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Schedule and Program

Tentative Schedule

May 10 (Wed)
9:00-11:0011:30〜12:3013:00〜15:0015:15〜17:1517:30〜19:30
Room A
Room B
Room COral Presentation 01
Differentiation and Theoretical biology, Modeling, Imaging
Luncheon
Wiley
(in Japanese)
Oral Presentation 04
Developmental Physiology & Mechanobiology and Environment, Nutrition, Metabolism
Symposium 01
Early patterning
Room DOral Presentation 02
Neural Development
Workshop 01
Central Nervous System in Invertebrates: How Its Structure and Function Appeared and Evolved
Symposium 02
Regeneration & Metamorphosis
Room EOral Presentation 03
Patternning, Organogenesis 1
Oral Presentation 05
Early development and Regeneration, Metamorphosis and Patternnng, Organogenesis 2
Symposium 03
Evo Devo
Room FDay Zero Session
Satellite Workshop
(in Japanese)
Oral Presentation 06
Patternnng, Organogenesis 3
Symposium 04
Technology (genome editing, big data)
Poster RoomPoster MountingPostersPoster Discussion 1Posters
Exhibition (Equipment & Books) & Rest Room
May 11 (Thu)
    9:00-11:00    11:30〜12:3013:00〜15:0015:15〜17:1517:30〜18:0018:00〜18:3018:30〜20:30
Room APlenary Lecture
Prof. Anne Ephrussi
&
Prof. Patrick Tam
Room B
Room CLuncheon
Gender-equal society
(in Japanese)
Oral Presentation 07
Technology (genome editing, bioinfomatics, big data) and Fertilization, gametogenesis, reproduction
General Assembly
(in Japanese)
Travel Fellowship for Dr. Tokindo Okada Awards10年目の見直し
(in Japanese)
Room DWorkshop 02
Gene Regulatory Network in Development and Evolution
Room EOral Presentation 08
Stem cell, Germ cell
Room FOral Presentation 09
Epigenetics, Genomics (comparative genomics) and Evolution (EcoEvoDevo, EvoDevo)
Poster RoomPostersPoster Discussion 2Posters
Exhibition (Equipment & Books) & Rest Room
May 12 (Fri)
9:00-11:0011:30〜12:3013:00〜15:0015:30〜17:3018:00〜20:00
Room APlenary Lecture
Prof. Eddy De Robertis
&
Prof. Lewis Wolpert
Room B
Room CSymposium 05
Environment, Nutrition
Luncheon
Carl Zeiss Microscopy Co., Ltd.
Symposium 09
Stem Cell
Reception
Room DSymposium 06
Theory & Modeling (imaging)
Symposium 10
Germ Cell
Room ESymposium 07
Organogenesis
Symposium 11
Developmental Signals
Room FSymposium 08
Neurogenesis
Symposium 12
Fertilization
Poster RoomPoster Removal
Exhibition (Equipment & Books)
& Rest Room
May 13 (Sat)
9:00-16:00
National Museum of Nature and SciencePublic Events

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Tentative Program

Plenary Lectures
Prof. Lewis Wolpert (University College London, UK)
Prof. Eddy De Robertis (University of California, Los Angeles, USA)
Prof. Patrick Tam (University of Sydney, Australia)
Prof. Anne Ephrussi (EMBL, Germany)
Symposia
Symposium 01:Early patterning
Chairpersons:Masahiko Hibi (Nagoya Univ.)
Toshihiko Fujimori (NIBB)
Speakers:Keiji Nakajima (NAIST)
Hiroki Nishida (Osaka Univ.)
Yasuko Akiyama (JT BRH)
Hisato Kondoh (Kyoto SU)
Isao Matsuo (Osaka Med. Cen. and Res. Inst. for Mate. and Child Health)
Symposium 02:Regeneration & Metamorphosis & Reprogramming
Chairpersons:Toshinori Hayashi (Tottori Univ.)
Kenichi Suzuki (Hiroshima Univ.)
Speakers:Keiko Sugimoto (RIKEN)
Kei Miyamoto (Kindai Univ)
Yasunori Sasakura (Tsukuba Univ.)
Toshinori Hayashi (Tottori Univ.)
Ken-ichi T Suzuki (Hiroshima Univ.)
Kenneth D Poss (Duke Univ., USA)
Symposium 03:Evo Devo
Chairpersons:Hirokazu Tsukaya (Univ. of Tokyo)
Naoki Irie (Univ. of Tokyo)
Speakers:Yuval Eshed (Weizmann Inst. of Sci., ISRAEL )
Emmanuel Farge (Institut Curie, FRANCE)
Shigeru Kuratani (RIKEN)
Naoki Irie (Univ. of Tokyo)
Noriyuki Sato (OIST)
Symposium 04:Technology (genome editing, big data)
Chairpersons:Atsuo Kawahara (Yamanashi Univ.)
Shuichi Onami (RIKEN Qbic)
Speakers:Takayuki Kohchi (Kyoto Univ.)
Takashi Fukaya (Princeton Univ., USA)
Takashi Yamamoto (Hiroshima Univ.)
Shuichi Onami (RIKEN Qbic)
Nozomu Yachie (Univ. of Tokyo)
Symposium 05:Environment, Nutrition
Chairperson:Masayuki Miura (Univ. of Tokyo)
Speakers:Goro Horiguchi (Rikkyo Univ.)
Masamitsu Fukuyama (Univ. of Tokyo)
Yoshifumi Yamaguchi (Univ. of Tokyo)
Shunsuke Ishii (RIKEN)
Yukako Hattori (Kyoto Univ.)
Symposium 06:Theory & Modeling (imaging)
Chairpersons:Yasuhiro Inoue (Kyoto Univ.)
Erina Kuranaga (Tohoku Univ.)
Speakers:Atsushi Mochizuki (RIKEN)
Edouard Hannezo(Univ. of Cambridge, UK)
Hidehiko Inomata (RIKEN CDB)
Kazuhiro Aoki (NIBB)
Symposium 07:Organogenesis
Chairpersons:Yosuke Mukoyama (NIH-NHLBI, USA)
Jun Takeuchi (Univ. of Tokyo)
Mitsuru Morimoto (RIKEN CDB)
Speakers:Yoshiko Takahashi(Kyoto U)
Yosuke Mukoyama(NIH)
Toshiro Ito (NAIST)
Minoru Takasato (RIKEN CDB)
Mitsuru Morimoto (RIKEN CDB)
Jun Takeuchi(TMDU)
Symposium 08:Neurogenesis
Chairpersons:Kenji Shimamura (Kumamoto Univ.)
Takeshi Imai (RIKEN CDB)
Speakers:Ryoichiro Kageyama (Kyoto Univ.)
Jun Hatakeyama (Kumamoto Univ.)
Takaki Miyata (Nagoya Univ.)
Makoto Sato (Kanazawa Univ.)
Takeshi Imai (RIKEN CDB)
Symposium 09:Stem Cell
Chairpersons:Kunimasa Ohta (Kumamoto Univ.)
Shoen Kume (Tokyo Inst. of Tech.)
Speakers:Kyoko Ito (Univ. of Tokyo)
Yuval Dor(The Hebrew Univ. ISRAEL)
Kunimasa Ohta (Kumamoto Univ.)
Tomomi Tsubouchi (NIBB)
Tomohiko Akiyama (Keio Univ.)
Nobuaki Shiraki (Tokyo Inst. of Tech.)
Symposium 10:Germ Cell
Chairpersons:Satoru Kobayashi (Univ. of Tsukuba)
Katsuhiko Hayashi (Kyushu Univ.)
Speakers:Takashi Araki (Kyoto Univ.)
Teruyuki Niimi (NIBB)
Satoru Kobayashi (Univ. of Tsukuba)
Katsuhiko Hayashi (Kyushu Univ.)
Shosei Yoshida (NIBB)
Symposium 11:Developmental Signals (Differentiation)
Chairpersons:Hitoshi Sawa (NIG)
Tohru Ishitani (Kyushu Univ.)
Speakers:Kensuke Kawade (NIBB)
Masaki Arata (Kyoto Univ.)
Tristan A. Rodríguez (Imperial College London, UK)
Hiromi Shimojo (Kyoto Univ.)
Tatsushi Igaki (Kyoto Univ.)
Tohru Ishitani (Kyushu Univ.)
Symposium 12:Fertilization
Chairpersons:Hitoshi Sawada (Nagoya Univ.)
Tetsuya Higashiyama (Nagoya Univ.)
Speakers:Tetsuya Higashiyama (Nagoya Univ.)
Tomohiro Sasanami (Shizuoka Univ.)
Tomoko Igawa (Chiba Univ.)
Kang Woojin (Univ. of Tsukuba)
Naokazu Inoue (Fukushima Med. Univ.)
Workshops
Workshop 01:Central Nervous System in Invertebrates: How Its Structure and Function Appeared and Evolved
Chairperson:Hiroshi Shimizu (KAUST)
Speakers:Hiroshi Shimizu (KAUST)
Osamu Koizumi (Fukuoka Women's Univ.)
Kiyokazu Agata (Gakushuin Univ.)
Shunsuke Yaguchi (Univ. of Tsukuba)
Takeshi Awasaki (Kyorin Univ.)
Workshop 02:Gene Regulatory Network in Development and Evolution
Chairpersons:Masanori Taira (Univ. of Tokyo)
Ken W.Y. Cho (UC, Irvine)
Speakers:Masanori Taira (Univ. of Tokyo)
Cho Ken (Univ. of California)
Ichihashi Yasunori (RIKEN CSRS)
Mortazavi Ali (Univ. of California)
Yutaka Sato (Kyoto Univ.)
Oral Presentations (in English)
Oral Presentation 01:Differentiation and Theoretical biology, Modeling, Imaging
Oral Presentation 02:Neural Development
Oral Presentation 03:Patternning, Organogenesis 1
Oral Presentation 04:Developmental Physiology & Mechanobiology and Environment, Nutrition, Metabolism
Oral Presentation 05:Early development and Regeneration, Metamorphosis and Patternnng, Organogenesis 2
Oral Presentation 06:Patternnng, Organogenesis 3
Oral Presentation 07:Technology (genome editing, bioinfomatics, big data) and Fertilization, gametogenesis, reproduction
Oral Presentation 08:Stem cell, Germ cell
Oral Presentation 09:Epigenetics, Genomics (comparative genomics) and Evolution (EcoEvoDevo, EvoDevo)
Day Zero Session
Day Zero Session 1:Satellite Workshop (in Japanese)

