Session Details
Poster Discussion 01
Sun. Jul 23, 2023 5:30 PM - 7:00 PM JST
Sun. Jul 23, 2023 8:30 AM - 10:00 AM UTC
Sun. Jul 23, 2023 8:30 AM - 10:00 AM UTC
Poster & Exhibition & Rest Area (2F Sakura) 2F Sakura
"PXXX#" number is Poster Award candidate.
Mounting:9:00-12:00 on Day1 (July 23 (Sun))
July 23 (Sun) Discussion:
17:30-18:15 for odd number posters
18:15-19:00 for even number posters
July 24 (Mon) Discussion:
14:45-15:30 for even number posters
15:30-16:15 for odd number posters
Removal:9:00-12:00 on Day3 (July 25 (Tue))
Mounting:9:00-12:00 on Day1 (July 23 (Sun))
July 23 (Sun) Discussion:
17:30-18:15 for odd number posters
18:15-19:00 for even number posters
July 24 (Mon) Discussion:
14:45-15:30 for even number posters
15:30-16:15 for odd number posters
Removal:9:00-12:00 on Day3 (July 25 (Tue))
[P001#]Elucidation of sexual budding and its maturation cycle in sea urchins using genomic and transcriptomic analysis.ゲノム及びトランスクリプトーム解析を用いたウニの性の芽生えとその成熟サイクル解明を目指して
*Tetsushi Komoto1, Naoaki Sakamoto1, Akinori Awazu1 (1. Hiroshima univ. Graduate School of Integrated Sciences for Life)
[P002]Identification and characterization of sperm motility initiating substance-2 gene in the internally fertilizing Cynops speciesCynops属有尾両生類のsperm motility initiating substance-2遺伝子に関する研究
Haruka Furukawa1, Eriko Watanabe2, *Akihiko Watanabe1 (1. Yamagata Univ., Fac.of Science, 2. Yamagata Univ., Inst. of Arts and Sciences)
[P003#]Distinct thresholds of piRNA abundance required for germ cell formation and transposon silencing in Drosophila oogenesisショウジョウバエの卵形成過程において、生殖細胞形成とトランスポゾンの抑制に必要なpiRNA量の閾値は異なる
*Hirono Kina1,2, Keisuke Shoji3, Natsuko Izumi3, Yukihide Tomari3, Akira Nakamura1,2 (1. Institute of Molecular Embryology and Genetics, Kumamoto University, 2. Graduate School of Pharmaceutical Science, Kumamoto University, 3. Institute for Quantitative Biosciences, The University of Tokyo)
[P004#(OP5j-8)]Excess FGF signal input in migrating chick primordial germ cells causes somatic transformation into soma, resulting in migration failure in the dorsal mesentery.FGFシグナルが活性化された始原生殖細胞はニワトリ胚の腸間膜にて移動を停止し体細胞に分化する
*Hiroko Iikawa1, Ryohei Kishita1, Saito Daisuke1 (1. Kyushu university)
[P005(OP5j-9)]Repression of somatic gene expression in primordial germ cells is required to maintain germline/soma separation in Drosophila.ショウジョウバエ始原生殖細胞における体細胞性遺伝子発現の抑制は生殖系列と体細胞の分離に必要である
*Miho Asaoka1, Mizuki Kayama1,2, Tomoki Kawagoe1,3, Makoto Hayashi1,2,3, Satoru Kobayashi1,2,3 (1. Life Science Center for Survival Dynamics, Univ. of Tsukuba, 2. Grad. Sch. of Life Sci. and Environmental Sci., Univ. of Tsukuba, 3. Grad. Sch. of Sci. and Tech., Univ. of Tsukuba)
[P006(OP2e-1)]Bouncer-dependent binding activity of follicle oocytes to sperm in ovoviviparous fish : guppy (Poecilia reticulata)卵胎生魚グッピー(Poecilia reticulata)で見られる排卵前の成熟早期の卵母細胞での精子接着は Bouncer の接着機能に依存する
*Junki Yoshida, Yuki Tajika2, Kazuko Uchida1, Makoto Kuwahara1, Kaori Sano3, Takayuki Suzuki4, Eiichi Hondo1, Atsuo Iida1 (1. Nagoya Univ, 2. Gunma Univ, 3. Josai Univ, 4. Osaka Met Univ)
[P007(OP2e-2)]Mechanisms of Dynamics of “Typhoon Asters” in Starfish Oocytesヒトデ精子星状体の回転運動機構解析
*Miho SAKUMA1, Naomi TANAKA1, Kazuyoshi CHIBA1 (1. Graduate School of Humanities and Sciences, Ochanomizu University, Tokyo, Japan.)
[P008(OP2e-3)]The SOCE system is critical for membrane bleb formation to drive avian primordial germ cell migrationSOCEシステムはニワトリ始原生殖細胞の移動を駆動する膜ブレブ形成に必須である。
*Mizuki Morita1, Manami Morimoto1, Takayuki Teramoto1, Junichi Ikenouchi1, Yuji Atsuta1, Daisuke Saito1 (1. Department of Biology, Faculty of Science, Kyushu University)
[P009(OP2e-5)]The timely entry to meiosis is required for oocyte survival and differentiation哺乳類卵細胞の生存と分化は減数分裂の進行と関連している
*Ryuki Shimada1, Kei-ichiro Ishiguro1 (1. IMEG, Kumamoto University)
[P010(OP5e-4)]Formation of male germline stem cell niche is required for termination of the asexual state in planarian reproductive switching.プラナリアの生殖転換における無性状態の終止のためには雄性生殖細胞幹細胞のニッチ形成が必要である。
*Nobuyoshi Kumagai1, Michio Kuroda2, Sayaka Manta2, Shuzo Nakagawa2, Kiyono Sekii3, Kazuya Kobayashi1,2 (1. Faculty of Agriculture and Life Science, Hirosaki Univ., 2. Hirosaki Univ. Graduate School of Agriculture and Life Science, 3. Faculty of Business and Commerce, Keio Univ.)
[P011]Variability in cell morphology in early C. elegans embryos線虫C. elegans 胚における細胞形態の個体差
*YUSUKE AZUMA1, SHUICHI ONAMI1 (1. RIKEN)
[P012#]Generation of Chimeras for the Analysis of Chicken Development.鶏の発生解析のためのキメラの生成
*Ayuna Ohno1, Seiya Takizawa1, Hanano Sai1, Hinako Shindo1, Kie Murai1, Susumu Saito1, Kozhy Hiramatsu1, Hiroshi Kagami1 (1. Faculty of Agriculture, Shinshu University)
[P013#]Quantifying rheological properties of embryonic cells in cleavage stage by atomic force microscopy原子間力顕微鏡による卵割期の発生胚のレオロジー測定
*Takahiro Kotani1, Yuki Miyata1, Yousuke Tsuboyama1, Megumi Yokobori1, Tomohiro Matsuo1, Yuki Fujii1, Takaharu Okajima1 (1. Hokkaido University)
[P014#]Rheological properties of single cells in developing embryo depend on the cell fates: an atomic force microscopy study初期発生胚のレオロジーと細胞運命の関係性:原子間力顕微鏡測定
*Yuki Miyata1, Takahiro Kotani1, Yousuke Tsuboyama1, Tomohiro Matsuo1, Yuki Fujii1, Takaharu Okajima1 (1. HOKKAIDO UNIVERSITY)
[P015]CTCF is essential for mitotic progression and reorganization of interphase nucleus during early development of sea urchin.CTCFはウニの初期発生における有糸分裂の進行と間期核の再編成に必須である。
*Kaichi Watanabe1, Megumi Fujita2, Kazuko Okamoto2, Hajime Yoshida2, Miki Moriwaki2, Hideki Tagashira2, Koji Akasaka2, Akinori Awazu1, Takashi Yamamoto1, Naoaki Sakamoto1 (1. Division of Integrated Sciences for Life, Graduate School of Integrated Sciences for Life, Hiroshima University, 2. Department of Mathematical and Life Sciences, Graduate School of Science, Hiroshima University)
[P016#]BMP signaling is required to form the anterior neural plate border in ascidian embryos
*XIMAN REN1, Boqi Liu2, Yutaka Satou1 (1. Department of Zoology, Graduate School of Science, Kyoto University, Sakyo, Kyoto 606-8502, Japan, 2. State Key Laboratory of Biomembrane and Membrane Biotechnology, School of Life Sciences, Tsinghua University–Peking University Joint Center for Life Sciences, Tsinghua University, Beijing, China)
[P017#]De novo assembly of the genome and construction of the gene models for Ascidiella aspersa, a potential new model organism for developmental biologyヨーロッパザラボヤのゲノムアセンブルと遺伝子モデルの構築
*Takumi T. Shito1, Jayakumar Vasanthan1, Shimon Kawai1, Koki Nishitsuji2, Kotaro Oka1,3, Yasubumi Sakakibara1, Kohji Hotta1 (1. Department of Biosciences and Informatics, Faculty of Science and Technology, Keio University, 2. Marine Genomics Unit, Okinawa Institute of Science and Technology Graduate University, 3. School of Frontier Engineering, Kitasato University)
[P018#]NANOG–GATA6 and TEAD–YAP–SOX2 independently regulate epiblast formation
*Naoki Hirono1, Hiromi Shimojo1, Masakazu Hashimoto1, Hiroshi Sasaki1 (1. University of Osaka)
[P019#]Quality control during epiblast formation in preimplantation embryos is important for tissue organization of early post-implantation embryos.マウス着床前胚のエピブラスト形成過程における品質管理は着床後初期胚の組織構築に重要である
*Rui Shibata1, Masakazu Hashimoto1, Hiroshi sasaki1 (1. Univ. of Osaka )
[P020]Transcriptional regulation of Tbx6 gene to elucidate mesodermal cell developmentTbx6遺伝子の発現制御から中胚葉発生機構を解明する
Soh Hazaki1, Hitomi Suzuki1, Yuta Chigi1, Kaori Tanaka2, Akihito Harada2, Yasuyuki Ohkawa2, *Tatsuya Takemoto1 (1. Institute of Advanced Medical Sciences, Tokushima University, 2. Medical Institute of Bioregulation, Kyusyu University)
[P021]Design principles of blastopore as a pressure valve to regulate extracellular fluid excretion.細胞外体液の排出を制御する原口の圧力弁としての設計原理
*Soichiro Kato1,2, Hidehiko Inomata (1. RIKEN BDR, 2. Osaka university)
[P022]Visualization of endogenous Wnt8 protein in the zebrafish embryoゼブラフィッシュ胚における内在性Wntタンパクの可視化
*Taijiro Yabe1,2, Yusuke Mii1,2, Shinji Takada1,2 (1. National Institute for Basic Biology, 2. Exploratory Research Center on Life and Living Systems (ExCELLS))
