Hideaki Iida
Kyoto Sangyo University
12 Papers
10 Citations
Hideaki Iida is an academic researcher from Kyoto Sangyo University. The author has contributed to research in topics: Eye development & SOX2. The author has an hindex of 3, co-authored 8 publications.
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Papers
Intrinsic lens potential of neural retina inhibited by Notch signaling as the cause of lens transdifferentiation.
TL;DR: Observations indicate that the lens differentiation potential is intrinsic to the neural retina, and this potential is repressed by Notch signaling during normal embryogenesis, which leads to lens transdifferentiation by disinhibiting the Neural retina-intrinsic program of lens development.
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Modeling early stages of endoderm development in epiblast stem cell aggregates with supply of extracellular matrices
Sachiko Inamori,Mai Fujii,Sayaka Satake,Hideaki Iida,Machiko Teramoto,Tomoyuki Sumi,Chikara Meno,Yasuo Ishii,Hisato Kondoh +8 more
TL;DR: Aggregation of EpiSCs followed by embedding of aggregates in the laminin‐rich matrix models the gastrulation‐dependent endoderm precursor development.
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•Journal Article
Intrinsic lens potential of neural retina inhibited by Notch signaling as the cause of lens transdifferentiation
TL;DR: In this article, the involvement of Notch signaling based on its role in retinal neurogenesis was investigated, and it was shown that Notch suppression leads to lens transdifferentiation by disinhibiting the neural retina-intrinsic program of lens development.
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Epiblast cells gather onto the anterior mesendoderm and initiate brain development without the direct involvement of the node in avian embryos: Insights from broad-field live imaging
TL;DR: A new epiblast brain field map is proposed, allowing the reinterpretation of classical node graft data, and the role of the AME is highlighted, as the new model leads to the conclusion that the node does not directly participate in brain development.
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The formation of multiple pituitary pouches from the oral ectoderm causes ectopic lens development in hedgehog signaling-defective avian embryos
Yuki Taira,Yuya Ikuta,Sachiko Inamori,Mitsuo Nunome,Mikiharu Nakano,Takayuki Suzuki,Yoichi Matsuda,Masaoki Tsudzuki,Machiko Teramoto,Hideaki Iida,Hisato Kondoh +10 more
TL;DR: This work has investigated Talpid mutant Japanese quail embryos, in which hedgehog signaling is defective, to investigate its involvement in anterior pituitary precursor development and the lens precursor potential for anterior pituitsary precursors.
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