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Plenary Lectures

DATE: May 11 (Thu) 9:00〜11:00 Room A
Plenary Lecture 1
Chairpersons: Akira Nakamura (Kumamoto Univ.)
Toshihiko Fujimori (NIBB)

PL1-1:
9:00-10:00 
RNP Assembly for Intracellular transport in the Drosophila oocyte
Ephrussi Anne (Developmental Biology Unit, European Molecular Biology Laboratory)

PL1-2:
10:00-11:00 
The blueprint of mouse development: Regionalization of cell Fates and molecular network activity for tissue patterning and morphogenesis
Tam Patrick (Embryology Unit, Children’s Medical Research Institute and School of Medical Sciences, Sydney Medical School, University of Sydney)

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DATE: May 12 (Fri) 15:30〜17:30 Room A
Plenary Lecture 2
Chairpersons: Hidehiko Inomata (RIKEN CDB)
Naoto Ueno (NIBB)

PL2-1:
15:30-16:30 
Self-organizing morphogen gradients in Xenopus
De Robertis Eddy (HHMI/UCLA)

PL2-2:
16:30-17:30 
Pattern Formation and Positional Information
Wolpert Lewis (Cell and Developmental Biology, University College London)

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Symposia

DATE: May 10 (Wed) 17:30〜19:30 Room C
Symposium 01: Early patterning
Chairpersons: Masahiko Hibi (Nagoya Univ.)
Toshihiko Fujimori (NIBB)


★A brief introduction:During development of animals and plants, the most drastic events occur at the beginning of embryogenesis. It is believed that part of body axis formation starts during oogenesis in some species. Various morphogen signals and transcriptional/post-transcriptional modules are involved in formation of embryonic axis, tissue patterning, and organ polarity. Signaling centers (organizers) have been though to play critical roles in these processes. In this symposium, we invite scientists who challenge old dogmas in this field. The speakers will present new findings and discuss novel mechanisms that control the early developmental processes.

S01-1:
17:36-17:57 
Eccentric position of the germinal vesicle and cortical flow during oocyte maturation specify the animal-vegetal axis of ascidian embryos
卵母細胞内での卵核胞の偏りと卵成熟時の表層細胞質の流れによってホヤ胚の動植軸が決定される

Hiroki Nishida (Dept. of Biol. Sci., Osaka Univ.)

S01-2:
17:58-18:19 
A Hedgehog signaling network regulates the initiation of segmental oscillations in the early spider embryo
クモ初期胚でヘッジホッグシグナルネットワークは体節形成の遺伝子発現振動の開始を制御する

Yasuko Akiyama-Oda (JT Biohistory Res. Hall, Osaka Medical College)

S01-3:
18:20-18:41 
Interplay between transcriptional and post-transcriptional regulatory modules in the pattern formation of Arabidopsis embryos
シロイヌナズナの胚パターン形成における転写制御と転写後制御の相互作用

Keiji Nakajima (Grad. Sch. Biol. Sci., NAIST)

S01-4:
18:42-19:03 
Embryonic region-dependent development and interactions of grafted Hensen’s node with host tissues: reconsideration of the organizer model
宿主胚領域に依存した、ヘンゼン結節移植片の自己発生と宿主組織との相互作用

Hisato Kondoh (Kyoto SU)

S01-5:
19:04-19:25 
Surface ectoderm specification of uncommitted ectodermal progenitors in the neural plate border is crucial for neural tube closure
神経板境界における未分化外胚葉の表皮化は、神経管閉鎖に必須である

Isao Matsuo (Osaka Medical Center and Research Institute for Maternal and Child Health)

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DATE: May 10 (Wed) 17:30〜19:30 Room D
Symposium 02: Regeneration & Metamorphosis & Reprogramming
Chairpersons: Toshinori Hayashi (Tottori Univ.)
Kenichi Suzuki (Hiroshima Univ.)


★A brief introduction:The aim of this symposium is to elucidate the mechanisms of regeneration, metamorphosis, and reprogramming at the cellular and molecular levels. Regeneration and reprogramming involve massive cell dedifferentiation and proliferation accompanied by genome-wide changes in epigenetic modifications. Metamorphosis is regulated by unique intrinsic mechanisms and extrinsic stimuli. We will here introduce six interesting researches in various organisms. We hope that this symposium will provide an opportunity to consider the future directions of this research area in developmental biology.

★Co-organized by:Development, Growth & Differentiation

S02-1:
17:30-17:50 
The neuronal mechanisms that coordinate metamorphic events of ascidian
ホヤの変態イベントを協調させる制御メカニズム

Yasunori Sasakura (Shimoda Marine Res. Center, Univ. Tsukuba)

S02-2:
17:50-18:10 
Molecular basis of organ remodeling during amphibian metamorphosis
両生類メタモルフォーゼの分子基盤

Ken-Ichi Suzuki (Hiroshima University)

S02-3:
18:10-18:30 
Epigenetic control of plant cell reprogramming
植物の細胞リプログラミングを制御するエピジェネティックな仕組み

Keiko Sugimoto (RIKEN CSRS)

S02-4:
18:30-18:45 
Efficient nuclear reprogramming of somatic cells towards totipotency is supported by synergistic effects of small molecules
体細胞核の全能性獲得に向けた初期化は低分子物質の相乗効果によって促進される

Kei Miyamoto (BOST, Kindai University, Gurdon Institute, University of Cambridge)

S02-5:
18:45-19:00 
Study of cardiac regeneration using new model newt Pleurodeles waltl
新しいモデルイモリによる心臓再生機構の研究

Toshinori Hayashi (Tottori University)

S02-6:
19:00-19:30 
Resolving Heart Regeneration by Replacement Histone Profiling
Kenneth Poss (Duke University Medical Center)

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DATE: May 10 (Wed) 17:30〜19:30 Room E
Symposium 03: Evo Devo
Chairpersons: Hirokazu Tsukaya (Univ. of Tokyo)
Naoki Irie (Univ. of Tokyo)


★A brief introduction:What are the biggest questions in the filed of Evolutionary Developmental Biology? The aim of this symposium is to share and discuss over insights obtained from researches against deeply embedded problems, and newly emerged questions in the field of animal and plant evolution.

★Co-organized by:Multidimensional Exploration of Logics of Plant Development (MEXT), Universal Biology Institute, University of Tokyo

S03-1:
17:30-17:55 
What are the potential mechanisms that made vertebrates' body plan conserved?
脊椎動物のボディプランを保存させた仕組みは何か?

Naoki Irie (Univ. of Tokyo)

S03-2:
17:55-18:20 
The broad development potentials of plant meristems
Yuval Eshed (Dept. of Plant and Environmental Sciences, Weizmann Institute of Science)

S03-3:
18:20-18:45 
Mechanosensitivity of junctional beta-catenin :
from mesoderm mechanotransductive evolutionary origins
to tumorigenic mechanical induction

Emmanuel Farge (INSERM & PCC, Institut Curie Paris)

S03-4:
18:45-19:10 
Does the ontogeny recapitulate phylogeny?
個体発生は系統発生を繰り返すのか?