[P023]Molecular mechanisms underlying species differences in the regulation of the transition from naïve to formative pluripotency among mammals
*TAKEHARU OKUDA1, YOSHIYUKI SEKI1 (1. Dept. of Biomed., Grad. Sch. of Scitech., KG. Univ)
[P024]A new experimental animal model in mammalian genetics, “The grey short-tailed opossum”新しい実験動物としての”ハイイロジネズミオポッサム”
*Riko Yoshimi1, Mari Kaneko1, Takaya Abe1, Hiroshi Kiyonari1 (1. RIKEN Center for Biosystems Dynamics Research Laboratory for Animal Resources and Genetic Engineering)
[P025#]Involvement of pressure-sensing mechanisms by nucleus in avian primordial germ cell migration.鳥類始原生殖細胞の移動における核による圧力感知機構の関与
*Manami Morimoto1, Daisuke Saito1, Junichi Ikenouchi1, Misako Hori, Mizuki Morita (1. Kyushu university)
[P026#(OP11j-5)]Identification of initial cue that leads to the left-right asymmetric morphogenesis of the embryonic midgut using a novel image-standardizing technique in Drosophila画像平均化の新技術を用いたショウジョウバエ中腸における左右非対称性形成のキューの探索
*Takamasa Higashi1, Dongsun Shin1, Mikiko Inaki1, Takuya Nomura1, Florian Neugebauer1, Kenji Matsuno1 (1. Faculty of Science, Osaka University)
[P027#(OP11j-6)]The novel embryonic clock system organized by chrono-hormoneクロノホルモンを介した新規時計機構
*Aine Minato1, Masayuki Oginuma1, Tohru Ishitani1 (1. Research Institute for Microbial Diseases, Osaka University)
[P028(OP8e-1)]In utero analysis of embryonic morphology and anterior-posterior axis formation in miceマウスにおける胚の形態と前後軸形成の子宮内解析
*Seiya Mikoshiba1,2, Toshihiko Fujimori1,3 (1. Division of Embryology, NIBB, 2. School of Science, Nagoya University, 3. Department of Basic Biology, School of Life Science, SOKENDAI)
[P029(OP8e-2)]Dynamic remodeling of the uterine epithelium during implantation of the mouse embryoマウス胚の着床時に起こる子宮内膜上皮のリモデリング
*jun sakurai1,2, Youko Higuchi2, Azusa Kato2, Toshihiko Fujimori1,2 (1. Department of Basic Biology, School of Life Science, SOKENDAI, 2. Division of Embryology, NIBB)
[P030(OP8e-5)]Programed activation of Autophagy preserves body structure for a long-term diapause period
*Masayuki Oginuma1, Aine Minato1, Tohru Ishitani1 (1. Research Institute for Microbial Diseases, Osaka University)
[P031(OP8e-6)]Extracellular interplay of Nodal and Dand5 proteins during the left-right asymmetric pattern formation in the lateral plate mesoderm側板中胚葉の左右非対称性形成におけるNodalとDand5の細胞外相互作用
*Takafumi Ikeda1, Toru Kawanishi2, Hiroyuki Takeda1 (1. Faculty of Life Sciences, Kyoto Sangyo University, 2. School of Science and Technology, Tokyo Institute of Technology)
[P032(OP8e-7)]Application of the RNA interference technique to Xenopus embryos: Specific reduction of the β-catenin gene products by short double-stranded RNA produced by recombinant human Dicerβ-カテニン遺伝子をモデルとしたRNAi法のアフリカツメガエル初期胚への応用
*Minoru Watanabe1, Yuta Tagami1, Takeshi Nishiyama1, Michiko Omote1 (1. Tokushima University)
[P033(OP11e-2)]Intercellular exchange of Wnt ligands reduces heterogeneity in the tailbud cell population and enhances its robustness 尾芽細胞集団内におけるのWntリガンドの相互交換は集団のばらつきを減少させ頑強性を高める
Yudai Hatakeyama1,2,3, Nen Saito1,2,3,4, Yusuke Mii1,2,3,5, Ritsuko Takada1,2, Takuma Shinozuka1,2,3,7, Tatsuya Takemoto6, Naoki Honda2,4, *Shinji Takada1,2,3 (1. National Institute for Basic Biology, 2. Exploratory Research Center on Life and Living Systems (ExCELLS), National Institutes of Natural Sciences, 3. The Graduate University for Advanced Studies (SOKENDAI), 4. Graduate School of Integrated Sciences for Life, Hiroshima University, 5. PREST, Japan Science and Technology Agency (JST), 6. Institute of Advanced Medical Sciences, Tokushima University, 7. Nara Institute of Science and Technology)
[P034(OP11e-3)]A mathematical model based on spider embryo for testing evolutionary pathways for arthropod body plans節足動物のボディプランの進化過程を探るクモ胚をモデルとした数理モデル
*Motohiro Fujiwara1, Yasuko Akiyama-Oda1,2,3, Hiroki Oda1,4 (1. JT Biohistory Research Hall, 2. PRESTO, JST, 3. Osaka Medical and Pharmaceutical Univ., 4. Osaka Univ.)
[P035#]In vivo measurements of mouse intrauterine pressures and their biomechanical roles in midgestational mouse embryos.妊娠中期のマウス胚にかかる子宮内圧力の計測と力の役割
*Misuzu Okuno1,2, Yoko Ueda1, Kyoko Mochida1, Yasumasa Bessho2, Chiharu Kimura-Yoshida1, Isao Matsuo1 (1. Department of Molecular Embryology, Research Institute, Osaka Women's and Children's Hospital, Osaka Prefectural Hospital Organization, 2. Laboratory of Gene Regulation Research, Division of Biological Science, Graduate School of Science and Technology, Nara Institute of Science and Technology)
[P036]Toward elucidating cell-to-cell mechanical interactions that convert cell chirality into multicellular chirality単細胞から多細胞にキラリティーを変換する細胞間力学相互作用の解明を目指して
*Goshi Ogita1, Tomoki Ishibashi1, Tatsuo Shibata1 (1. RIKEN BDR)
[P037]Left-right asymmetric cell migration in avian epiblasts that occurs prior to a leftward migration around Hensen's node
*Masayuki Hayakawa1, Tatsuo Shibata1 (1. Riken, BDR)
[P038#]Visualization of Developmental Processes of Chicken Embryos.
*Kie Murai1, Hinako Shindo1, Ayuna Ohno1, Hanano Sai1, Kohzy Hiramatsu1, Qi-Long Ying2, Guojun Sheng3, Hiroshi Kagami1 (1. Faculty of Agriculture, Shinshu Univ, 2. Keck School of Medicine, USC, 3. IRCMS, Kumamoto Univ)
[P039]Phenotypic analysis of mice with mutations in two evolutionarily conserved amino acid motifs in Ripply3Ripply3の進化的に保全されたアミノ酸配列に変異を導入したマウスの心臓および胸腺の表現型解析
Daisuke Narita1, Ryusuke Ishizuka1, Yosuke Kajiyama1, Yudai Yabe1, Shinji Takada2, *Tadashi Okubo1 (1. Department of Laboratory Animal Science, Kitasato University School of Medicine, 2. National Institute for Basic Biology and Exploratory Research Center on Life and Living Systems, National Institute of Natural Sciences)
[P040#]Developmental Analysis of Chicken Embryos by Use of Comparative Culture Systems比較培養系を用いたニワトリ胚の発生解析
*Hanano Sai1, Susumu Saito1, Ayuna Ohno1, Kie Murai1, Hinako Shindo1, Seiya Takizawa1, Kohzy Hiramatsu1, Hiroshi Kagami1 (1. Faculty of Agriculture,Shinshu University)
[P041#]Identification and attempt to clarify the cellular localization of two α-catenins in demosponge Ephydatia fluviatilisカワカイメンの2つのα-カテニンの同定と抗体作成による細胞内局在解析の試み
*Shutaro Endo1,2, Satomi Kamimura1, Noriko Funayama1 (1. Department of Biophysics, Graduate School of Science, Kyoto University, 2. Graduate School of Biostudies, Kyoto University)
[P042]The function of transcription factor FTZ-F1 for the determination of the 3rd instar period in Drosophila melanogasterキイロショウジョウバエ3齢幼虫期間決定における転写因子FTZ-F1の役割
*Hitoshi Ueda1, Yuhei Yamamoto1, Mai Morohashi1, Hiroshi Yasuoka1, Shiho Koyama1 (1. Okayama University)
[P043#]Morphogenesis in which cells act as construction workers: Attempt to clarify the process from spicule production to spicule transport.カイメン骨片骨格形成機構;骨片形成細胞(Sclerocyte)がエクソサイトーシスする骨片にTransport cellsが結合するまでの過程解析の試み
*Tomoyuki Ueda1, Satomi Kamimura1, Noriko Funayama1 (1. Dept. of Biophysics, Grad. Sch. of Science, Kyoto Univ.)
[P044#]Contribution of ECM dynamics and its signaling pathways in collective cell migration during epithelial morphogenesis
*Ayae Oshima1, Komaki Ninomiya1,2, Erina Kuranaga1,2 (1. Lab. of Histogenetic. Dynamics, Dept. of Biol., Fac. of Sci, Tohoku Univ, 2. Lab. of Histogenetic. Dynamics, Grad. Sch. of Life Sci., Tohoku Univ.)
[P045#]Functional analysis of the Pdx genes in the process of pancreas development in newtsイモリの膵臓発生過程におけるPdx遺伝子の機能解析
*Ryosuke Morozumi1,3, Mitsuki Kyakuno1,3, Hitoshi Uemasu2, Nanoka Suzuki1,3, Yasuhiro Kamei4, Ichiro Tazawa1,3, Nobuaki Furuno1,3, Noriyuki Nanba2, Hajime Ogino1,3, Toshinori Hayashi1,3 (1. Graduate School of Integrated Sciences for Life, Hiroshima University, 2. Faculty of Medicine School of Medicine, Tottori University, 3. Amphibian Research Center, Hiroshima University, 4. National Institute for Basic Biology)
[P046]Modular organization of gel-like ECMs built by self-organizing zona pellucida domain proteins.
*Housei Wada1, Yuki Itakura1, Tsuyoshi Imasaki2, Tomonobu Watanabe1, Ryo Nitta2, Shigeo Hayashi1 (1. Riken BDR, 2. Kobe Univ.)
