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Figure 3. Analysis of the FoxN3 small eye phenotype. Thirteen nanograms of FoxN3-MO were co-injected with 200 pg GFP RNA in one blastomere at 2-cell stage. Asterisks denote the injected side. A,B: Whole mount in situ hybridization of unilaterally FoxN3-MO-injected embryos showing xRx staining in the eye field. A: Frontal view of a stage-16 embryo. B: Dorsal view of a stage-30 embryo. The insert shows a magnification of the right and left eye. No difference in xRx expression between injected and uninjected side is noted. C,C': Comparison of the injected (FoxN3-MO) and uninjected side of an embryo at stage 35. C' shows the injected side. No difference in the size of the forming eyes is observed. D,D': Right and left view of an unilaterally injected embryo, stage 39. D' shows the injected side. The eye at the FoxN3-MO injected side is clearly reduced in comparison to the uninjected side. E, F: Sections of Alcian blue-stained eyes of the uninjected control side (E) and the FoxN3-MO-injected side (F) of an embryo at stage 48. F: The eye is smaller but shows a normal structure. The different layers of the retina are clearly visible indicating that the differentiation of the retina is not affected by FoxN3-MO injection. The black arrows denote the optic nerve, indicating identical planes of section in E and F.
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Figure 5. Analysis of cranial nerve structures in FoxN3-depleted embryos. Thirteen nanograms FoxN3-MO was injected into each blastomere of 2-cell stage embryos. Developing nerves were visualised by 3A10 monoclonal antibody staining in whole embryos at stage 48. A: Ventral view on a bilaterally injected embryo shows a complete absence of hypoglossal nerves at both sides of the body. B: Ventral view on wild-type embryo. C: Dorsal view on a FoxN3-depleted embryo demonstrates a diffuse arrangement of cranial nerves. The nervus nasociliaris, a branch of the trigeminal nerve, and the maxillary nerve are strongly reduced, while the facial nerve shows normal appearance. The nervus frontalis is completely absent. D: Dorsal view on wild-type embryo. fa, nervus facialis; fo, nervus frontalis; hg, nervus hypoglossus; max, nervus maxillare; md, nervus mandibulare; nc, nervus nasociliaris. Roman numbers indicate the cranial nerves II (optic), III (oculomotorius), and V (trigeminus).
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Figure 6. Effects of FoxN3 depletion on neural crest formation. Embryos were unilaterally injected with 13 ng FoxN3-MO and 500 pg GFP RNA. After sorting for right/left injections, embryos were submitted at different developmental stages to in situ whole mount hybridization. The asterisks indicate the side of injection. A: FoxD3, stage 23. B:AP2 alpha , stage 23. C:snail, stage 23. D:AP2 alpha , stage 29. E:snail, stage 29. No difference in the expression domains between injected and uninjected sides can be observed. F,G: Whole mount in situ hybridization of unilaterally injected embryos stained for HoxA2 (F) and Sox3 (G). Embryos were injected at their right sides. H-K: Whole mount in situ hybridization of bilaterally FoxN3-MO or Co-MO-injected embryos (13 ng pro blastomere). H:Xbap, Co-MO-injected, stage 38. I:Xbap, FoxN3-MO injected, stage 38. Xbap expression is visible close to the cement gland in the controls (see arrow). The FoxN3-MO-injected embryos show reduced expression of Xbap in the prospective jaw (see arrow). The ventral part of this expression domain is completely absent. J:Xbap, Co-MO-injected, stage 43, ventral view. K:Xbap, FoxN3-MO-injected, stage 43, ventral view. The Xbap expression in the controls is restricted at stage 43 within the head to Meckel's cartilage. FoxN3-MO-injected embryos show severe reduction of staining (see arrows).
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Xenopus snai1 / snail gene expression
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Figure 1. Inhibition of in vivo translation of a FoxN3/GFP fusion construct by FoxN3â€MO. The 5′â€coding sequence (300 bp) of FoxN3 including the translation start codon were fused to GFP (FoxN3/GFP). Alternatively, six silent mutations in the putative morpholino binding site were introduced (FoxN3Res/GFP). RNA of these constructs was injected into both blastomeres at the 2â€cell stage and embryos were analysed at stage 31. A: 5′â€coding sequence (25 bp) of FoxN3 is reverse complementary to the FoxN3 morpholino (FoxN3â€MO) sequence. Silent mutations in the FoxN3Res/GFP construct are indicated. B,D,F: Lateral views on embryos injected with 0.5 ng FoxN3/GFP RNA (B), coâ€injected with 13 ng Coâ€MO (D) or with 13 ng FoxN3â€MO (F) into each blastomere. C,E,G: Lateral views on embryos injected with 0.5 ng FoxN3Res/GFP RNA containing the silent mutations (C), coâ€injected with 13 ng Coâ€MO (E) or with 13 ng FoxN3â€MO (G) into each blastomere. Embryos are photographed under normal light (left) and under UV light (right). Fluorescence is visible in embryos with FoxN3Res/GFP RNA injection and FoxN3â€MO (G), but not with FoxN3/GFP RNA and FoxN3â€MO (F).