Shigeru Kuratani (RIKEN)

S03-5:
19:10-19:30 
A note on chordate origins and evolution
脊索動物の起源と進化に関する一考察

Noriyuki Satoh (OIST)

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DATE: May 10 (Wed) 17:30〜19:30 Room F
Symposium 04: Technology (genome editing, big data)
Chairpersons: Atsuo Kawahara (Yamanashi Univ.)
Shuichi Onami (RIKEN Qbic)


★A brief introduction:Recent innovations of new technologies, such as genome editing, big data analysis and bioinformatics, contribute to uncover essentials of biological phenomena in various model organisms. In this symposium, we will provide frontier researches revealed by new technologies in developmental biology.

S04-1:
17:33-17:53 
Data-driven modeling of embryogenesis enabled by bioimage informatics
バイオイメージ・インフォマティクスが可能にする胚発生のデータ駆動モデリング

Shuichi Onami (RIKEN QBiC)

S04-2:
17:53-18:13 
Genome editing in cultured cells and organisms
培養細胞や個体でのゲノム編集

Takashi Yamamoto (Dept. of Math. and Sci., Hiroshima Univ.)

S04-3:
18:13-18:33 
Marchantia polymorpha:a next-generation model for comparative developmental biology with a powerful platform of genome editing
ゼニゴケ:ゲノム編集を活用した比較発生生物学の次世代モデル

Takayuki Kohchi (GSB, Kyoto Univ.)

S04-4:
(P185)

18:33-18:48 
In vivo targeted single-base editing in zebrafish
ゼブラフィッシュ生体内における標的化塩基の編集

Shingo Tanaka (Graduate school of Biostudies, Kyoto Univ.)

S04-5:
18:48-19:08 
Visualization of transcription dynamics in living Drosophila embryos
ショウジョウバエ初期胚における転写ダイナミクスの可視化

Takashi Fukaya (LSI, Princeton Univ)

S04-6:
19:08-19:28 
DNA barcode technologies for high-throughput measurements of molecular and cellular dynamcis
分子・細胞動態計測を加速するDNAバーコード技術

Nozomu Yachie (RCAST, Univ. Tokyo)

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DATE: May 10 (Wed) 17:30〜19:30 Room F
Symposium 05: Environment, Nutrition
Chairperson: Masayuki Miura (Univ. of Tokyo)


★A brief introduction:Development is a robust biological process, however the organismal response to environment and nutrition status has been much paid attention to development. In this symposium, recent progress of molecular control of organismal responses including metabolic, biosynthetic and epigenetic regulation for development will be presented and discussed.

S05-1:
9:00-9:24 
Dietary nutrients and genes that regulate reactivation of quiescent progenitor cells in C. elegans
C. elegansにおいて静止期前駆細胞の活性化を制御する食餌中の栄養分子と遺伝子の解明

Masamitsu Fukuyama (Dept. of Physiological Chem, Grad. Sch. of Pharmaceutical Sci., Univ. of Tokyo)

S05-2:
9:24-9:48 
How mutations in ribosome-related genes affect leaf adaxial-abaxial patterning in Arabidopsis thaliana
リボソーム関連変異によるシロイヌナズナの葉の向背軸パターニング異常

Gorou Horiguchi (Dept. Life Sci., Coll. Sci., Rikkyo Univ., Res. Cent. Life Sci., Coll. Sci. Rikkyo Univ.)

S05-3:
9:48-10:12 
The molecular basis of distinct responses to nutrient balances between generalist and specialist species
栄養バランス変化に適応し成長する分子機構の解明に向けて

Yukako Hattori (Grad. Sch. Biostudies, Kyoto Univ.)

S05-4:
10:12-10:36 
Rewiring of Embryonic Energy Metabolism During Mouse Chorioallantoic Branching
Yoshifumi Yamaguchi (Dept. Genet. Pharma. The Univ. of Tokyo, AMED-CREST)

S05-5:
10:36-11:00 
Role of ATF2 family of transcription factors in epigenetic changes
induced by environmental factors
環境要因によるエピジェネティック変化におけるATF2ファミリー転写因子の役割

Shunsuke Ishii (RIKEN Tsukuba Inst.)

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DATE: May 12 (Fri) 9:00〜11:00 Room D
Symposium 06: Theory & Modeling (imaging)
Chairpersons: Yasuhiro Inoue (Kyoto Univ.)
Erina Kuranaga (Tohoku Univ.)


★A brief introduction:Bioimaging science has greatly contributed to the advancement of science fields and has already become one of major parts of biology. Theory and modeling bring new innovation for integrated understanding and control of dynamic biological systems. This symposium aims to bring together researchers in the field of theory, modeling and bioimaging. We believe that such a confluence of these fields will be a large source of progress in developmental biology.

★Co-organized by:Grant-in-Aid for Scientific Research on Innovative Areas ― Platforms for Advanced Technologies and Research Resources "Advanced Bioimaging Support (ABiS)

S06-1:
9:02-9:24 
Controlling gene network for cell differentiation based on the structural theory
細胞分化遺伝子ネットワークの構造理論に基づく制御

Atsushi Mochizuki (Theo. Biol. Lab., RIKEN, CREST, JST)

S06-2:
9:24-9:46 
Transmission of cytokinesis forces via E-Cadherin dilution and actomyosin flows
Edouard Hannezo (University of Cambridge)

S06-3:
9:46-10:08 
Extracellular fluid dynamics and morphogenesis
細胞外体液の動態と形態形成

Hidehiko Inomata (CDB)

S06-4:
10:08-10:30 
Propagating wave of ERK activation orients collective cell migration.
ERK活性の細胞間伝搬による細胞集団運動の制御

Kazuhiro Aoki (OIIB, NINS)

S06-5:
10:30-10:45 
Mechanical occupation of the losers’ lost territory by winners drives cell competition
細胞死で空いた領地をめぐる力学的な細胞競合

Alice Tsuboi (Osaka Univ.)

S06-6:
10:45-11:00 
Mathematical Analysis for Dynamical Pattern Selection of Cellular Mosaic in Fish Retina
魚類錐体モザイクにおける動的パターン選択の数理的研究

Noriaki Ogawa (RIKEN iTHES)

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DATE: May 12 (Fri) 9:00〜11:00 Room E
Symposium 07: Organogenesis
Chairpersons: Yosuke Mukoyama (NIH-NHLBI, USA)
Jun Takeuchi (Univ. of Tokyo)
Mitsuru Morimoto (RIKEN CDB)


★A brief introduction:Recent studies in organogenesis have been at the leading edge of Developmental Biology. The symposium “organogenesis” covers a wide variety of scientific investigations using different model organisms, including chick, fish, plant, and mouse. The speakers will overview current progress with their cutting-edge experimental approaches using advanced imaging, gene manipulations, genetic perturbations, and human iPS technology. These independent but thematically interrelated talks provide unique opportunities to advance our understanding of developmental mechanisms in organogenesis.

★Co-organized by:Development, Growth & Differentiation

S07-1:
9:00-9:20 
Growth coordination between external body and internal tissues
Yoshiko Takahashi (Grad. Sch. of Sci., Kyoto Univ.)

S07-2:
9:20-9:40 
Local Hypoxic Responses Trigger Neuro-Vascular Branching in the Skin
Yoh-Suke Mukouyama (National Heart, Lung, and Blood Institute, National Institutes of Health)

S07-3:
9:40-9:50 
Endothelial actin dynamics during blood vessel lumen formation
Li-Kun Phng (RIKEN CDB)

S07-5:
10:00-10:20 
Epigenetic timer to coordinate growth and differentiation in plants
花発生をつかさどるエピジェネティックタイマー機構

Toshiro Ito (NAIST)

S07-6:
10:20-10:40 
Regulating the patterning of human mesoderm during the directed differentiation of pluripotent stem cells.
多能性幹細胞分化におけるヒト中胚葉パターニングの制御

Minoru Takasato (RIKEN CDB)

S07-7:
10:40-11:00 
Alternative cell fate selection and following directed cell migration coordinate epithelial pattern of branching airways
Mitsuru Morimoto (RIKEN CDB)

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DATE: May 12 (Fri) 9:00〜11:00 Room F
Symposium 08: Neurogenesis
Chairpersons: Kenji Shimamura (Kumamoto Univ.)
Takeshi Imai (RIKEN CDB)


★A brief introduction:We introduce five speakers investigating new paradigms in neural development. These researches also employed cutting-edge approaches such as quantitative analyses, mathematical modeling, and optogenetic manipulations. Hopefully, these topics will provide new perspectives and insights not only in neural development but also in a broad range of subjects in developmental biology.