[P047#]Identification and functional analysis of Gdf11 enhancers that determine the hindlimb position.後肢の位置決定に必須なGdf11の発現を制御するエンハンサーの同定と機能解析
*Seiji Saito1, Utsugi Kanazawa2, Nobuyuki Hibino2, Tatsuya Takemoto3, Takayuki Suzuki4 (1. Grad. School of Bioag. Sci., Nagoya Univ., 2. Grad. School of Sci., Nagoya Univ., 3. IAMS, Tokushima Univ. , 4. Division of Biology, Graduate School of Science, Osaka Metropolitan University)
[P048#]The role of Pri micropeptides in epithelial invaginationマイクロペプチドが上皮シート陥入を制御するメカニズムの解明
*Sonoko Mizuno1, Takefumi Kondo1,2 (1. Graduate School of Biostudies, Kyoto University, 2. RIKEN Center for Biosystems Dynamics Research)
[P049#]Morphogenesis of adult taste bristles in Drosophila.キイロショウジョウバエにおける味覚受容器機能的ナノ構造の形態形成
*Zhengkuan Sun1,2, Sachi Inagaki1, Yuki Itakura1, Mamiko Ozaki3, Keita Miyoshi4, Kuniaki Saito4, Shigeo Hayashi1,2 (1. Riken, 2. Kobe University, 3. Nara Women’s University, 4. NIG)
[P050]The role of G1 cell cycle phase in collective cell migration during Drosophila epithelial morphogenesis
*Komaki Ninomiya1,2, Ryota Shirasawa1, Takayuki Iwatsuki1, Ayae Oshima2, Erina Kuranaga1,2 (1. Lab. of Histogenetic Dynamics, Grad. Sch. of Life Sci., Tohoku Univ., 2. Lab. of Histogenetic Dynamics, Dept. of Biol., Fac. of Sci., Tohoku Univ.)
[P051]Regulation of blastema cell proliferation during cricket leg regeneration via reactive oxygen speciesコオロギ脚再生におけるNADPH oxidasesにより産生される活性酸素の役割
*Misa Okumura1, Tetsuya Bando1, Hideyo Ohuchi1 (1. Okayama University)
[P052]Lineage tracing using Wnt2b-2A-CreERT2 knock-in mice reveals the contribution of Wnt2b-expressing cells to novel subpopulations of mesothelial/epicardial cell lineages新規Wnt2b-2A-CreERT2 ノックインマウスを用いた中皮/心外膜細胞系譜解析
*Masanori Takahashi1,2, Takayuki Isagawa2,3, Tatsuyuki Sato2, Norihiko Takeda2, Kiyoshi Kawakami4 (1. Dep. of Anat., Jichi Med.Univ., 2. Div. of Cardi. & Metab., Cent.for Mol.Med., Jichi Med. Univ., 3. Data Sci. Cent., Jichi Med. Univ., 4. Jichi Med. Univ.)
[P053]SOX17-expressing cells in the mesodermal wing contribute to the endocardium and vascular endothelium in the mouse developmentマウス初期発生における中胚葉性 SOX17 発現細胞の出現と心内膜・血管内皮への寄与
*Rie Saba1,2, Shinichiro Sakaki2,3, Satoshi Inoue2,4, Hideya Yamazaki1, Kei Yamada1, Kenta Yashiro2 (1. Department of Radiology, Graduate School of Medical Science, Kyoto Prefectural University of Medicine, 2. Department of Anatomy, Graduate School of Medical Science, Kyoto Prefectural University of Medicine, 3. Graduate School of Medicine and Faculty of Medicine, The University of Tokyo, 4. Department of Pediatrics, Graduate School of Medical Science, Kyoto Prefectural University of Medicine)
[P054]Spatiotemporal Dynamics of Lumen Formation in Single ESC-derived Neural Tube-like Spheroid単一細胞由来の神経管形成模倣スフェロイドを用いた管腔形成過程の時空間的解析
*Kazuko Okamoto1,2, Satoru Okuda2 (1. Amphibian Research Center, Hiroshima University, 2. NanoLSI, Kanazawa University)
[P055#]Cell proliferation in CDK1 knockout newtsCDK1ノックアウトイモリにおける細胞増殖について
*Yuta Nakao1,2, Ichiro Tazawa1,2, Nobuaki Furuno1,2, Takashi Takeuchi3, Toshinori Hayashi1,2 (1. Graduate School of Integrated Sciences for Life, Hiroshima Univ, 2. Amphibian Research Center, Hiroshima Univ, 3. School of Life Science, Faculty of Medicine, Tottori Univ)
[P056]USP39 is essential for mammalian epithelial morphogenesis through upregulation of planar cell polarity components.USP39因子はPCP経路を活性化させることでマウスの表皮形成に関与している。
*Chiharu Kmura-Yoshida1, Kyoko Mochida1, Shin-Ichiro Kanno2, Isao Matsuo1 (1. Dept. of Molecular Embryology, Research Institute, Osaka Women's and Children's Hospital, 2. IDAC Fellow Research Group for DNA Repair and Dynamic Proteome Institute of Development, Aging and Cancer, Tohoku University.)
[P057#]Live imaging analysis of caspase activity during skeletal muscle histolysis in Drosophila
*Shiryu Takata1, Erina Kuranaga1, Kenji Matsuno2, Daiki Umetsu2 (1. Lab. of Histogenetic Dynamics, Grad. Sch. of Life Sci., Tohoku Univ, 2. Lab. of Cell Bio., Dept. of Bio. Sci., Grad. Sch. of Sci., Osaka Univ)
[P058]Genetic analysis of mechanical cell competition in Drosophila epitheliumショウジョウバエ上皮組織におけるメカニカルコンペティションの遺伝学的解析
*Keisuke Ikawa1, Souta Hiro1, Shizue Ohsawa1 (1. Division of Biological Science, Graduate School of Science, Nagoya University)
[P059#]Programmed non-apoptotic caspase activation and its role in tissue size regulationカスパーゼ活性をともなうプログラム「非」細胞死とその組織サイズ制御における機能の解析
*Kohei Yamamoto1, Masaya Muramoto1, Natsuki Shinoda1, Masayuki Miura1 (1. Univ. of Tokyo)
[P060]Analyze of collagen dynamics in zebrafish fin ray boneゼブラフィッシュヒレ骨中のコラーゲン動態の解析
*Hiromu Hino1, Shigeru Kondo1, Junpei Kuroda1 (1. Osaka university, Frontier of bioscience)
[P061#]Optimized confocal imaging of mouse embryos highlights the role for Fgf9 and Fgf10 during kidney formation.
*Yu Nakanishi1,2, Filip J Wymeersch1, Minoru Takasato1,2 (1. Laboratory for Human Organogenesis, RIKEN Center for Biosystems Dynamics Research, Japan, 2. Laboratory of Molecular Cell Biology and Development, Graduate School of Biostudies, Kyoto university, Japan)
[P062#]Quantitative analysis of cell behavior during the fin-specific developmental event by 3D time-lapse imaging at the single-cell levelヒレ形成特異的な上皮細胞動態の1細胞レベル定量解析
*Shun Okayama1, GEMBU ABE2, MASAHIRO UESAKA1, YOSHIHIRO MORISHITA3, KOJI TAMURA1 (1. Laboratory of Organ Morphogenesis Department of Ecological Developmental Adaptability Life Sciences Tohoku University Graduate School of Life Sciences, 2. Division of Developmental Biology, Department of Functional Morphology, School of Life Science, Faculty of Medicine, Tottori University, 3. Laboratory for Developmental Morphogeometry RIKEN Center for Biosystems Dynamics Research (BDR))
[P063]Niche-Specific Regulation of MET Events within Kidney Organoids腎臓オルガノイド形成過程におけるMETイベント発生機構
*RIO NOTO1, Minoru Takasato1 (1. RIKEN Center for Biosystems Dynamics Research)
[P064#]Revealing intra- and intercellular actin cytoskeletal organization during the Myo1D-dependent chiral collective cell migration through genetic clonal analysis遺伝学的クローン解析による上皮細胞集団移動におけるアクチン細胞骨格のMyo1D依存的な左右非対称化機構の解明
*Kaede Nakasato1, Sayaka Sekine2, Erina Kuranaga1,2 (1. Lab. of Histogenetic. Dyn., Dept. of Biol., Fac. of Sci, Tohoku Univ., 2. Lab. of Histogenetic. Dyn., Grad. Sch. of Life Sci., Tohoku Univ.)
[P065#]Unraveling the mechanism of myofibril assembly during early heart development in Drosophilaショウジョウバエを用いた心臓初期発生過程における筋原繊維形成メカニズムの解明
*Ryota Akimoto1, Erina Kuranaga1, Sayaka Sekine1 (1. Lab Histogenetic Dyn., Grad. Sch. Life Sci., Tohoku Univ)
[P066]I-BAR protein function in Microridge morphogenesisアクチン突出構造Microridges形成におけるI-BAR ドメインタンパク質の役割
*Yasuko Inaba1, Aoi Nakamura1, Yasumasa Bessho1 (1. NARA INSTITUTE OF SCIENCE and TECHNOLOGY)
[P067#]Role of type IX collagen in the regular orientation of collagen crystals essential for fin bone formation魚類のヒレ骨パターン形成に必須なコラーゲン結晶体の配向性形成における type IX collagen の機能
*Jin Hagiwara1, Hibiki Nakagawa1,2, Takeshi Itabashi3, Atsuko H. Iwane3, Toshihiro Aramaki1, Shigeru Kondo1, Junpei Kuroda1 (1. Grad. school of FBS, Osaka Univ., 2. Grad. school of arts and science, Tokyo Univ., 3. Grad. school of Medicine, Yamaguchi Univ.)
