1,280 × 720; 93 KB
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Canonical Wnt-β-catenin signalling is required for RPE cell commitment.png 1,904 × 2,748; 8.97 MB
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Carpenter's principles of human physiology (1881) (14779392174).jpg 872 × 1,526; 205 KB
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Changes in cell shape during optic cup folding.png 3,714 × 1,556; 701 KB
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CHD7 Expression in Ocular Morphogenesis and Neural Crest Cell Development.png 1,428 × 881; 547 KB
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Ciliary marginal zone in vertebrates.jpg 1,543 × 668; 294 KB
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Cranial neural crest migration into the head.jpg 1,949 × 2,701; 296 KB
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Crucial biomolecules expression in an embryonic mouse at 9.5 days.jpg 797 × 883; 427 KB
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Decreased proliferation and change in physical properties of mutant optic vesicle.png 1,705 × 1,449; 4.23 MB
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Deletion of Smad4 led to changes of retina thickness and degeneration of retinal cells.png 1,738 × 1,338; 3.02 MB
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Diagram of eye evolution.svg 584 × 815; 50 KB
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Down-regulation of the αA, αB, β and γ-crystallins caused by the miak mutation of Pitx3.png 1,588 × 1,680; 2.66 MB
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EB3-GFP dynamics during retinal pigment epithelium (RPE) cell remodelling.jpg 1,366 × 1,500; 615 KB
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Effect of perturbed cell-ECM attachment on the optic cup.jpg 1,277 × 1,500; 493 KB
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Effect of Rockout and HU+Aphi treatment on the retinal neuroepithelium (RNE).jpg 1,500 × 940; 364 KB
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Evolution eye numbered.png 590 × 306; 70 KB
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Evolution eye.png 590 × 306; 75 KB
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Evolution-2.jpg 720 × 1,280; 156 KB
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Expression analyses of Pitx3 transcripts and PITX3 protein in wild-type and miak mice.png 1,983 × 1,654; 3.37 MB
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Expression of Bmp4, Tbx2, Tbx3, Tbx5, and Vax2 during optic cup formation.jpg 1,438 × 1,914; 1.85 MB
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Expression of pituitary specific genes in wild type and Rx-deficient mouse embryos.png 1,502 × 1,127; 2.21 MB
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FGF signalling promotes the one-dimensional budding of the LG.jpg 1,698 × 1,977; 396 KB
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Formation of the posterior pituitary in chimeric mouse embryos.png 1,502 × 1,498; 2.83 MB
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Formation of three anterior cranial placodes during mid-stage mouse embryogenesis.png 4,275 × 2,514; 2.26 MB
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Functions of FGF signalling in the three-dimensional retinal development.jpg 1,627 × 1,008; 167 KB
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GFP-ras expressing opo morphant clone in mCherry-UtrCH expressing control background.ogv 9.6 s, 774 × 462; 677 KB
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Gray863.png 500 × 246; 19 KB
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Gray865.png 1,143 × 602; 685 KB
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Gray867.png 371 × 450; 51 KB
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Hes genes in the embryonic mouse eye.PNG 2,056 × 856; 2.48 MB
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Hes1 and Hes5 expression in Rbpj, dnMAML and Hes triple retinal mutants.png 2,100 × 1,865; 5.66 MB
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Hes1 and HesTKO retina-ONH boundary phenotypes.png 2,100 × 1,405; 4.54 MB
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Histological analysis in the wild-type and miak-miak mice at embryonic stages.png 1,938 × 1,725; 5.83 MB
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Identification of Central Optic Cup Fields in the Optic Vesicle.png 2,196 × 2,560; 4.36 MB
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Impairment of rim involution leads to mispositioning of neuroepithelial cells.jpg 1,457 × 1,500; 567 KB
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Induction of Tbx2 and Tbx5 expression by exogenous BMP4.jpg 1,439 × 1,371; 2.01 MB
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Induktionsketten.jpg 1,280 × 720; 127 KB
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Integrin dynamics during rim involution.ogv 15 s, 250 × 250; 648 KB
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Journal of morphology (1893) (14780418754).jpg 2,012 × 2,912; 572 KB
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Lateral view of optic cup (OC) growth visualized in a Tg(E1-bhlhe40.GFP) embryo.ogv 6.0 s, 512 × 546; 1.88 MB
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Mapping Central and Peripheral Eye Domains.png 2,093 × 1,044; 268 KB
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Membrane dynamics during rim involution.ogv 18 s, 262 × 282; 331 KB
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Microphthalmia phenotype in Texel sheep.png 1,162 × 1,746; 1.39 MB
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Microtubule and myosin dynamics during rim involution.jpg 1,500 × 795; 191 KB
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Myosin dynamics during retinal neuroepithelium (RNE) morphogenesis.ogv 17 s, 300 × 398; 594 KB
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Myosin dynamics during rim involution.ogv 19 s, 262 × 282; 199 KB
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New spontaneous microphthalmia and aphakia (miak) mutations in mice.png 1,004 × 2,545; 4.21 MB
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Ocular dysplasia in Smad4-cKO mutants compared to the wild type mice.(A-C).tiff 1,070 × 398; 592 KB
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Ocular images from individuals with ARHGAP35 variants.jpg 1,520 × 1,354; 1.41 MB
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Ocular neural crest migration and establishment of the ocular anterior segment.jpg 2,060 × 1,765; 258 KB