S08-1:
9:05-9:30 
Dynamic transcriptional control of neural stem cells
神経幹細胞のダイナミックな転写制御

Ryoichiro Kageyama (IFLMS, Kyoto Univ.)

S08-2:
9:30-9:55 
Production logistics in neurogenesis: Windkessel-like, elasticity-mediated nuclear migration in crowded neuroepithelia
Takaki Miyata (Anat. & Cell Biol., Nagoya Univ. Grad. Sch. of Med.)

S08-3:
9:55-10:15 
Roles of extrinsic factors in the cortical expansion in primates.
霊長類脳の拡大化における外的因子の役割

Jun Hatakeyama (IMEG, Kumamoto Univ.)

S08-4:
10:15-10:40 
Reaction diffusion, lateral inhibition and noise canceling orchestrate the wave of neural differentiation in the fly brain
ショウジョウバエの脳において反応拡散・側方抑制・ノイズキャンセルの協調作用が神経分化の波を制御する

Makoto Sato (Kanazawa Univ)

S08-5:
10:40-11:00 
Spontaneous activity and formation of discrete connectivity in the olfactory bulb
自発神経活動による嗅球の特異的神経回路形成

Takeshi Imai (RIKEN CDB, Grad Sch Medical Sciences, Kyushu Univ, Grad Sch Biostudies, Kyoto Univ)

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DATE: May 12 (Fri) 13:00〜15:00 Room C
Symposium 09: Stem Cell
Chairpersons: Kunimasa Ohta (Kumamoto Univ.)
Shoen Kume (Tokyo Inst. of Tech.)


★A brief introduction:Although the irreversibility of cell fates in terminally differentiated somatic cells has been believed long time, the transformation of somatic cells into pluripotent stem cells can be achieved by the nuclear transplantation and the forcible expression of defined transcriptional factors. In this Symposium 9, we will show the surprising developmental plasticity in cells by the intrinsic and extrinsic materials/factors and introduce a new avenue how cells acquire stemness and cell fates by cell-cell and environmental communications.

★Co-organized by:Development, Growth & Differentiation

S09-1:
13:00-13:18 
A bHLH complex regulates plant vascular stem cell proliferation in root apical meristem
bHLH転写因子複合体による維管束幹細胞の分裂制御

Kyoko Ohashi-Ito (Dept. Biol. Sci., Grad, Sch. Sci., The Univ. Tokyo)

S09-2:
13:18-13:36 
Ribosome incorporation into somatic cells promotes reprogramming towards multipotent cells
体細胞がリボソームを取り込むとリプログラミングが誘導され多能性を獲得する

Kunimasa Ohta (Dept.of Dev.Neurobiol., Kumamoto Univ.Grad.Sch.of Life Scis.)

S09-3:
13:36-13:54 
Genome Maintenance Mechanism in Embryonic Stem Cells
胚性幹細胞(ES細胞)におけるゲノム恒常性維持機構

Tomomi Tsubouchi (NIBB)

S09-4:
13:54-14:12 
Accelerated differentiation of human pluripotent stem cells by ectopic expression of histone demethylase
ヒストン脱メチル化酵素を用いたヒト多能性幹細胞の分化誘導促進

Tomohiko Akiyama (SysMed, Keio Univ. Sch. Med.)

S09-5:
14:12-14:30 
Amino acids regulate pancreatic differentiation of human pluripotent stem cells
アミノ酸はヒト多能性幹細胞の膵臓分化を制御する

Nobuaki Shiraki (Sch Life Sci Tech, TITEC)

S09-6:
14:30-15:00 
Non-invasive detection of tissue-specific cell death using methylation patterns of circulating DNA
Yuval Dor (Hebrew Uni. Hadassah Med)

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DATE: May 12 (Fri) 13:00〜15:00 Room D
Symposium 10: Germ Cell
Chairpersons: Satoru Kobayashi (Univ. of Tsukuba)
Katsuhiko Hayashi (Kyushu Univ.)


★A brief introduction:Sustainable production of germ cells is a fundamental event for perpetuating the species. The manner of germ cell production is apparently diverse between plants, invertebrate and vertebrate. The diversity is seemingly consequences of adaptation to the environment and competition within the species. Current studies, however, disclose molecules and/or phenocopies commonly observed across the diverged species, inspiring us to consider a possibility of a conserved mechanism underlying germ cell production. In this symposium, we would like to take a closer look at how to ensure the robustness of germ cell production in the representative species, which would provide a good opportunity to consider the conserved mechanism of germ cell development.

★Co-organized by:Grant-in-Aid for Scientific Research on Innovative Areas: Mechanisms Regulating Gemte Formation in Animals (KAKENHI #25114001)

S10-1:
13:05-13:28 
Molecular mechanisms regulating germline formation in Drosophila
ショウジョウバエにおける生殖系列形成機構

Satoru Kobayashi (TARA, Univ. of Tsukuba)

S10-2:
13:28-13:51 
Sex-lethal homologues in the silkworm Bombyx mori: insight into a novel function in a unique sperm dimorphism
カイコSex-lethal:ユニークな精子二形性における新奇機能の洞察

Teruyuki Niimi (NIBB)

S10-3:
13:51-14:14 
Male germline and gamete development in a basal land plant Marchantia polymorpha
基部陸上植物ゼニゴケにおける雄性生殖系列と雄性配偶子の発生

Takashi Araki (Grad. Sch. Biostudies, Kyoto Univ.)

S10-4:
14:14-14:37 
Stem cell dynamics and its regulation underlying the persistent mouse spermatogenesis
Shosei Yoshida (Div. Germ Cell Biol., Natl. Inst. Basic Biol., Natl. Inst. Natural Sci.)

S10-5:
14:37-15:00 
Molecular mechanisms underlying differentiation from primordial germ cells to oocytes
マウス始原生殖細胞から卵母細胞への分化メカニズムの解明〜体内と体外培養から〜

Katsuhiko Hayashi (Division of developmental stem cell biology, DFaculty of Medical Sciences, Kyushu University)

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DATE: May 12 (Fri) 13:00〜15:00 Room E
Symposium 11: Developmental Signals (Differentiation)
Chairpersons: Hitoshi Sawa (NIG)
Tohru Ishitani (Kyushu Univ.)


★A brief introduction:To carry out certain tissue morphogenesis and homeostasis, cells must communicate each other. Through cell-cell communication, individual cells sense various information, including their fate to choose, their location in tissue, and their environmental fitness, and consequently behave collectively. During the last three decades, genetic studies using model animals have made clear that such cell-cell communication is mediated by a variety of molecular systems, such as Delta-Notch system, cadherin-based cell adhesion, and morphogen signaling. In addition, recent integrative studies using live-imaging, mathematical model, and molecular genetics also revealed new modes of cell-cell communication and their critical roles in animal and plant tissue morphogenesis and homeostasis. This symposium will provide a good opportunity to share the recent exciting studies and to discuss the future directions in this field.

★Co-organized by:Cell Competition, Grant-in-Aid for Scientific Research on Innovative Areas, MEXT, Japan

S11-1:
13:02-13:21 
Ultradian oscillations of Notch signaling in cell-cell interactions regulate dynamic gene expression networks and tissue morphogenesis
隣接細胞間における動的なNotchシグナル伝達によって制御される形態形成

Hiromi Shimojo (iCeMS, Kyoto Univ., Institute for Frontier Life and Medical Sciences, Kyoto University)

S11-2:
13:21-13:40 
The Difference in the amounts of the atypical cadherin Dachsous between migrating cells coordinates the direction of collective cell migration
移動する細胞間の非典型的カドヘリン Dachsous の量差が細胞集団の一方向的な移動を導く

Masaki Arata (Grad. Sch. Bio., Kyoto Univ.)

S11-3:
13:40-13:59 
Biased diffusivity shapes ANGUSTIFOLIA3 signaling gradient in growing leaf tissue
不均一な拡散性が葉原基におけるANGUSTIFOLIA3シグナルの発現勾配を形づくる

Kensuke Kawade (OIIB)

S11-4:
13:59-14:20 
Role of cell competition in the regulation of cell fitness and the shaping of growth during early embryonic development
Tristan Rodriguez (NHLI, Imperial College London)

S11-5:
14:20-14:39 
Epithelial cell turnover ensures correct coordination of growth in Drosophila
細胞ターンオーバーによる組織成長制御の遺伝学的解析

Tatsushi Igaki (Grad Sch of Biostudies, Kyoto Univ.)