[P068#]Analysis of mutants that modify the orientation pattern of collagen fibers forming fish fins魚類のヒレを形作るコラーゲン繊維の配向パターンが改変する変異体の解析
*Rintaro Tanimoto1, Takeshi Itabashi2, Atsuko H. Iwane2, Shigeru Kondo1, Junpei Kuroda1 (1. Graduate School of Frontier Biosciences, Osaka University, 2. Graduate School of Medicine, Yamaguchi University)
[P069#]Causal association between myosin-induced chiral rotation of F-actin in vitro and left-right asymmetric organogenesis in vivoミオシンによるin vitro F-アクチン回転運動とin vivo細胞キラリティの関連に関する研究
*Yui Akano1, Asuka Yamaguchi1, Ginjiro Endo1, Kohei Yoshimura2, Takeshi Haraguchi2, Mikiko Inaki1, Kohji Ito2, Kenji Matsuno1 (1. Osaka University, 2. Chiba University)
[P070#]Identification of protein domains that bear information dictating the left-right asymmetry of Drosophila embryonic gut in type I myosin proteins
*Asuka Yamaguchi1, Takeshi Sasamura1, Kohei Yoshimura2, Takeshi Haraguchi2, Kohji Ito2, Kenji Matsuno1 (1. Graduate school of science, Osaka University, 2. Graduate school of science, Chiba University)
[P071#]narigoma enhancer controls left-right asymmetry of the anterior gut in Drosophila
*Florian Lucas Neugebauer1, Takuya Nomura1, Mikiko Inaki2, Kenji Matsuno2 (1. Department of Biological Sciences, Osaka University, 2. Faculty of Science, Osaka University)
[P072]Self-organized colony pattern formation by chemotaxis in E. coli走化性による大腸菌の自己組織的コロニーパターン形成
*Hironori Fujita1,2 (1. Astrobiology Center, 2. National Institute for Basic Biology)
[P073]Genomic and genetic analysis of a flounder mutant defective in left-right asymmetric pigmentation found in an aquaculture hatcheryヒラメの無眼側黒化突然変異体のゲノム・遺伝学的解析
*Hayato Yokoi1, Satoshi Ansai1,2, Masatomo Tagawa2 (1. Tohoku Univ., 2. Kyoto Univ.)
[P074]Analysis of Harderian gland formation in the mouseマウスハーダー腺形成機構の解明
*Hideyo Ohuchi1, Keita sato1, Shiori Ikeda2, Hitomi Minagi1 (1. Department of Cytology and Histology, Faculty of Medicine, Dentistry and Pharmaceutical Sciences, Okayama University , 2. Department of Cytology and Histology, Okayama University Medical School )
[P075]Visualization of basement membranes by a nidogen-based fluorescent reporter in miceNidogenを利用した基底膜イメージングモデルの作製
*Sugiko Futaki1, Yukimasa Taniguchi3, Hitomi Hamaoka1, Mari Kaneko2, Mayo Shigeta2, Takaya Abe2, Kiyotoshi Sekiguchi3, Yoichi Kondo1 (1. Osaka Medical Pharmeceutical Univ, 2. Laboratory for Animal Resources and Genetic Engineering, RIKEN BDR, 3. Inst Protein Res, Osaka Univ)
[P076]In toto time-lapse observation of endothelial cells in developing quail embryo using a trans-scale microscope
*Yuki Sato1, Taro Ichimura2, Taishi Kakizuka2, Keiko Itano2, Yusuke Azuma3, Shuichi Onami3, Takeharu Nagai2 (1. Kyushu University, 2. Osaka University, 3. RIKEN BDR)
[P077]Dynamic translocation of extracellular matrix fibronectin during whole-somite rotation and muscle formation in zebrafishゼブラフィッシュ体節形成における細胞外基質フィブロネクチンの移動現象
*Toru Kawanishi1,2, Daisuke Sato1, Ryosei Koga1, Hiroyuki Takeda1,3 (1. University of Tokyo, 2. Tokyo Institute of Technology, 3. Kyoto Sangyo University)
[P079#(OP13j-5)]Unique bone morphogenesis of spiny ray in acanthomorpha fish.棘型類で見られる「棘条」に特有な骨形成メカニズム
*Kazuhide Miyamoto1, Junpei Kuroda2, Gembu Abe3, Yasuyuki Sasano1, Satomi Kamimura4, Satoshi Ansai4, Noriko Funayama4, Shigeru Kondo2, Koji Tamura1 (1. Tohoku University, 2. Osaka University, 3. Tottori University, 4. Kyoto University)
[P080(OP13j-6)]Live imaging-based force inference reveals roles of mechanical potential energy of cell–cell interactions in three-dimensional morphogenesis of early embryosライブイメージングデータを用いた力の推定と形態形成における細胞間相互作用のポテンシャルエネルギーの役割
*Hiroshi Koyama1,2, Toshihiko Fujimori1,2 (1. Division of Embryology, National Institute for Basic Biology, 2. Department of Basic Biology, School of Life Science, SOKENDAI (The Graduate University for Advanced Studies)
[P081#(OP13j-7)]In vitro model of vascular remodeling under On-chip microfluidic perfusionオンチップマイクロ流体灌流下における血管リモデリングのin vitroモデル
*Kotaro Nishikata1, Nobuyoshi Kaneoya1, Masataka Nakamura1, Nobuyuki Futai1 (1. Shibaura Institute of Technology)
[P082(OP13j-8)]Elucidation of the mechanism that monoamine regulates pancreatic developmentモノアミンを介した膵臓発生機序の解明
*Airi Inoue1, Fumiya Uefune1, Takahiro Shitamichi, Daisuke Sakano1, Shoen Kume1 (1. Tokyo institute of technology)
[P083(OP1e-1)]ECM dynamics modulate endocytosis and EGFR signaling to regulate the abdominal epithelium remodeling in Drosophila
*Kevin Yuswan1, Xiaofei Sun1, Daiki Umetsu2, Erina Kuranaga1 (1. Lab. of Histogenetic Dynamics, Grad. Sch. of Life Sci., Tohoku Univ., 2. Lab. of Cell Bio., Dept. of Bio. Sci., Grad. Sch. of Sci., Osaka Univ.)
[P084(OP1e-4)]An In toto Imaging Study with Sub-Embryonic Resolution: Quantifying collective cell migration
*Elham Gheisari1, Mostafa Aakhte2, Kamal Heidary1, H.-Arno J. Müller1 (1. Univ. of Kassel, 2. Georg-August-Universität Göttingen)
[P085(OP1e-5)]A subpopulation of renal interstitial fibroblasts originates from embryonic neural cells that produce the erythroid growth factor erythropoietin.
*Yuma Iwamura1,2, Taku Nakai1,2, Koichiro Kato1,2, Ikuo Hirano3, Norio Suzuki1,2 (1. Applied Oxygen Physiology Project, New Industry Creation Hatchery Center, Tohoku University, 2. Division of Oxygen Biology, Tohoku University Graduate School of Medicine, 3. Department of Molecular Hematology, Tohoku University Graduate School of Medicine)
[P086(OP1e-6)]Heparan sulfate proteoglycans are dynamically involved in the regulation of planar cell polarity with Wnt11 and core PCP componentsヘパラン硫酸プロテオグリカンは平面内細胞極性の制御においてWnt11とコアPCP因子と動的に関与する
*Minako Suzuki1,2,3, Hiroki Hikasa4, Masanori Taira5, Shinji Takada1,2,3, Yusuke Mii1,2,3 (1. SOKENDAI, 2. NIBB, 3. ExCELLS, 4. UOEH, 5. Chuo Univ.)
[P087(OP1e-8)]The mouse vagina develops laterally at the late embryonic stages and caudally after birth.マウスの膣は、胎生後期には側方に、出生後は下方に成長する
*Masayo Harada1, Keiichi Akita1 (1. Tokyo Medical and Dental University)
[P088(OP2e-6)]Trans-scale order of germ cell society in the mouse testis: visualizing and modeling of the spermatogenic cycle and waveマウス精巣における階層を超えた細胞集団秩序:精子形成の周期と波
*Toshiyuki Sato1, Shosei Yoshida1,2 (1. NIBB, 2. Grad. Univ. for Adv. Stud.)
[P089(OP2e-7)]Map7 regulates Sertoli cell polarity to support the differentiation of male germ cell lineages.雄性生殖細胞の分化を支えるセルトリ細胞の新たな極性化メカニズム
*Koji Kikuchi1, Mami Nakagawa2, Toshihiko Fujimori2, Ryuki Shimada1, Sayoko Fujimura3, Shingo Usuki3, Kei-ichiro Yasunaga3, Kimi Araki4, Kei-ichiro Ishiguro1 (1. Dept. Chromosome Biol., IMEG, Kumamoto Univ., 2. Div. Embryology, National Institute for Basic Biology, 3. LILA, IMEG, Kumamoto Univ., 4. IRDA, Kumamoto Univ.)
[P090(OP4e-1)]ATXN10, a Wnt5a downstream target, regulates the establishment of planar cell polarity during early development in mouseWnt5aの下流因子として同定されたATXN10はマウス初期発生において平面内極性構築を制御する
*Rieko Ajima1,2, Yumiko Saga2, Toshihiko Fujimori1 (1. National Institute for Basic Biology, 2. National Institute of Genetics)
[P091(OP4e-3)]Newt Hox13 genes regulate tail length in the adult stagesイモリのHox13遺伝子は成体の尾の長さを制御する
*Takashi Takeuchi1, Tomoe Asuka1, Haruka Matsubara1, Ayumi Sakamoto1, Reo Soeta1, Toshinori Hayashi2, Gembu Abe1 (1. Tottori University, 2. Hiroshima University)
[P092(OP4e-4)]Visualizing and Analyzing the Neural Plate Shaping神経板の変形ダイナミクスを可視化して解析する
*Hinako Kidokoro1, Gary C. Schoenwolf2, Yukio Saijoh2 (1. Doshisha University, 2. University of Utah)
[P093(OP4e-5)]Molecular and Mechanical Mechanisms Driving Columnar-to-squamous Epithelial Transformation
*Chun Wai Kwan1, Michiko Takeda 1, Yu-Chiun Wang1 (1. RIKEN Center for Biosystems Dynamics Research)
[P094(OP4e-8)]Biased elongation on peripheral cells accounts for the foramtion of oblong diversity among entire levaes縁細胞が偏って伸長することで全縁の葉のプロポーションの違いが生じる
*Akiko M. Nakamasu1 (1. no affiliation)
[P095(OP7e-1)]ECM nanostructures formation in Drosophila olfactory hair cells is regulated by the tubular ER to plasma membrane transport under the control of gore-texショウジョウバエ嗅覚毛細胞におけるECMナノ構造形成は、gore-texよる管状ERから細胞膜への小胞輸送によって制御されている
*Sachi Inagaki1, Takeshi Itabashi1, Atsuko H. Iwane1, Shigeo Hayashi1 (1. RIKEN BDR)
[P096(OP7e-2)]Multicellular dynamics and molecular bases underlying single cell layer morphogenesis during Dictyostelium culmination
*Satoshi Kuwana1, Hidenori Hashimura1, Takahiro Kanazawa2, Shoko Fujishiro1, Toyoko Sugita1, Tetsutaro Hayashi3, Mika Yoshimura3, Mariko Kuse3, Itoshi Nikaido3, Satoshi Sawai1 (1. Dept. of Basic. Sci., Grad. Sch. of Arts & Sci., Univ. of Tokyo, 2. Dept. of Phys., Fac. & Sci.,Univ. of Tokyo, 3. Lab. of Bioinformatics. Res., RIKEN BDR)
[P097(OP7e-3)]Nano-scale patterning of insect cuticle by a structured extracellular matrix with compression force
*Yuki Itakura1, Zhengkuan Sun1,2, Sachi Inagaki1, Housei Wada1, Shigeo Hayashi1,2 (1. RIKEN BDR, 2. Dept. of Biol., Kobe Univ.)