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Phenotype of FoxN3âMO injected embryos during embryogenesis. Embryos were injected with morpholino (13 ng/blastomere) either in two (AâC) or in one blastomere (D) at 2âcell stage. A: Comparison of FoxN3âMOâinjected embryos (right side) and CoâMOâinjected embryos (left side) at stage 41, lateral view. The FoxN3âMOâinjected embryos reveal smaller eyes, while the trunk appears to be quite normal. B: Same analysis at stage 43. The control embryos (left side) grow normal, while FoxN3âMOâinjected show severe defects. The endophthalmus of the eyes is clearly visible. The head becomes malformed and the whole embryos become oedemic. C: Magnification of the head of a stageâ45 embryo (dorsal view). Cranial structure of CoâMOâinjected embryo (left side) is normal. The FoxN3âMOâinjected embryo (right side) is smaller. The nose and mouth region is invaginated. D: Dorsal view of an unilaterally FoxN3âMOâinjected embryo at stage 45 (bottom side is injected). The left eye is clearly reduced, as well as the anterior cartilage. E: Diagram of eye and cartilage phenotypes at stage 48 presented as dose dependency of FoxN3âMO. Indicated amounts of FoxN3âMO were injected into each blastomere at the 2âcell stage. Embryos were scored for eye phenotype (red) and for cartilage phenotype (blue). The numbers at the bottom indicate injected embryos and the percentage of surviving embryos at stage 48.
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Figure 4. Craniofacial cartilage defects of FoxN3âdepleted embryos. Embryos were injected with 13 ng FoxN3âMO in each blastomere at 2âcell stage. A: Dorsal view on an Alcian blueâstained wildâtype embryo at stage 48. B: The corresponding schematic drawing of the craniofacial cartilage. C: Dorsal view on a FoxN3âMO injected and Alcian blueâstained embryo at stage 48. D: The corresponding schematic drawing of the craniofacial cartilage. Frontal view (E, G) and sections (F, H) of Alcian blueâstained CoâMO (E, F) and FoxN3âMOâinjected embryos (G, H). FoxN3âMOâinjected embryos reveal an invagination of the olfactory region, characterised by a large cleft. Many of the cranial cartilage elements are malformed or absent. The white lines in E and G denote plane of sections shown in F and H. ac, auditory cap; apc, anterior parachordal cartilage; ba, branchial arches; bb, basobranchiale; br, brain; ch, ceratohyale; fo, foramen olfactorium; ic, infrarostal cartilage; it, intestine; mc, Meckel's cartilage; mpp, muscular process of palatoquadrate; nc, notochord; pcqm, processus cornu quadratus medialis; pq, palatoquadrate; sbp, subocular bars of the palatoquadrate; sfen, subocular fenestra; sp, suprarostral plate; ta, tectum anterius; tr, trabecula; tenc, tentacular cartilage; vpp, ventrolateral process of palatoquadrate.
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Cranial structures in Xenopus. A: Dorsal view of an Alcian blue–stained wildâ€type Xenopus embryo at NF stage 48. B: The corresponding schematic drawing of the craniofacial cartilages and other head structures and organs.
Key: ac, auditory cap; apc, anterior parachordal cartilage; ba, branchial [pharyngeal] arches; bb, basobranchiale; br, brain; ch, ceratohyale; fo, foramen olfactorium; ic, infrarostal cartilage; it, intestine; mc, Meckel's cartilage; mpp, muscular process of palatoquadrate; nc, notochord; pcqm, processus cornu quadratus medialis; pq, palatoquadrate; sbp, subocular bars of the palatoquadrate; sfen, subocular fenestra; sp, suprarostral plate; ta, tectum anterius; tr, trabecula; tenc, tentacular cartilage; vpp, ventrolateral process of palatoquadrate.
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Cranial structures in Xenopus. E. Frontal view and F. section of Alcian blue–stained section through head of wildâ€type Xenopus embryo at NF stage 48.
Key: ba, branchial [pharyngeal] arches; bb, basobranchiale; ch, ceratohyale; mc, Meckel's cartilage; mpp, muscular process of palatoquadrate; pq, palatoquadrate;
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Cranial nerves in Xenopus embryo, at NF stage 48. B: Ventral view, D:Dorsal view on wildâ€type embryo.