S11-6:
14:39-14:58 
Apoptosis-mediated elimination of "Wnt/β-catenin signaling noise" supports precise embryonic patterning.
アポトーシスを介したWnt/β-cateninシグナルのノイズ除去は、正確な胚パターン形成を支える

Tohru Ishitani (Div. of Cell Reg. Sys., Med. Ins. of Bioreg., Kyushu Univ.)

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DATE: May 12 (Fri) 13:00〜15:00 Room F
Symposium 12: Fertilization
Chairpersons: Hitoshi Sawada (Nagoya Univ.)
Tetsuya Higashiyama (Nagoya Univ.)


★A brief introduction:It has long been believed that sexual reproduction mechanisms are highly diverged among species, even within plants or animals. However, we recently found that the self-sterile mechanism in hermaphroditic ascidians is very similar to the self-incompatibility system in flowering plants. In addition, a sperm protein GCS1, which is essential for gamete fusion in flowering plants, is also present in animals. These findings led us to consider that the reproductive systems,in particular, gamete attaction or fusion, in animals and plants may be much more common than we previously thought. In this symposium, we selected recent topics about animal and plant fertilization and would like to discuss about the reproductive strategies shared by animals and plants.

S12-1:
13:10-10:30 
Mechanism of oviductal sperm storage in birds
鳥類の輸卵管における精子貯蔵の分子機構

Tomohiro Sasanami (Fac Agric, Shizuoka Univ)

S12-2:
13:30-13:50 
Key molecules and in vivo dynamics of pollen tube guidance
花粉管ガイダンスの鍵分子とin vivoダイナミクス

Tetsuya Higashiyama (ITbM, Nagoya Univ)

S12-3:
13:50-14:10 
Reconsideration of mammalian fertilization from microexosomes and sperm factors
Woojin Kang (Department of Reproductive Biology, National Research Institute for Child Health and Development)

S12-4:
14:10-14:30 
Novel insights into the molecular mechanism of sperm-egg fusion via IZUMO1
融合因子IZUMO1を介する新規配偶子融合機構

Naokazu Inoue (Department of Cell Science, Fukushima Medical Univ.)

S12-5:
14:30-14:50 
Fertilization in flowering plants; molecular players controlling interactions between male and female gametes during double fertilization
被子植物の受精;重複受精時の雌雄配偶子相互作用を制御する分子プレーヤー

Tomoko Igawa (Grad. Sch. Hort., Chiba Uviv.)

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Workshops

DATE: May 10 (Wed) 13:00〜15:00 Room D
Workshop 01: Central Nervous System in Invertebrates: How Its Structure and Function Appeared and Evolved
Chairperson: Hiroshi Shimizu (KAUST)


★A brief introduction:In this workshop, scientists who (1) work on nervous system of invertebrates, (2 )have interest in evolution of nervous system, and (3) have strict ideas and thoughts about how the Central Nervous System emerged, developed and evolved make presentations. Finally, general discussion will be made including the audience.


WS1-1:
13:10-13:30 
Origin and evolution of the central nervous system: the nerve ring of cnidarians
中枢神経系の起源と進化:刺胞動物の神経環

Osamu Koizumi (FWU)

WS1-2:
13:30-13:50 
Hydra peduncle nervous system has functional comparable to Central Nervous System (CNS)
ヒドラの柄部神経系は中枢神経系と比肩しうる機能を有している

Hiroshi Shimizu (KAUST)

WS1-3:
13:50-14:10 
planarian provides a new insight into evolution of the brain
nou-darake遺伝子の頭部特異的発現が集中神経系を進化させた?

Kiyokazu Agata (Life Sci. Gakushuin Univ.)

WS1-4:
14:10-14:30 
Neurogenesis in sea urchin development
ウニ発生における神経形成

Shunsuke Yaguchi (SMRC, Univ. Tsukuba)

WS1-5:
14:30-14:50 
Neuroblast-Lineage Dependent Development and Architecture of the Drosophila Central Brain
神経幹細胞系譜依存的なショウジョウバエ脳の構造と発生

Takeshi Awasaki (Kyorin Univ. Sch. Med.)

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DATE: May 11 (Thu) 13:00〜15:00 Room D
Workshop 02: Gene Regulatory Network in Development and Evolution
Chairpersons: Masanori Taira (Univ. of Tokyo)
Ken W.Y. Cho (UC, Irvine)


★A brief introduction:Cell functions can be modified, and cells types can be interconverted, once we understand the mechanisms underlying the regulation of gene regulatory networks (GRNs). The major goal of GRN science is to discover causal explanations in biology. Elucidating the structure and functional logic of GRNs will provide a mechanistic system-level understanding of how information encoded in the genome is executed to control cell fate and cell function in development, stem cells, homeostasis and disease. Therefore, a researcher seeking to understand the mechanistic basis of a particular disease should be encouraged to not only catalog the gene expression differences between diseased and healthy cells, but also understand the GRN underlying these different conditions. We will discuss how researchers are trying to advance GRN science to address this essential, but complex biological question.


WS2-1:  ChIP-seq analysis of transcription factors in the Xenopus gastrula
Xenopus原腸胚における転写因子のChIP-seq解析

Masanori Taira (Dept.of Biol.Scis., Grad.Sch.of Sci., Univ.of Tokyo)

WS2-2:  Evolutionary developmental transcriptomics in plant leaf shape
植物の葉の形における進化発生トランスクリプトーム解析

Yasunori Ichihashi (RIKEN CSRS, JST PRESTO Researcher)

WS2-3:  Gene Regulatory Network Science: Integrating different genomic datatypes to build an endodermal GRN
Ken Cho (Developmental and cell Biology, UC Irvine)

WS2-4:  Functional genomics in the human and mammalian genomes
Ali Mortazavi (Developmental and Cell UC, Irvine)

WS2-5:  Control of the gene regulatory network of the ascidian embryo by experimental manipulation
Yutaka Satou (Dept.of Zool., Grad.Sch.of Sci., Kyoto Univ.)

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Oral Presentations (in English)

DATE: May 10 (Wed) 9:00〜11:00 Room C
Oral presentation 1: Differentiation and Theoretical biology, Modeling, Imaging
Chairpersons: 
(OP01-1〜5)
Atsuko Sehara-Fujisawa (Kyoto Univ.)
Yuji Yokouchi (FMU)

OP01-01:
(P019)

9:00-9:12 
HIF1α Initiates Zebrafish Primitive Erythroid Differentiation by Switching On GATA1a Expression
Bo-An Lin (Dep. Biosci. Biotechnol, Natl. Taiwan Ocean Univ.)

OP01-02:
(P027)

9:12-9:24 
Involvement of Adam19 in the fate decision of cardiac neural crest cells
心臓神経堤の運命決定におけるAdam19の役割

Hiroyuki Arai (IFMS, Kyoto U)

OP01-03:
(P015)

9:24-9:36 
Intrinsic lens potential of neural retina inhibited by Notch signaling as the cause of “lens transdifferentiation”
神経性網膜に内在する水晶体分化能を抑制するNotch シグナル:その破綻が水晶体への「分化転換」をもたらす

Hideaki Iida (DBGSE, Kyoto Sangyo Univ.)

OP01-04:
9:36-9:48 
Development a protocol to differentiate human iPS cells into Thyroidal C-cells
ヒトiPS細胞より甲状腺C細胞を分化させるための手法の開発

Yuji Yokouchi (Dept. Stem Cell Res. FMU)

OP01-05:
(P024)

9:48-10:00 
A novel 3D spheroid culture system for generating functional pancreatic β cells derived from human induced pluripotent stem cells
ヒトiPS細胞を用いた膵臓分化誘導3次元培養系の構築

Zixuan Erinn Sim (Titech Life Science)
Chairpersons: 
(OP01-6〜10)
Kazuhiro Aoki (NIBB)
Koichiro Uriu (Kanazawa Univ.)

OP01-06:
(P187)

10:00-10:12 
Effects of sizes of self-organized patterns composed by vascular endothelial cells on vasculogenesis.
脈管形成において血管内皮細胞が自律的に形成するパターンサイズの影響

Akiko Nakamasu (Grad. Sch. Med. Sci., Kyushu Univ.)

OP01-07:
10:12-10:24 
Modeling autonomous folding of epithelial sheets
Fulai Wen (RIKEN QBiC)

OP01-08:
10:24-10:36 
Fine structural analyses of nuclear body paraspeckle using super-resolution microscope
超解像顕微鏡を用いた核内構造体パラスペックルの微細構造観察

Shinichi Nakagawa (Hokkaido Univ.)