[P098(OP7e-4)]Bioelectrical signal regulates the segmentation pattern of zebrafish fin bones魚類ヒレ骨分節パターンを制御する生体電気シグナル
*Toshihiro Aramaki1,2 (1. Nara Institute of Science and Technology, 2. Osaka University)
[P099(OP7e-5)]Cell chirality emerges left-right asymmetry at the multi-cellular level: left-right asymmetric formation of lamellipodia and focal adhesions drive collective migration細胞キラリティが多細胞スケールの左右非対称生を生み出す仕組み: 焦点接着斑と葉状仮足の左右非対称な形成が時計回りの多細胞回転を生み出す
*Tomoki Ishibashi1, Goshi Ogita1, Tatsuo Shibata1 (1. Laboratory for Physical Biology, BDR, RIKEN)
[P100(OP7e-6)]Scleraxis-lineage cells are required for correct muscle patterning
*Saundra Yvonne SCHLESINGER1, Yudai Ono1, Kanako Fukunaga1, Shinsei Yambe2, Tempei Sato3,4, Takako Sasaki5, Chisa Shukunami2, Hiroshi Asahara3,6, Masafumi Inui1,4 (1. Meiji Univ., 2. Hiroshima Univ., 3. Tokyo Med. and Dental Univ., 4. National Research Inst. for Child Health and Dev., 5. Oita Univ., 6. The Scripps Research Inst.)
[P101]Identification of a chemokine-chemokine receptor axis that impairs tail regeneration during the refractory period of Xenopus laevis tadpoleアフリカツメガエル幼生尾再生不応期に尾再生を阻害するケモカイン-ケモカイン受容体枢軸の同定
*Taro Fukazawa1 (1. Univ. Tokyo)
[P102#]Elucidating the role of epigenetic factors in chromatin modification during regeneration of a planaria.
*Shankar Chereddy1, Rei Kajitani2, Takehiko Itoh2, Makoto Kashima3,Takashi Makino1 (1. Tohoku University, 2. Tokyo Tech, 3. Toho University)
[P103#]Estimation of tissue stem cells and their differentiation trajectories in Xenopus tail regeneration using single-cell RNA analysisシングルセル-RNA解析を用いたツメガエル幼生尾再生における組織幹細胞とその分化経路の推定
*Sumika Kato1, Momoko Deguchi1, Takeo Kubo1, Taro Fukazawa1 (1. Dept. Biol. Sci., Grad. Sch. Sci., Univ. Tokyo)
[P104]Hox-mediated positional memory controls stem cell function in adult skeletal muscleHoxを介したポジショナルメモリーは成体骨格筋の幹細胞機能を制御する
*Yusuke Ono1, Kiyoshi Yoshioka1, Hiroshi Nagahisa1 (1. Department of Muscle Development and Regeneration, Institute of Molecular Embryology and Genetics (IMEG), Kumamoto University)
[P105]Genetic screening for the genes involved in the frequency of Drosophila transdeterminationショウジョウバエの決定転換頻度に関与する遺伝子のゲノム網羅的探索
*Masato Imai1, Kazuya Nemoto1, Naoyuki Huse1, Shoichiro Kurata1 (1. Univ. of Tohoku)
[P106#]Co-expression of Ouro1 and Ouro2, identified as tail antigens, promotes altered subcellular localization and T cell recognition responses of Xenopus laevis尾部抗原として同定されたOuro1とOuro2の共発現はアフリカツメガエルの細胞内局在の変化とT細胞の異物認識反応を促進する
*Haruka Kobayashi1, Yumi Izutsu2 (1. Graduate School of Science and Technology, Niigata University, 2. Department of Biology, Faculty of Science, Niigata University)
[P107#]A chemically defined serum-free medium for rodent pluripotent stem cell growth.げっ歯類多能性細胞の増殖維持における化学的に定義された無血清培地の開発
*Tomoka Katayama1, Yamato Murata1, Marina Azuma2,3, Yuta Chigi4, Minami Oura1, Shinpei Yamaguchi2, Daiji Okamura1 (1. Dep. Adv. Biosci. Grad. school of Agri., Kindai Univ., 2. Dep. Bio. Fac of sci., Toho Univ., 3. Grad. school of FBS., Osaka Univ., 4. Inst. Adv. Med. Sci., Tokushima Univ.)
[P108]The coordinated activities of nicotinic acetylcholine receptor and Wnt signaling regulate intestinal stem cell function in miceニコチン性アセチルコリン受容体とWntシグナルは協調してマウスの腸幹細胞の機能を調節する
*Toshio Takahashi1, Yuta Takase1 (1. Suntory Foundation for Life Sci.)
[P109]FGF-8b Inhibits Adipogenesis and Enhances Myogenesis in Rotator Cuff Muscle Cell Populations in VitroFGF-8bによる腱板筋細胞集団の脂肪新生抑制と筋新生促進効果
*Takayoshi Otsuka1,2, Ho-Man Kan2, Paulos Mengsteab2, Breajah Tyson2, Cato Laurencin2 (1. Niigata University, 2. UConn Health)
[P110#]Analysis of the relationship between the aggregate movement of neutrophils and the area of damage.好中球の集合運動と損傷領域との関係の解析
*Maika Sasazaki1, Satoshi Sawai2,1 (1. Grad. Sch. Sci., Univ. Tokyo, 2. Grad. Sch. Arts & Sci., Univ. Tokyo )
[P111]PI3K-Akt signaling in Werner syndrome stem cell aging
*HEI YIN TAM1, Hoi Hung Albert Cheung1 (1. Chinese University of Hong Kong )
[P112#]The m6A methyltransferases, Djmettl3 and Djmettl14, regulate neoblast maintenance and neural regeneration in planarians
*Yi-Jia Su1, Chia-Ying Chu1 (1. National Taiwan University)
[P113]Analysis of the regenerative ability of the fin ray in deeper pectoral fin amputation in zebrafishゼブラフィッシュの胸ヒレ内骨格領域の切除における鰭条の再生能力の解析
Daiki Okazaki1, Keigo Yoshida2, Haruka Matsubara1, Koji Tamura2, Takashi Takeuchi1, *Gembu ABE1 (1. Division of Developmental Biology, Department of Functional Morphology, School of Life Science, Faculty of Medicine, Tottori University., 2. Department of Ecological Developmental Adaptability Life Sciences, Graduate School of Life Sciences, Tohoku University,)
[P114]Mitochondrial dysfunction in Drosophila intestinal stem cells:
impacts on tissue integrity and stress resistanceショウジョウバエ腸管幹細胞におけるミトコンドリア機能不全:組織の完全性とストレス耐性への影響
*Yuki Yoshida1, Chiharu Kawabe2, Tomoko Kasahara2, Takaaki Abe2, Erina Kuranaga1 (1. Lab. of Histogenetic Dynamics, Grad. Sch. of Life Sci., Tohoku Univ., 2. Dept. of Clin. Biol. and Horm. Reg., Grad. Sch. of Med. Tohoku Univ. )
[P115]A single-cell transcriptome approach revealed the function of BMP4 for mesoderm lineage-specification in time-dependent manner
*Wei Zhao1, Minoru Takasato1 (1. RIKEN Center for Biosystems Dynamics Research)
[P117#(OP2j-9)]Investigation of regulating factors for testicular regeneration in newts.イモリの精巣組織で見られる再生現象とその制御因子の解析
*Mai Takehara1,2, Mitsuki Kyakuno1,2,3, Yukio Sato4, Takashi Takeuchi4, Ichiro Tazawa1,2, Nobuaki Furuno1,2, Takuya Imamura1, Toshinori Hayashi1,2 (1. Grad. Sch. of Integrated Science for Life, Hiroshima Univ., 2. Amphibian Research Center, Hiroshima Univ., 3. Fac. of Life and Environmental Sci., Shimane University, 4. Sch. of Life Sci., Fac. of Med., Tottori Univ.)