Key: fa, nervus facialis [facial nerve]; fo, nervus frontalis; hg, nervus hypoglossus [hypoglossal nerve]; max, nervus maxillare; md, nervus mandibulare; nc, nervus nasociliaris. Roman numbers indicate the cranial nerves: cranial nerve II [optic nerve]), cranial nerve III (oculomotorius) [oculomotor nerve], and cranial nerve V (trigeminus) [trigeminal nerve].
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Analysis of cranial crest cell migration during embryogenesis. Embryos were injected with 200 pg EosFP RNA and 13 ng FoxN3âMO into each blastomere at 2âcell stage. At stage 26, cells of the mandibular arch were photoconverted. A: Lateral view of FoxN3âMOâinjected embryo, stage 26. B: Lateral view of CoâMOâinjected embryo, stage 26. C: Schematic representation of cranial crest migration at stage 26 (lateral view, converted area is shown as dashed circle). D: Embryo shown in A at stage 46, ventral view. The FoxN3âMO injected embryos show an unshaped structure of Meckel's cartilage. E: Embryo shown in B at stage 46, ventral view. The CoâMOâinjected embryos revealed a normal structure of Meckel's cartilage. The dotted red cells in D and the red cells at the anterior front of the embryo in E represent converted epidermal cells. F: Cartilage structures (ventral view) at stage 48 (modified from: Sadaghiani and Thiebaud, 1987; Baltzinger et al., 2005). The rectangle in F denotes the area seen in D and E. 1, mandibular arch (blue); 2, hyoid arch (yellow); 3, anterior branchial arch (green); 4, posterior branchial arch (brown). ba, branchial arch; ch, ceratohyale; l, lens; mc, Meckel's cartilage; pq, palatoquadrate.
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Schematic representation of cranial neural crest cell migration pathways during embryogenesis (C) at stage 26, and (F) tissue to which they contribute. Cartilage structures (ventral view) at stage 48 (modified from: Sadaghiani and Thiebaud, 1987; Baltzinger et al., 2005). The rectangle in F denotes the area seen in D and E. 1, mandibular arch (blue); 2, hyoid arch (yellow); 3, anterior branchial arch (green); 4, posterior branchial arch (brown). ba, branchial arch; ch, ceratohyale; l, lens; mc, Meckel's cartilage; pq, palatoquadrate. Image extracted from Figure 7, XB-ART-34864.
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Figure 8. Analysis of apoptosis and cell proliferation in FoxN3âdepleted embryos. Embryos were coâinjected with 13 ng FoxN3âMO and 200 pg GFP RNA into one blastomere at 2âcell stage. An asterisk denotes the injected side of embryos. A, A': Left and right view on an unilaterally FoxN3âMOâinjected and TUNELâstained embryo at stage 24. A' shows the injected side. Almost no apoptotic cells can be observed on either side. B, B': Left and right view on the head of an unilaterally FoxN3âMOâinjected and TUNELâstained embryo stage 32. The injected side (B') shows a higher rate of apoptosis than the uninjected side (B). C: Section of an unilaterally FoxN3âMOâinjected embryo at stage 41. An increased number of apoptotic cells is found on the injected side, especially within the eye. D, E: Tissue sections of the eye of a unilaterally injected embryo at stage 41. The eye of the injected side (E) shows an increase of apoptosis in the retina as compared to the uninjected side (D). FâH: Tissue sections of unilaterally injected embryos analysed by BrdU immunohistochemistry. F: Section of the head of an embryo at stage 39/40. No difference in the proliferation rate of the injected side in comparison to the uninjected side can be observed. G, H: Sections of BrdU stained eyes of an unilaterally injected embryo at stage 45. The labeled cells of the retina indicate the ciliary marginal zone (arrowheads), but are equally stained in the uninjected (G) and in the FoxN3âMOâinjected side (H).
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Figure 9. FoxN3 interacts with components of the histone deacetylase complex (HDAC). A: Scheme of FoxN3 deletion constructs used for GSTâpull down assays. The fork head/winged helix domain is indicated by a black box. B: [35S] methionineâlabeled Sin3 protein was incubated with GSTâfusions of the two isoforms of FoxN3 or with GSTâFoxN2, respectively. The pullâdown reactions were analysed using a 10% SDSâPAGE. C: Pullâdown analysis of GSTâFoxN3 deletion mutants with [35S] methionineâlabeled Sin3 protein. Sin3 requires for binding the Câterminus of FoxN3 but not the Nâterminus. D: [35S] methionineâlabeled RPD3 protein was incubated with GSTâFoxN3 mutants. RPD3 binds to Nâterminal, but not to Câterminal region of FoxN3 deletion constructs. E: Alignment of putative Sin3 binding sites of FoxN2, FoxN3, and human Mad1 (see: van Ingen et al., 2004). Conserved amino acids are underlined and shown in grey.
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