OP01-09:
(P137)

10:36-10:48 
Determination of mechanism for vascular remodeling from endothelial cellular behavior by fluid and solid mechanics
連続体力学を用いて血管リモデリングにおける内皮細胞の振る舞いを理解する

Kenichi Nakazato (Theoretical Biology Laboratory, RIKEN)

OP01-10:
(P193)

10:48-11:00 
Imaging of the kinetics of transcription factors in pluripotent stem cells
幹細胞核内におけるコア転写因子の一分子イメージング

Kazuko Okamto (RIKEN QBiC Comprehensive Bioimaging Laboratory)

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DATE: May 10 (Wed) 9:00〜11:00 Room D
Oral presentation 2: Neural Development
Chairpersons: Hideki Enomoto (Kobe Univ.)
Satoko Hakeda-Suzuki (Tokyo Inst. Tech.)

OP02-01:
9:00-9:12 
Temporal control of cortico-thalamic neuron specification by regulation of Neurogenin activity and Polycomb repressive complexes
皮質視床投射ニューロンの時期特異的な産生は転写因子NeurogeninとPolycomb抑制複合体によって制御される

Koji Oishi (Dept. Anat., Keio Univ. Sch. Med., The Francis Crick Institute)

OP02-02:
9:12-9:24 
Plasticity in Schwann cell precursor-derived neurogenesis
シュワン細胞前駆細胞由来神経形成の可塑性

Hideki Enomoto (Kobe Univ Grad Sch Med)

OP02-03:
9:24-9:36 
Two receptor tyrosine phosphatases dictate the depth of final axonal stabilizing layer in the Drosophila visual system
2種のチロシン脱リン酸化酵素によるショウジョウバエの視神経軸索の最終安定化層の決定機構

Satoko Hakeda-Suzuki (Tokyo Inst. Tech., Grad. Sch. of Life Sci. & Tech.)

OP02-04:
(P089)

9:36-9:48 
Disruption of Tsukushi leads to hydrocephalus by aberrant neurogenesis.
Tsukushiの欠損は神経発生の異常による水頭症を発症させる。

Naofumi Ito (Kumamoto University, Dev. neurobiol.)

OP02-05:
9:48-10:00 
Shh enhances intracellular calcium fluctuation in the neural progenitor cells during mouse cortical development
Jun Motoyama (Grad. School of Brain Science, Doshisha Univ.)

OP02-06:
10:00-10:12 
Different functional mode of Brn factors in temporally coordinated production of neocortical cell diversity
Brn転写因子は2つの異なる作用様式を介して大脳新皮質の細胞多様性を形成する。

Yoshinobu Sugitani (Dept. of Cell Biol., JFCR-Cancer Inst., BSI Riken)

OP02-07:
10:12-10:24 
GLYAT regulates APP-induced Alzheimer’s disease in drosophila
Pu Ren (SLST, Tongji Univ)

OP02-08:
10:24-10:36 
Scrambling movement of tangential neuronal migration in superficial layers of the developing chick optic tectum
ニワトリ胚視蓋浅層での接線方向への神経細胞移動

Yuji Watanabe (Dept. Anatomy, Fac. Medicine, Fukushima Medical Univ.)

OP02-09:
10:36-10:48 
Zebrafish habenula neurogenesis requires ngn1 cell-autonomously
Yung-Shu Kuan (IBS-NTU, IBC-AS, NPAS-AS)

OP02-10:
10:48-11:00 
Ca2+-imaging and photo-manipulation of the simple gut of zebrafish larvae in vivo
ゼブラフィッシュ幼生の単純な腸の生体内カルシウムイメージングと光操作

Kohei Hatta (Life Sci, U of Hyogo)

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DATE: May 10 (Wed) 9:00〜11:00 Room E
Oral presentation 3: Patternning, Organogenesis 1
Chairpersons: Yusuke Watanabe (NCVC)
Rieko Ajima (NIG)

OP03-01:
9:00-9:12 
Numb/NumbL promote cell-cycle withdrawal by transitioning ErbB2 to late endosomes
Numb/NumbLは、ErbB2の早期エンドソームから後期エンドソームへの移行を促進することにより、発生期心臓のtrabeculaeを細胞周期の休止期に導く

Maretoshi Hirai (KMU, Dept of Pharm)

OP03-02:
9:12-9:24 
SELECTIVELY INDUCED URETERIC BUD AND NEPHRON PROGENITORS ASSEMBLE AND RECONSTRUCT SUPERSTRUCTURE OF THE EMBRYONIC KIDNEY
尿管芽とネフロン前駆細胞の選択的誘導・会合法の確立による胎仔腎臓高次構造の再構築

Atsuhiro Taguchi (IMEG, Kumamoto Univ.)

OP03-03:
(P136)

9:24-9:36 
Blood flow and vascular remodeling: analyses of individual endothelial cell behaviors by in vivo live-imaging and mathematical approach
生体内血管リモデリング:ライブイメージングと数理解析からみる血管内皮細胞の挙動と血流の関係

Yuta Takase (Dept. of Zoology, Grad. Sch. of Sci. Kyoto Univ.)

OP03-04:
9:36-9:48 
Lineage segregation of post-implantion mouse embryo revealed by spatial and single cell transcriptome
Guangdun Peng (SIBCB, CAS)

OP03-05:
9:48-10:00 
Modeling the segmentation clock with pluripotent stem cells
Cantas Alev (CiRA, Kyoto University, RIKEN QBiC)

OP03-06:
(P122)

10:00-10:12 
Oriented mesenchymal cells drive tracheal tubulogenesis.
気管の管腔形成における間充織極性化の重要性

Keishi Kishimoto (RIKEN CDB)

OP03-07:
(P112)

10:12-10:24 
How to encounter endothelial cells in deep tissues – mechanical interaction between endothelial cells and epithelial tube
組織深部で血管内皮細胞が出会うためには 〜血管内皮と上皮管の力学的相互作用

Tsuyoshi Hirashima (Inst Front Life Med Sci, Kyoto Univ)

OP03-08:
10:24-10:36 
Quantitative analysis of tissue and cellular dynamics during chick forebrain morphogenesis
ニワトリ前脳発生過程における組織・細胞動態の定量解析

Yoshihiro Morishita (RIKEN QBiC)

OP03-09:
(P129)

10:36-10:48 
Wnt signal is required for proper rearrangement and morphological change of roof plate cells in the formation of median septum of mouse spinal cord
Wntシグナルは脊髄神経管中隔形成に必要である

Takuma Shinozuka (Dept. Basic Biology, SOKENDAI, OIIB)

OP03-10:
10:48-11:00 
Foxa2 and Hif1ab regulate maturation of intestinal goblet cells by modulating agr2 expression in zebrafish embryos
Sheng-Ping Hwang (ICOB, Academia Sinica)

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DATE: May 10 (Wed) 13:00〜15:00 Room C
Oral presentation 4: Developmental Physiology & Mechanobiology and Environment, Nutrition, Metabolism
Chairpersons: Keiko Nonomura (NIBB)
Erina Kuranaga (Tohoku Univ.)

OP04-01:
(P011)

13:00-13:12 
Tension-dependent dynamics of adherens junction components during cell junction oscillation in Drosophila epithelium
上皮組織における細胞間張力のゆらぎと張力依存的な細胞接着分子の応答

Yusuke Hara (MBI, Singapore, TLL, Singapore)

OP04-02:
(P001)

13:12-13:24 
Cadherin-2 mediates spatiotemporal control of actomyosin contractility during zippering and neural tube closure in a simple chordate
ホヤ神経管閉鎖のジッパリングにおけるアクトミオシン収縮はカドヘリンによって時空間的に制御される

Hidehiko Hashimoto (University of Chicago)

OP04-03:
(P005)

13:24-13:36 
Mechanotransducer channel Piezo2 regulates respiration at birth and in the adult
機械刺激受容体チャネルPiezo2は出生時と成体の呼吸を制御する

Keiko Nonomura (NIBB, TSRI)

OP04-04:
13:36-13:48 
Cortical forces and CDC-42 control clustering of PAR proteins for C. elegans embryonic polarization
Fumio Motegi (TLL, MBI, National Univ. of Singapore)

OP04-05:
(P010)

13:48-14:00 
Involvement of cell shape and tension with neural-epidermal ectoderm patterning in Xenopus embryo
ツメガエル胚における、細胞張力と細胞形状の神経−表皮外胚葉パターニングへの関与

Tatsuo Michiue (Grad. School of Arts and Sciences, Univ. Tokyo)

OP04-06:
(P013)

14:00-14:12 
Phosphoproteomic analysis of mechanotransduction during Xenopus embryogenesis
アフリカツメガエル胚発生におけるメカノトランスダクションのリン酸化プロテオーム解析

Noriyuki Kinoshita (Div.of Morphogenesis NIBB)

OP04-07:
(P014)