[P118#(OP8j-8)]Differentiation potential of Muse cells into trophoblast and primordial germ cell lineages beneficial for obstetrics and reproductive medicine産科学・生殖医学への応用に向けたMuse細胞から栄養膜細胞と始原生殖細胞への分化
*Kana Abe1, Yoshihiro Kushida1, Shohei Wakao1, Yasumasa Kuroda1, Yasuhisa Matsui2,3,4, Mari Dezawa1 (1. Department of Stem Cell Biology and Histology, Tohoku University Graduate School of Medicine, 2. Cell Resource Center for Biomedical Research, Institute of Development, Aging and Cancer (IDAC), Tohoku University, 3. Department of Germ cell development, Tohoku University Graduate School of Life science, 4. Department of Germ cell development, Tohoku University Graduate School of Medicine)
[P119#(OP9j-8)]Tenascin-C-enriched regeneration-specific extracellular matrix guarantees superior muscle regeneration in Ambystoma mexicanumアホロートルの優れた筋再生能力を支える細胞外マトリックスの役割
*Ayaka Ohashi1, Akira Satoh2 (1. Graduate School of Environmental, Life, Natural Science, and Technology, Okayama university , 2. Research Core for Interdisciplinary Sciences(RISC), Okayama university)
[P120(OP5e-3)]DEAD box RNA helicase cbc-1, a component of planarian adult pluripotent stem cell-specific RNP granules, is required for muscle cell and male germ cell differentiationプラナリア成体多能性幹細胞特異的RNP顆粒の構成要素であるDEADbox型RNAヘリカーゼは筋肉細胞と雄性生殖細胞分化を制御する
*Masaki Fujita1, Kiyono Sekii2, Makoto Nishizuka3, Norito Shibata4, Kiyokazu Agata5, Kazuya Kobayashi1,3, Nobuyoshi Kumagai3 (1. Hirosaki University Graduate School of Agriculture and Life Science, 2. Faculty of Business and Commerce, Keio University, 3. Faculty of Agriculture and Life Science, Hirosaki University, 4. Department of Integrated Science and Technology, Tsuyama College, 5. National Institute for Basic Biology, National Institutes of Natural Sciences)
[P121(OP5e-5)]Territory distribution of primordial germ cell clones in the mouse testis精巣における始原生殖細胞クローンの領域分布
*Tatsuro Ikeda1, Maurice Langhinrichs2, Tamar Nizharadze2, Hans-Reimer Rodewald2, Thomas Höfer2, Shosei Yoshida1,3 (1. NIBB, 2. DKFZ/Univ. Heidelberg, 3. Grad. Univ. Adv. Stud. (SOKENDAI))
[P122(OP5e-6)]Conservation of naive pluripotent states in primates霊長類におけるナイーブ型多能性状態の保存性
*Hideki Masaki1 (1. TMD-ARIS, Tokyo Medical and Dental University )
[P123(OP9e-3)]Size-dependent dynamics of Shh/Fgf8 expression domains and cell distribution in axolotl limb regeneration: A comparative analysis across varying blastema sizes.アホロートル四肢再生における多様な大きさの再生芽でのShh・Fgf8の発現領域サイズと細胞分布動態の比較解析
*Saya Furukawa1, Yoshihiro Morishita2, Akira Satoh1,3 (1. Graduate School of Environmental, Life, Natural Science and Technology, Okayama University, 2. Laboratory for Developmental Morphogeometry, RIKEN Center for Biosystems Dynamics Research, 3. Research Core for Interdisciplinary Sciences (RCIS), Okayama University)
[P124(OP9e-4)]Comparison of spinal cord regeneration between zebrafish and medakaゼブラフィッシュとメダカの脊髄再生の比較
Masato Hori1, Shun Aoki1, *Hiroshi Tsujioka1, Toshihide Yamashita1 (1. Graduate School of Medicine, Osaka University)
[P125(OP9e-7)]Role of soxC in the blastema formation in annelid Enchytraeus japonensisヤマトヒメミミズ再生芽形成でのsoxCの役割
*Shinji Yamaguchi1, Toshiyuki Fujita1 (1. Teikyo University)
[P126#]The Mechanism of Cerebellar Ataxia: Roles of Yy1 in Purkinje Cell Development
*Ying Lam Blue Lui1, Kin Ming Kwan1,2,3 (1. School of Life Sciences, The Chinese University of Hong Kong, Hong Kong SAR, China, 2. Centre for Cell and Developmental Biology, The Chinese University of Hong Kong, Hong Kong SAR, China, 3. State Key Laboratory of Agrobiotechnology, The Chinese University of Hong Hong SAR, China)
[P127]Activin signaling promotes the male muscle phenotype in Drosophila melanogasterアクチビンシグナルは、ショウジョウバエの雄特異的な筋肉の表現型を促進する
*Ken-ichi Kimura1, Daisuke Yamamoto2 (1. Laboratory of Biology, Hokkaido University of Education, Sapporo Campus, 2. Adv. ICT Res. Inst., NICT)
[P128#]The role of mitotic kinesin-like protein Kif23 in neural stem/progenitor cells during cytokinesis
*Sharmin Naher1, Takako Kikkawa2, Noriko Osumi2 (1. Dept of Dev Neurosci, Grad Sch of Life Sci, Tohoku Univ, Sendai, Japan, 2. Dept of Dev Neurosci, Grad Sch of Med, Tohoku Univ, Sendai, Japan)
[P129#]Identification of a Myt1l enhancer crucial for neural stem cell differentiation神経幹細胞分化に重要なMyt1lエンハンサーの同定
*Kazunori Hojo1, Natsumi Yamada1, Hiroki Sugishita1,2, Yukiko Gotoh1,2 (1. Graduate School of Pharmaceutical Sciences, The University of Tokyo, 2. International Research Center for Neurointelligence (WPI-IRCN), The University of Tokyo)
[P130]PIEZO1-mediated mechanosensing regulates the fate of neural progenitor cellsPIEZO1を介したメカノセンシングが神経前駆細胞の運命を制御する
*Mayumi Okamoto1 (1. Nara Women's University)
[P131#]Transcriptional factor network for differentiation of cerebellar neurons in zebrafishゼブラフィッシュの小脳ニューロンの分化を制御する転写制御因子ネットワーク
*Yukimi Fujii1, Tsubasa Itoh1, Mari Uehara1, Shinnosuke Yura1, Jui Chun Wang1, Akiko Nakanishi1, Enkhjin Ulzii1, Takashi Shimizu1, Masahiko Hibi1 (1. Graduate School of Science, Nagoya University)
[P132]Analysis of the effects of communication on individual development using a mathematical model of brain-like networks脳を模した動的可塑的ネットワークモデルを用いた個体の発達に対するコミュニケーションの影響の解析
*Haruto Nakata1, Akinori Awazu1 (1. Hiroshima university graduate school of Integrated Sciences for Life )
[P133]Diversity in gene expression status and disease progression in patients with late-onset Alzheimer's disease遅発性アルツハイマー病の進行の多様性とそれに関連する遺伝子群の解析
*Kosei Honda1, Akinori Awazu1 (1. Hiroshima university Graduate School of Integrated Sciences for Life)
[P134#]Functional analysis of a long-wave sensitive (lws) cone-specific bi-directional enhancer in medaka長波長感受性錐体特異的双方向エンハンサーの機能解析
*Naomi Kusaka1, Takahiro Abue2, Yui Fukuda2, Taichi Kawakami1, Fuki Gyoja1, Yutaka Daido1, Rui Yokomori3, Yutaka Suzuki4, Kenta Nakai3, Takehiro G. Kusakabe1 (1. Dept. of Biol., Grad. Sch. of Nat. Sci., Konan Univ., 2. Inst. for Integr. Neurobiol., Fac. of Sci. & Engineer., Konan Univ., 3. Inst. of Med. Sci., Univ. of Tokyo, 4. Grad. Sch. of Frontier Sci., Univ. of Tokyo)
[P135]Spatial transcriptomic analysis of the adult brain of the ascidian Ciona intestinalis type Aカタユウレイボヤ成体脳の空間的トランスクリプトーム解析
*Ayana Maruo1, Xin Zeng 2,3, Nanako Okawa 1, Fuki Gyoja1, Ken-ichi Mizutani 4, Yutaka Suzuki 3, Kenta Nakai 2, Takehiro G. Kusakabe1 (1. Inst. for Integr. Neurobiol., Grad. Sch. of Nat. Sci., Konan Univ., 2. Inst. of Med. Sci., Univ. of Tokyo, 3. Grad. Sch. of Front. Sci., Univ. of Tokyo, 4. Grad. Sch. of Pharm. Sci., Kobe Gakuin Univ.)
[P136#]A new fish model of retinitis pigmentosa: histological, behavioral, and proteomics analyses of medaka lacking rhodopsin網膜色素変性症モデルとしてのロドプシン欠損メダカ:組織形態、行動およびプロテオーム解析
*Erika Kobayashi1, Naomi Kusaka1, Taiki Iba2, Yui Fukuda2, Yutaka Daido2, Noriyuki Iwasaki3, Masaya Ikegawa4, Takehiro G. Kusakabe1,2 (1. Dept. of Biol., Grad. Sch. of Nat. Sci., Konan Univ., 2. Inst. for Integr. Neurobiol., Fac. of Sci. & Engineer., Konan Univ., 3. AB SCIEX, 4. Dept. of Life and Med. Systems, Doshisha Univ.)
[P137#]UCP2 controls cell proliferation via SESN family in NSCs to differentiate mouse/human brain developmentUCP2はSESNファミリーを介して神経幹細胞の細胞増殖を制御し、マウス・ヒトの脳の形態的種差をもたらしうる
*Akari Ando1, Boyang An1, Mayuri Tokunaga1, Arisa Makimura1, Fumihiro Morishita1,2, Tomonori Kameda1, Takuya Imamura1,2 (1. Graduate School of Integrated Science for Life, Hiroshima Univ., 2. Department of Biological Science, Hiroshima Univ.)
[P138]Developmental profiles of activity of gnrh-expressing cells in the larval central nervous system of the ascidian Ciona intestinalis type Aホヤ幼生の中枢神経系の発生過程におけるgnrh発現細胞の活動解析
*Nanako Okawa1,2, Haruka Motomura1, Misaki Okahata1,2, Atsushi Kuhara1,2, Takehiro G. Kusakabe1,2 (1. Institute for Integrative Neurobiology, Konan University, 2. Department of Biology, Konan University.)
[P139]Functional analysis of the retinoic acid response elements in the Foxp1 promotersFoxp1プロモーター内に存在するレチノイン酸応答配列の機能解析
*Katsuki Mukaigasa1, Chie Sakuma1, Hiroyuki Yaginuma1 (1. Fukushima Med. Univ.)
[P140]Nolz-1 regulates specification of VTA dopamine neurons by dual action of promoting VTA but repressing SNc genetic programs
Shih-Yun Chen1, *Fu-Chin Liu1 (1. National Yang Ming Chiao Tung University, Institute of Neuroscience, Taipei 112304, Taiwan)
[P141#]Role of atoh1-expressing granule cell progenitors and their regulators in adult zebrafish neurogenesis
*Jui-Chun Wang1, Masahiko Hibi1 (1. Grad. School of Science, Nagoya University)
[P142]Cell polarity and fate determination in developing neural retina中枢神経系網膜の細胞極性と運命決定
*Akiko Ueno1, Rin Sawada1,2, Yusuke Inoue2, Yuki Nishimura1, Yui Akiba1, Chiseto Maejima1, Takuya Ishibashi3, Kazunori Akimoto4, Shigeo Ohno5, Chieko Koike6 (1. College of Pharmaceutical Sciences, Ritsumeikan University, 2. Graduate School of Pharmaceutical, Ritsumeikan University, 3. Research Organization of Science and Technology, Ritsumeikan University, 4. Faculty of Pharmaceutical Sciences, Tokyo University of Science, 5. University Research Institute for Diseases of Old Age, Juntendo University School of Medicine, 6. Center for Systems Vision Science, Research Organization of Science and Technology, Ritsumeikan University)
[P143]Contractile force of the dendritic membrane skeleton may control the dendrite orientation樹状突起膜骨格の収縮力が突起進展方向を決定する可能性を検討する
*Kazuto Fujishima1, Yoichi Kondo1, Mineko Kengaku2 (1. Department of Anatomy & Cell Biology, Division of Life Sciences, Faculty of Medicine, Osaka Medical and Pharmaceutical University, 2. Institute for Integrated Cell-Material Sciences (KUIAS-iCeMS), Kyoto University)
[P144#]Human-specific non-coding RNA-mediated regulation of GDF11 determines behavior of cortical neural stem/progenitor cells
*Hiroto Akuta1, Akari Ando1, Boyang An1, Fumihiro Morishita1,2, Takuya Imamura1,2 (1. Graduate School of Integrated Science for Life, Hiroshima Univ., 2. Department of Biological Science, Hiroshima Univ.)