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Ocular tissue patterning defects among Notch pathway mutants.png 2,100 × 1,319; 3.02 MB
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Optic cup and macula - 3D anaglyph.jpg 782 × 519; 294 KB
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Optic cup and macula - 3D motion parallax.gif 706 × 497; 594 KB
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Optic cup development in whole mouse embryo culture.jpg 1,068 × 1,061; 935 KB
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Optic cup development, gene expression, and schematic diagram of SFEBq culture.jpg 1,615 × 1,928; 1.86 MB
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Origin of Vertebrates Fig 043.png 747 × 1,113; 53 KB
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Paxillin dynamics during retinal neuroepithelium (RNE) morphogenesis.ogv 17 s, 300 × 398; 358 KB
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Paxillin dynamics during rim involution in opo morphant.ogv 26 s, 474 × 192; 504 KB
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Paxillin dynamics during rim involution.ogv 13 s, 250 × 250; 184 KB
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Photograph of an aphakic eye with a proliferative capsular bag.png 2,825 × 993; 3.56 MB
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Protrusion dynamics during rim involution in ezrin morphant.ogv 10 s, 344 × 160; 156 KB
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Pseudorasbora parva (10.3897-zoologia.35.e22162) Figures 2–39.jpg 1,997 × 1,494; 1.42 MB
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Repression of Tbx2 and Tbx5 expression by exogenous Noggin.jpg 1,446 × 1,473; 1.66 MB
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Retinal formation in chimeric mammalian embryos.png 1,502 × 1,048; 1.89 MB
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Retinal neuroepithelium (RNE) morphogenesis in ezrin morphant.ogv 15 s, 430 × 464; 1.09 MB
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Retinal neuroepithelium (RNE) morphogenesis in laminin morphant.ogv 18 s, 430 × 464; 1.16 MB
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Retinal neuroepithelium (RNE) morphogenesis in Opo morphant.ogv 18 s, 430 × 464; 605 KB
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Retinal neuroepithelium (RNE) morphogenesis in Rockout treated embryos.ogv 14 s, 1,000 × 510; 2.21 MB
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Retinal pigment epithelium (RPE) region selection from the GFP-positive domain.jpg 1,500 × 1,401; 154 KB
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Rim cell dynamics in Rockout treated embryos.ogv 16 s, 262 × 282; 208 KB
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Rim involution involves active cell migration of connected epithelial cells.jpg 1,425 × 1,500; 443 KB
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Schematic of eye morphogenesis in zebrafish.png 3,710 × 2,106; 905 KB
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Schematic representation of vertebrate eye development.png 1,200 × 357; 239 KB
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Stages in the evolution of the eye.png 407 × 499; 28 KB
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Superior coloboma.png 1,810 × 1,307; 5.25 MB
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Temporal and spatial expression of FGF signalling during mouse eye development.jpg 1,958 × 2,626; 680 KB
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The American journal of anatomy (1901) (14597356810).jpg 1,756 × 2,716; 1.25 MB
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The American journal of anatomy (1901) (14597390259).jpg 1,752 × 2,824; 1.11 MB
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The American journal of anatomy (1901) (14597394829).jpg 1,748 × 2,796; 1.09 MB
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The American journal of anatomy (1901) (14597405888).jpg 1,716 × 2,748; 1.03 MB
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The American journal of anatomy (1901) (14780865891).jpg 1,684 × 2,768; 860 KB
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The American journal of anatomy (1901) (14783665222).jpg 1,712 × 2,732; 997 KB
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The American journal of anatomy (1901) (14783708912).jpg 1,772 × 2,812; 1.2 MB
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The Expression of Eye Field Transcription Factors subdivides the Optic Vesicle.png 1,009 × 2,688; 2.11 MB
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The genetics of early optic vesicle development.png 3,220 × 1,808; 875 KB
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The genetics of optic cup and lens formation.png 3,049 × 1,878; 802 KB
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The Peripheral not Central Optic Cup Originates in the Distal Optic Vesicle.png 2,093 × 1,931; 3.61 MB
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The phases of the embryological development of the eye.png 3,402 × 4,739; 3.32 MB
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The superior ocular sulcus in zebrafish, chick and mouse.png 2,138 × 2,511; 5.12 MB
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The-individual-CT1-11-showing-complete-congenital-primary-aphakia.jpg 569 × 387; 141 KB
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Unique role for Rbpj in regulation photoreceptor versus amacrine fates.png 2,072 × 1,522; 1.35 MB
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Varying degrees of microphthalmia were observed in Smad4-cKO mutants. (A-C, E-G).tiff 1,772 × 1,042; 2.23 MB
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Vertebrate eye development (human eye).jpg 2,166 × 2,642; 334 KB
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Vsx2 FP expression during RNE morphogenesis.ogv 13 s, 480 × 536; 1.43 MB
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Vsx2 GFP expression during retinal neuroepithelium (RNE) morphogenesis in ezrin morphant.ogv 15 s, 480 × 536; 2.08 MB
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Β-catenin is important for maintenance of dorsoventral patterning of the retina.png 1,196 × 2,644; 5.57 MB
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Β-catenin mutant embryos are anophthalmic.png 1,367 × 2,522; 4.74 MB
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Β-catenin mutant optic vesicles do not form an optic cup.png 1,009 × 2,569; 5.49 MB