14:12-14:24 
Collective durotaxis of cranial neural crest cells in Xenopus
アフリカツメガエル頭部神経堤細胞の弾性勾配応答

Sei Kuriyama (Akita University)

OP04-08:
(P055)

14:24-14:36 
Anaerobic glucose metabolism regulates neural tube formation
嫌気的解糖系による神経管閉鎖制御

Daisuke Sakai (Doshisha University)

OP04-09:
(P108)

14:36-14:48 
The role of methionine metabolism during germline development in Drosophila melanogaster.
ショウジョウバエ生殖系列におけるメチオニン代謝の役割

Yoshiki Hayashi (TARA center, Univ. of Tsukuba)

OP04-10:
(P012)

14:48-15:00 
Thyroid hormone coordinates pancreatic islet maturation during the zebrafish larval to juvenile transition to maintain glucose homeostasis
ゼブラフィッシュ膵島成熟化とグルコースホメオスタシスにおける甲状腺ホルモンの役割

Hiroki Matsuda (Tohoku Univ, MPI-BN)

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DATE: May 10 (Wed) 13:00〜15:00 Room E
Oral presentation 5: Early development and Regeneration, Metamorphosis and Patternnng, Organogenesis 2
Chairpersons: 
(OP05-1〜6)
Atsushi Suzuki (Hiroshima Univ.)
Gaku Kumano (Tohoku Univ.)

OP05-01:
13:00-13:12 
Phosphorylation of Otx2 modulates its role in cell proliferation and differentiation in Xenopus eye development
Otx2のリン酸化修飾はXenopusの発生において細胞増殖と分化における役割を調節する

Yumeko Satou (Dept. of Biol.Sci, Grad. Sch. of Sci., Univ. of Tokyo)

OP05-02:
(P050)

13:12-13:24 
Membrane invagination-mediated posterior ciliary positioning is involved in the neurula rotation related to establish left-right asymmetry in ascidian embryo
膜構造を介した後方に偏った繊毛がホヤ左右軸決定に重要な神経胚回転に関わる

Takefumi Negishi (NIBB)

OP05-03:
(P046)

13:24-13:36 
Spatial regulation of Wnt proteins and planar cell polarity in Xenopus early embryogenesis.
アフリカツメガエル初期発生におけるWnt蛋白質の空間的制御と平面細胞極性

Yusuke Mii (NIBB, OIIB, SOKENDAI)

OP05-04:
13:36-13:48 
Asymmetric Distribution of Hypoxia-Inducible Factor α Regulates Dorsal-Ventral Axial Patterning in the Early Embryo of the Sea Urchin Strongylocentrotus purpuratus
Yi-Hsien Su (ICOB, Academia Sinica, Taipei, Taiwan, Graduate Institute of Life Sciences, National Defense Medical Center, Taipei, Taiwan)

OP05-05:
13:48-14:00 
Diaphanous gene determines chirality in snails
ディアファノス遺伝子は巻貝の巻型を決定する

Reiko Kuroda (RIST, Tokyo Univ. Sci., Dept. Life Sci., Tokyo Univ., SORST, JST)

OP05-06:
(P051)

14:00-14:12 
Mesp1 is a canonical Wnt target gene during early mesoderm formation
Mesp1の発現は初期中胚葉形成において古典的Wntシグナルによって制御される

Rieko Ajima (NIG)
Chairperson: 
(OP05-7〜10)
Hitoshi Yokoyama (Hirosaki Univ.)

OP05-07:
(P161)

14:12-14:24 
Scaling of critical weight for metamorphosis in the genus Drosophila
ショウジョウバエ属における変態のための臨界重量のスケーリング

Ken-Ichi Hironaka (Dept. of Biol. Sci., Osaka Univ., RIKEN CDB)

OP05-08:
(P158)

14:24-14:36 
Loss-of-function and rescue analyses of immune T cells involved in Xenopus tail degeneration via Ouro antigens
ツメガエル尾の退縮にOuro抗原タンパク質を介して関わる免疫T細胞の機能阻害実験と回復実験

Haruka Kobayashi (Dept.Biol.,Fac.Sci.,Niigata Univ.)

OP05-09:
14:36-14:48 
Physical control of whole body shape by Obstructor-E, a component of the exoskeletal ECM, in Drosophila melanogaster
ECM分子による物理的な体型制御:ショウジョウバエ外骨格分子Obstructor-Eの機能解析

Reiko Tajiri (Grad. Sch. Frontier Sci., Univ. Tokyo)

OP05-10:
(P109)

14:48-15:00 
Tail reduction process during human embryonic development
ヒト胚発生過程における尾部短縮過程の解明

Sayaka Tojima (Grad. Sch. of Med.,Osaka City Univ.)

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DATE: May 10 (Wed) 13:00〜15:00 Room F
Oral presentation 6: Patternnng, Organogenesis 3
Chairpersons: Takayuki Suzuki (Nagoya Univ.)
Atsuhiro Taguchi (Kumamoto Univ.)

OP06-01:
13:00-13:12 
Multipotency and cell survival governed by Hox genes during branching morphogenesis of the Drosophila airways
Ryo Matsuda (MBW, Stockholm Univ.)

OP06-02:
(P148)

13:12-13:24 
The mechanism about the cell autonomous generation of collagen crystal involved with fin skeletal development.
魚類ヒレ骨形成において機能するコラーゲン結晶の自律的合成メカニズム

Junpei Kuroda (FBS, Osaka univ)

OP06-03:
(P116)

13:24-13:36 
Temporal Control of Tissue Maturation with Proliferation Reduction in developing trachea.
気管発生時にみられる、増殖低下を伴う組織成熟の経時的変化とその制御機構の解明

Hirofumi Kiyokawa (CDB)

OP06-04:
(P128)

13:36-13:48 
The role of diphthamide biosynthesis enzyme DPH1 in mouse cardiac development
Chun-Ming Chen (DLSIGS, National Yang-Ming University)

OP06-05:
13:48-14:00 
Physical modeling of oscillator resynchronization after perturbation of Delta-Notch signaling in zebrafish presomitic mesoderm
Delta-Notchシグナル阻害後のゼブラフィッシュ分節時計再同期過程の数理モデリング

Koichiro Uriu (Graduate School of Natural Science and Technology, Kanazawa University)

OP06-06:
14:00-14:12 
Cardiac looping is caused by asymmetric cell proliferation and chiral cell behavior
初期胚心臓ループは細胞増殖の非対称分布と細胞のキラル行動によって形成される

Hisao Honda (Kobe Univ. Graduate School of Medicine, RIKEN CDB)

OP06-07:
(P120)

14:12-14:24 
Cellular and molecular mechanisms for the establishment of the dorsal and ventral compartments in the teleost somite.
真骨魚類体節の背腹コンパートメント形成における細胞・分子メカニズム

Kota Abe (Laboratory of Embryology, University of Tokyo)

OP06-08:
(P124)

14:24-14:36 
Establishment of polarity of cilia orientation and cell elongation during the mouse oviduct development
マウス卵管の発生における繊毛と細胞伸長の極性形成

Fumiko Usami (Dept. of Basic Biol., School of Life Sci., SOKENDAI, Div. of Embryology, NIBB)

OP06-09:
(P139)

14:36-14:48 
Molecular mechanism to convert the segmentation clock into the segmental pattern of somites in the zebrafish
分節時計によるゼブラフィッシュ体節分節境界形成の制御機構

Taijiro Yabe (NIBB)

OP06-10:
(P111)

14:48-15:00 
Non-muscle Myosin II Deletion in the Developing Kidney Causes Ureter-bladder Misconnection and Apical Extrusion of the Nephric Duct Lineage Epithelia
Fahim Haque (Dept. of Kidney Development, IMEG, Kumamoto Univ.)

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DATE: May 11 (Thu) 13:00〜15:00 Room C
Oral presentation 7: Technology (genome editing, bioinfomatics, big data) and Fertilization, gametogenesis, reproduction
Chairperson: 
(OP07-1〜3)
Yasunori Sasakura (Univ. of Tsukuba)

OP07-01:
(P184)

13:00-13:12 
Regulatory sequence evolution during the fin-to-limb transformation
鰭から四肢への形態変化における遺伝子制御配列の進化

Koh Onimaru (CLST)

OP07-02:
13:12-13:24 
CRISPR/Cas9-mediated eGFP reporter integration into zebrafish genome for functional visualization and disruption of target genes
ゼブラフィッシュにおけるCRISPR/Cas9法を用いたeGFPレポーターの挿入による標的遺伝子の発現可視化と機能破壊

Kiyohito Taimatsu (Univ. of Yamanashi)

OP07-03:
(P183)

13:24-13:36 
Integrative analysis of transcription factor occupancy at tissue-specific enhancers and disease risk loci in non-coding genomic regions
Non-coding ゲノム領域における組織特異的エンハンサーおよび疾患関連 SNP に結合する転写因子の統合的解析

Shinya Oki (Grad. Sch Med. Sci., Kyushu Univ.)
Chairpersons: 
(OP07-4〜10)
Shosei Yoshida (NIBB)
Yoshiyuki Seki (Kwansei-Gakuin Univ.)