[P145#]Human-specific non-coding RNA targets EFHC1, an epilepsy-associated gene, to regulate the proliferation of neural stem cells
*Sota Nishida1, Boyang An1, Arisa Makimura1, Humihiro Morishita1,2, Takuya Imamura1,2 (1. Grad Sch of Integrated Sci for Life, Hiroshima Univ., 2. Dept of Biological Sci, Hiroshima Univ.)
[P146#]Establishment of co-staining method for multiple fluorescence ISH and BrdU-IHC in the mouse hypothalamus視床下部における多重蛍光ISH-BrdU共染色法の確立
*Mitsuru Yashiro1,2, Yousuke Tsuneoka1, Aki Makanae1,2, Hiromasa Funato1,3 (1. Department of Anatomy, Faculty of Medicine, Toho University., 2. Center for research and product development, Nepa Gene Co., Ltd., 3. International Institutes for Integrative Sleep Medicine (WPI-IIIS), University of Tsukuba.)
[P147#(OP14j-7)]Interventricular pressure of the developing mammalian brain before skull vault ossification: mechanisms and physical roles of pressure generation頭蓋冠骨化前の胎生期哺乳類の脳室内圧:圧成立の仕組みと物理的役割
*Koichiro Tsujikawa1, Takaki Miyata1 (1. Department of Anatomy and Cell Biology, Nagoya University Graduate School of Medicine, Nagoya, Japan)
[P148(OP14e-1)]Explore SOX9 haploinsufficiency in neural stem cells
*See Wing Chan1, Zhangting Wang1, Kai Kei Miu1, Wai-yee Chan1,2,3 (1. School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong, Shatin, New Territories, Hong Kong SAR, China, 2. Center for Neuromusculoskeletal Restorative Medicine, Hong Kong Science Park, Shatin, New Territories, Hong Kong SAR, China, 3. Key Laboratory for Regenerative Medicine, Ministry of Education, School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong, Hong Kong SAR, China)
[P149(OP14e-2)]Searching for the mechanism of emergence of community-level efficiencies in the interkinetic nuclear migration in highly proliferative embryonic mouse neuroepithelium胎生期マウス神経前駆細胞の集団としての効率性担保メカニズムの探究
*Tsukasa Shimamura1, Takaki Miyata1 (1. Department of Anatomy and Cell Biology, Nagoya University Graduate School of Medicine)
[P150#]Improvement of heat shock promoter for development of inducible gene expression system in Iberian ribbed newtイベリアトゲイモリの遺伝子発現誘導系構築のためのヒートショックプロモーターの改良
*Eriko Enomoto1,2, Haruka Matsubara3, Takashi Takeuchi3, Yasuhiro Kamei4, Toshinori Hayashi1,2 (1. Graduate School of Integrated Sciences for Life, Hiroshima university, 2. Amphibian research center, Hiroshima university, 3. Faculty of Medicine, Tottori University, 4. National Institute for Basic Biology)
[P151(OP10e-2)]Conserved and diversified regulations of Msx1 expression in the cranio-facial development顔面形成におけるMsx1遺伝子の発現制御における動物種間の保存性と多様性
*Yoshio Wakamatsu1 (1. Tohoku Univ. Grad. Sch. Med.)
[P153(OP10e-4)]A chromatin dynamics model of Hox collinearity based on statistical thermodynamics and ATAC-seq data.
*Yoshifumi Asakura1,2, Yoshihiro Morishita1, Takayuki Suzuki2,3 (1. RIKEN BDR, 2. Grad. Sch. Agr., Nagoya University, 3. Grad. Sch. Sci., Osaka Metropolitan University)
[P154(OP10e-5)]A role for CtBP1/2 proteins during cell differentiation and limb organogenesis
*Nayuta Yakushiji-Kaminatsui1, Shinsuke Ito1, Yoko Koseki1, Hiroki Sugishita1, Manabu Nakayama2, Takashi Kondo1, Haruhiko Koseki1 (1. RIKEN IMS, 2. Kazusa DNA Res. Inst.)
[P155(OP12e-1)]Light shading triggers the secretion of hatching enzymes from hatching gland cells on the tail epidermis of the embryo in clown anemonefishカクレクマノミでは遮光がトリガーとなって胚の尾部にある孵化腺細胞から孵化酵素を分泌する
*Sakuto Yamanaka1, Masato Kinoshita1 (1. Division of Applied Biosciences Graduate School of Agriculture Kyoto University)
[P156(OP12e-4)]S-adenosylmethionine metabolic homeostasis via proteasome-dependent suppression of conSAMption by Glycine N-methyltransferase in Drosophila fat bodyProteasomeによるGlycine N-methyltransferaseの抑制を介したショウジョウバエS-adenosylmethionine代謝制御機構
*Soshiro Kashio1, Masayuki Miura1 (1. Department of Genetics, Graduate School of Pharmaceutical Sciences, The University of Tokyo)
[P157#]Comparative study of the sternal development between chicken and emu
*Seung June Kwon1, Zhaonan Zou2, Mizuki Honda2, Shinya Oki2, Yuji Atsuta1 (1. Kyushu Univ., 2. Kyoto Univ.)
[P158#]Investigating the evolutionary process of interdigital cell death指間細胞死システムの進化へのアプローチ
*Satomi F Ono1, Rikito Furukawa1, Ingrid Rosenburg Cordeiro1, Kyohei Yoshida1, Koki Hayafune1, Taiki Hatano1, Toru Kawanishi1, Shuji Shigenobu2, Makoto Kashima3, Osamu Kishida4, Haruki Ochi5, Mikiko Tanaka1 (1. Tokyo Institute of Technology, 2. National Institute for Basic Biology, 3. Toho University, 4. Hokkaido University, 5. Yamagata University)
[P159#]Of brains and flies: The origins and conservation of bilateral polymorphisms of asymmetric body, a left-right asymmetric structure in the Drosophila brain
*Wai Cheng Wong1, So Sakamura1, Tomoki Yoshida1, Akari Tsujita1, Komomo Suyama1, Kenji Matsuno1 (1. Osaka University)
[P160]Are the embryos of echinoderms more evolutionary derived than the embryos of chordates?
*Jason Cheok Kuan Leong1,2, Masahiro Uesaka3, Echinoderm Genomes Sequencing Consortium, Naoki Irie1,4,2 (1. Dept. Biol. Sci., Grad. Sch. of Sci., Univ. of Tokyo, 2. RCIES, SOKENDAI (Present Address), 3. Grad. Sch. Life Sci., Tohoku Univ., 4. Universal Biology Institute, Univ. of Tokyo)
[P161(OP3j-8)]EvoDevo studies of phenotypic novelty and diversity in mammals using zoo iPS cells動物園iPS細胞を用いた哺乳動物の新奇性・多様性の発生進化研究
*Masanori Imamura1 (1. Center for the Evolutionary Origins of Human Behavior, Kyoto University)
[P162#(OP3j-9)]Evolution of invertebrate Cdkn2 gene無脊椎動物Cdkn2遺伝子の進化
*Shiori Yuki1, Shunsuke Sasaki2, Yuta Yamamoto2, Fumika Murakami1, Isato Araki1,2 (1. Grad. Sch. Arts & Sci., Iwate Univ., 2. Fac. Sci. & Eng., Iwate Univ.)
[P163(OP3e-2)]Ascidian neural plate border cells with a hybrid property of neural crest cells and neuromesodermal progenitorsホヤ初期発生における神経板側方境界の細胞は神経堤細胞と神経中胚葉前駆細胞の両方の性質を併せもつ
*Tasuku Ishida1, Yutaka Satou1 (1. Grad. Sch. of Sci., Kyoto Univ.)
[P164(OP3e-3)]Comparative expression analysis of FoxI genes in invertebrate deuterostomes: implications for the evolutionary origins of gene regulatory network underlying the vertebrate pre-placodal ectoderm
Kuang-Tse Wang1, Yi-Chih Chen1, Yi-Hsien Su1, *Jr-Kai Sky Yu1,2 (1. Institute of Cellular and Organismic Biology, Academia Sinica, Taipei, Taiwan, 2. Marine Research Station, Institute of Cellular and Organismic Biology, Academia Sinica, Yilan, Taiwan)
[P165(OP3e-5)]Insights into deuterostome evolution from the biphasic gene regulatory programme of hemichordates
Alberto Perez-Posada2,3, Che-Yi Lin1, Tzu-Pei Fan1, Ching-Yi Lin1, Yi-Chih Chen1, José Luis Gómez Skarmeta2, Jr-Kai Yu1,4, Juan Tena2, *Yi-Hsien Su1 (1. Institute of Cellular and Organismic Biology, Academia Sinica, 2. Centro Andaluz de Biología del Desarrollo, Consejo Superior de Investigaciones Científicas-Universidad Pablo de Olavide-Junta de Andalucía, 41013 Seville, Spain, 3. Department of Biological and Medical Sciences, Oxford Brookes University, Headington Campus, Gipsy Lane, OX3 0BP Oxford, United Kingdom, 4. Marine Research Station, Institute of Cellular and Organismic Biology, Academia Sinica, 26242 Yilan, Taiwan)
[P166(OP3e-6)]Exploring Developmental Stability's Role in the Evolutionary Conservation of Body Plan-establishing Period in Vertebrates.脊椎動物のボディプラン形成期の保存に対する、発生システムの安定性の寄与を検証する
*Yui Uchida1, Shuji Shigenobu2, Hiroyuki Takeda3, Chikara Furusawa1,4, Naoki Irie5 (1. RIKEN BDR, 2. NIBB, 3. Kyoto Sangyo Univ., 4. Univ. of Tokyo, 5. GUAS (Sokendai))
[P167(OP3e-7)]Molecular and anatomical properties of the central serotonergic system in chickenニワトリの中枢セロトニンシステムの分子的および解剖学的特性
*Toshiyuki Fujita1, Naoya Aoki1, Chihiro Mori1, Koichi Homma1, Shinji Yamaguchi1 (1. Teikyo University)
[P168]MeCP2 mutation produces behavior and anatomical defects reminiscent of Rett Syndrome
*Luis Carretero Rodriguez1, Ichiro Masai1 (1. OIST)
[P169#]The role of hif3a during heart regeneration and generation of hif3a knocked-out model in zebrafish
*Man Yee CHEUNG1, Chunmei Jiang1, Donghao Guo1, Hui ZHAO1 (1. The Chinese University of Hong Kong)
[P170#]The Use of Induced Pluripotent Stem Cells for Autosomal Dominant Polycystic Kidney Disease Modeling
*Judy Tieu Mi Tran1,2, Junichi Taniguchi1, Minoru Takasato1,2 (1. Laboratory for Human Organogenesis, RIKEN Center for Biosystems Dynamics Research (BDR), 2. Laboratory of Molecular Cell Biology and Development, Graduate School of Biostudies, Kyoto University)
[P171#]Consequences of aberrant mitosis in different developmental stages in zebrafish embryos異なる発生段階の細胞分裂異常がゼブラフィッシュ胚発生に与える影響
*Akira Matsura1, Kazuya Matsuo2, Tomoya Kotani3, Nobuyuki Tamaoki4, Ryota Uehara1,5 (1. Graduate School of Life Science, Hokkaido University, 2. Faculty of Molecular Chemistry and Engineering, Kyoto Institute of Technology, 3. Department of Biological Sciences, Faculty of Science, Hokkaido University, 4. Research Institute for Electronic Science, Hokkaido University, 5. Faculty of Advanced Life Science, Hokkaido University)
[P172]Developmental defects in zebrafish models of Bloom syndrome and Werner syndrome
*TSZ CHING YIU1, HOI HUNG CHEUNG1 (1. CUHK School of Biomedical Sciences)
[P173]Mesenchymal stem cells suppressed skin and lung inflammation
and fibrosis in topoisomerase I-induced systemic sclerosis associated with lung disease mouse model
*Chen-Chen Le Lee1, Yu-Di Chang1, Shih Tsung Fu1 (1. Department of Microbiology and Immunology, School of Medicine, College of Midicine, China Medical University Taiwan)
[P174]Primate-specific microRNA-1202 regulates dopaminergic neurogenesis by targeting APC2 and modulates WNT/b-catenin signaling pathway in midbrain organoid
*Xiaohang LONG1,2, Hoi Hung Cheung2 (1. Centre for Regenerative Medicine and Health, Hong Kong Institute of Science and Innovation, Chinese Academy of Sciences; , 2. School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong)
[P175(OP6e-1)]Piezo1 mutant zebrafish as a model of idiopathic scoliosis due to abnormal sensing of mechanical force
*Ramli . .1, Toshihiro Aramaki1, Shigeru Kondo1 (1. Graduate School of Frontier Biosciences, Osaka University)
[P176(OP6e-2)]Dysregulation of spliceosomes complex induces retinitis pigmentosa-like characteristics in sf3b4-depleted zebrafish
*Zulvikar Syambani Ulhaq1,2, Keigo Okamoto3, Yukiko Ogino3, William Ka Fai Tse1 (1. Laboratory of Developmental Disorders and Toxicology, Center for Promotion of International Education and Research, Faculty of Agriculture, Kyushu University, Fukuoka, 8190395, Japan, 2. Research Center for Pre-clinical and Clinical Medicine, National Research and Innovation Agency, Republic of Indonesia, Cibinong, 16911, Indonesia., 3. Laboratory of Aquatic Molecular Developmental Biology, Center for Promotion of International Education and Research, Faculty of Agriculture, Kyushu University, Fukuoka, 8190395, Japan)
[P177#]Developmental Analysis of Chick Embryos by the Ex-Ovo Culture.
*Hinako Shindo1, Kie Murai1, Ayuna Ohno1, Hanano Sai1, Kohzy Hiramatsu1, Qi-Long Ying2, Guojun Sheng3, Hiroshi Kagami1 (1. Faculty of Agriculture, Shinshu Univ, 2. Keck School of Medicine, USC, 3. IRCMS, Kumamoto Univ)
[P178]Evaluation of the Embryotoxic and Teratogenic Effects of Decalobanthus peltatus (Buwakan) Leaf Extract on Duck Embryo
*Mylah Dologmandin Villacorte-Tabelin1, Merrah Joy B Subebe1, Melanie Dayon1, Mylene M Uy1, Michael Muhmin Manting1, Jaime Q Guihawan1, Aki Murashima4, Akiko Omori3, Ahmad Reza Mazahery2 (1. Mindanao State University-Iligan Institute of Technology, 2. University of the Philippines-Diliman, 3. University of Padova, Italy, 4. Gifu Pharmaceutical University)
[P179]Development of Shin-RamDA-seq: A Stranded High-Sensitivity Method for Single-Cell Full-Length Total RNA SequencingShin-RamDA-seq法の開発:ストランド情報を持った高感度な1細胞完全長トータルRNAシーケンス法
*Mariko Kuse1, Mika Yoshimura1, Tetsutaro Hayashi1, Itoshi Nikaido1,2 (1. RIKEN BDR, 2. Tokyo Medical and Dental Univ.)
[P180]Genetic analysis of the mechanisms of developmental speed in C. elegans線虫C. elegansの発生速度制御メカニズムの遺伝学的解析
*Kaho Ieda1, Kotaro Kimura1 (1. Nagoya City University)
[P181]Virtue is in the “e-gill-ibrium”: disentangling connections among fate-restricted adult stem cell populations in medaka
*Javier Vazquez Marin1 (1. Centre for Organismal Studies (COS Heidelberg))
[P182#]Generation of patient-based medaka models using conditional knock-down systems and base editors to study glycosylation disorders
*Kaisa Pakari1,2, Joachim Wittbrodt1, Thomas Thumberger1 (1. Centre for Organismal Studies (COS) Heidelberg, 2. Heidelberg International Graduate School of Molecular and Cellular Biology (HBIGS), Heidelberg University)
[P183#]High-throughput assays for identifying genetic contributors to retinal degeneration using highly inbred medaka population
*Risa Suzuki1 (1. Centre for Organismal Studies (COS) )
[P184#]A macrophage-mediated regulation of retinal stem cells is necessary for proper retinal development
*Rashi Agarwal1 (1. Centre for Organismal Studies (COS) )
[P185#]On the origin of genetically patterned tissue sinks to offset tissue collision during embryonic morphogenesis in flies
*Verena Kaul1 (1. Centre for Organismal Studies (COS) )
[P186#]Elevated temperature fatally disrupts the distribution of cortical nuclei in the early Drosophila embryo.
*Girish Kale1 (1. Centre for Organismal Studies (COS) )
[P188#]A Drosophila model for TMEM43-induced human cardiomyopathies
*Kai Jürgens1 (1. Zoology/Developmental Biology of the University of Osnabrueck)
[P189#]Cell and gene regulatory network profiling of critical bone fractures in axolotl
*Anastasia Polikarpova1 (1. Insitute of Molecular Pathology)
[P190#]Molecular fingerprinting sea anemones and jellyfish: a transcriptomic approach to characterize Cnidarian cell types
*Alison G. Cole1 (1. University of Vienna)
[P191(OP6j-7)]Developmental toxicity test using human iPS cells based on chemical-induced signal disruption dynamics化学物質によるシグナル伝達かく乱作用の動的変化を基にしたヒトiPS細胞を用いた発生毒性試験法
*Yusuke Okubo1, Kashu Mizota1,2, Mitsuaki Shibata1, Yoko Hirabayashi1, Yoshihiro Nakajima3, Junji Fukuda2 (1. National Institute of Health Sciences, 2. Yokohama National University, 3. National Institute of Advanced Industrial Science and Technology)
[P192(OP6j-8)]SSBD:repository/SSBD:database: A global sharing of bioimaging dataSSBD:repository/SSBD:database: バイオイメージングデータのグローバルな共有
*Koji Kyoda1, Hiroya Itoga1, Fangfang Wang1,2, Haruna Yamamoto1, Miguel Miranda-Miranda1, Yuki Yamagata2,3, Yukako Tohsato1,4, Shuichi Onami1,2 (1. RIKEN BDR, 2. RIKEN R-IH, 3. RIKEN BRC, 4. Ritsumeikan University)
[P193(OP3e-1)]A gut ceramidase activity determines the species- and strain-specific aging speed.
*Ayami Takaochi1, Kota Abe1, Tohru Ishitani1 (1. Osaka Univ. RIMD.)
[P194(OP6e-4)]A reverse genetic approach in geckos with the CRISPR/Cas9 system by oocyte microinjection
*Takaya Abe1, Mari Kaneko1, Hiroshi Kiyonari1 (1. Laboratory for Animal Resources and Genetic Engineering, RIKEN Center for Biosystems Dynamics Research)
[P195(OP6e-5)]Sex-dependent regulation of vertebrate somatic growth and aging by germ cells
*Kota Abe1, Tohru Ishitani1 (1. Dept. of Homeostatic regulation, RIMD, Osaka Univ.)
[P196(OP4e-2)]Reconstructing limb morphogenesis in 3D culture derived from mouse embryonic limb bud and human ES cellsマウス肢芽細胞およびヒト肢芽様細胞の三次元培養による四肢形態形成のin vitro再構成
*Rio Tsutsumi1, Mototsugu Eiraku2 (1. Kyoto University, Institute for the Advanced Study of Human Biology, 2. Kyoto University, Institute for Life And Medical Sciences)
[P197#]TET activity propagates cellular memory through embryonic dormancy
*Maximilian Stötzel1 (1. Max-Planck-Institute for Molecular Genetics)
[P198(OP4e-6)]Spatio-temporal remodeling of extracellular matrix orients epithelial sheet folding細胞外マトリックスの時空間制御による上皮組織形態形成機構の解明
*Alice Tsuboi1, Koichi Fujimoto2, Takefumi Kondo1,3 (1. Kyoto University, 2. Osaka University, 3. RIKEN Center for Biosystems Dynamics Research (BDR))
[P199(OP6e-3)]Human disease models by advanced genome editing
*Thomas Thumberger1, Kaisa Pakari1, Tinatini Tavhelidse-Suck1, Jose-Arturo Gutierrez-Triana1, Juan Luis Mateo2, Sevinç Gücüm1, Alex Cornean1, Joachim Wittbrodt1 (1. Centre for Organismal Studies, Heidelberg University, Germany, 2. Deparment of Computer Science, University of Oviedo, Spain)