OP07-04:
(P086)

13:36-13:48 
Homing efficiency and behavior of mouse seprmatogenic stem cells following transplantation
マウス精子幹細胞のホーミング効率と振舞い

Yoshiaki Nakamura (Div. Germ Cell Biology, NIBB, JSPS research fellow)

OP07-05:
(P087)

13:48-14:00 
Requirement of DDX6-mediated P-body formation in male germ cell development
雄性生殖細胞発生におけるDDX6を介したP-bodyの必要性

Ryuki Shimada (SOKENDAI)

OP07-06:
(P079)

14:00-14:12 
Significance of Cav3.2 and TRPV4 in the adaptation of intracellular signaling for motility regulation to various reproductive environments in amphibian sperm.
両生類精子運動調節の細胞内信号伝達の生殖環境に対する適応におけるCav3.2とTRPV4の重要性

Akihiko Watanabe (Fac. of Sci., Yamagata Univ.)

OP07-07:
(P077)

14:12-14:24 
Testing the possible impact of maternal cells on development, case of the neonatal liver disorder biliary atresia
Flore Castellan (Dept. of Biol. Sciences, University of Tokyo)

OP07-08:
(P080)

14:24-14:36 
Dullard deficiency causes hemorrhage in the adult ovarian follicles.
Dullard欠損は、成体の卵巣濾胞において、出血性嚢胞を引き起こす。

Tadayoshi Hayata (Dept. of Biol. SIg. Reg., Faculty of Med. Univ. of Tsukuba, Dept. of Mol. Pharmacol., Med. Res. Inst., TMDU)

OP07-09:
(P085)

14:36-14:48 
Morphological diversity of seminal receptacles of species among genus Drosophila
ショウジョウバエ属に見られる管状受精嚢の形態的多様性

Tatsuhiko Noguchi (NDMC, Biology)

OP07-10:
(P081)

14:48-15:00 
Induction of spermatogenesis in explanted fetal mouse testis tissues by organ culture method
胎仔マウス精巣を用いた器官培養法による精子形成の誘導

Kazuaki Kojima (Graduate school of medical life science, Yokohama city university)

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DATE: May 11 (Thu) 13:00〜15:00 Room E
Oral presentation 8: Stem cell, Germ cell
Chairpersons: Kunimasa Ohta (Kumamoto Univ.)
Shoen Kume (Tokyo Inst. Tech.)

OP08-01:
(P172)

13:00-13:12 
Six1 and Six4 regulate germ and gonadal somatic progenitor cell formation in mice
転写因子Six1とSix4によるマウス生殖細胞と生殖腺体細胞の前駆細胞形成の制御機構について

Satomi Tanaka (Kumamoto Health Sci. Univ.)

OP08-02:
(P179)

13:12-13:24 
Hdac3 recruitment on somatic developmental genes by Blimp1 and their repression is essential for mouse primordial germ cell fate determination.
Blimp1によるHdac3の体細胞発生遺伝子群へのリクルートメントとそれらの発現抑制は、マウス始原生殖細胞の運命決定に必須である。

Kentaro Mochizuki (IDAC, Tohoku Univ., AMED-CREST)

OP08-03:
13:24-13:36 
The transcription factor BONOBO controls sexual organ development in the basal land plant Marchantia polymorpha
基部陸上植物ゼニゴケにおいて転写因子BONOBOは生殖器官形成を統御する

Shohei Yamaoka (Grad. Sch. Biostudies, Kyoto Univ,)

OP08-04:
(P167)

13:36-13:48 
Post-transcriptional suppression of Dazl in follicular oocytes plays a crucial role in pre-implantation embryonic development
卵胞におけるDazl転写後抑制は着床前胚の発生において重要な役割を持つ

Kurumi Fukuda (Lab. of mammdev, Dept. of genet, Div.Sci. of life sci ,SOKENDAI)

OP08-05:
13:48-14:00 
Inhibition of apoptosis overcomes stage-related compatibility barriers to chimera formation
細胞死阻害を利用した異なる発生段階の細胞によるキメラ形成

Hideki Masaki (IMSUT, Tokyo Univ.)

OP08-06:
(P178)

14:00-14:12 
Regulatory mechanism of retinal cell differentiation from ocular tissue stem cells
トリ虹彩のユニークな組織幹細胞と網膜分化の調節機構

Masasuke Araki (Dept of Biol., Nara Med. Univ.)

OP08-07:
(P181)

14:12-14:24 
New categorization of planarian stem cell population based on possible stem cell niche
予想される幹細胞ニッチをもとにしたプラナリア幹細胞集団の新しい区分

Yuki Sato (Grad. School of Science, Gakushuin Univ., Dep. of Biophys, Grad school of Science, Kyoto Univ.)

OP08-08:
(P170)

14:24-14:36 
Density homeostasis of spermatogenic stem cells through competition for FGFs
精子幹細胞の密度は精細管の周囲の体細胞から発現する一定量のFGFsを精子幹細胞が奪い合うことで決められている

Yu Kitadate (NIBB, Sokendai)

OP08-09:
(P175)

14:36-14:48 
Identification of genes regulating PGC reprogramming into pluripotent stem cells
多能性獲得に関与する始原生殖細胞リプログラミングの分子機構解明

Kei Otsuka (IDAC, Tohoku Univ)

OP08-10:
(P176)

14:48-15:00 
The endocytic regulation of the yolk protein receptor Yolkless is required for the polarity establishment and germ plasm assembly in the Drosophila oocyte
ショウジョウバエにおいて卵黄タンパク受容体Yolklessのエンドサイトーシス制御は卵母細胞の極性形成と生殖質形成に必要である

Tsubasa Tanaka (IMEG, Kumamoto Univ., Grad Sch Pharm Sci, Kumamoto Univ)

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DATE: May 11 (Thu) 13:00〜15:00 Room F
Oral presentation 9: Epigenetics, Genomics (comparative genomics) and Evolution (EcoEvoDevo, EvoDevo)
Chairperson: 
(OP09-1〜2)
Yuuri Yasuoka (OIST)

OP09-01:
13:00-13:12 
A novel CRE positively and negatively influences the expression of Shh and its bystander genes
新規シス因子がもたらすShh遺伝子座への正と負の影響

Takanori Amano (NIG)

OP09-02:
13:12-13:24 
A new cis-regulatory element acquired by inter-chromosomal translocation changes mouse limb morphology
染色体転座によるシス調整配列の獲得はマウスの四肢形態変化を引き起こす

Kousuke Mouri (NIG)
Chairpersons: 
(OP09-3〜10)
Juan Pascual Anaya (RIKEN CDB)
Mikiko Tanaka (Tokyo Inst. Tech.)

OP09-03:
(P060)

13:24-13:36 
Independent subfunctionalization of brachyury paralogs in vertebrate lineages
脊椎動物各系統におけるbrachyuryパラログの独立した機能分化

Yuuri Yasuoka (OIST)

OP09-04:
13:36-13:48 
Asymmetric β-catenin nuclearization determines mesendoderm formation during early development of amphioxus
Jr-Kai Yu (ICOB, Academia Sinica, Taiwan)

OP09-05:
13:48-14:00 
Hox genes and clusters from the hagfish: insights into the vertebrate ancestor
Juan Pascual-Anaya (RIKEN)

OP09-06:
14:00-14:12 
Analysis of the Hox gene cluster of the ascidian, Halocynthia roretzi, suggests multiple steps of the cluster disintegration during the course of ascidian evolution
マボヤのHox遺伝子の解析から示唆されるホヤの進化におけるHox遺伝子クラスター崩壊過程

Hidetoshi Saiga (Dept.of Biol.Scis., Grad.Sch.of Sci., Tokyo Metropolitan Univ.)

OP09-07:
14:12-14:24 
Metamerism in cephalochordates and the problem of the vertebrate head
頭索類分節性と脊椎動物頭部問題

Takayuki Onai (Evolutionary Morphology Lab, RIKEN)

OP09-08:
14:24-14:36 
Mechanisms that produce the phenotypic developmental plasticity of sponges
棲息環境に合わせたカイメンの形態可変性を可能にするメカニズム

Noriko Funayama (Dept. of Biophys., Graduate School of Science, Kyoto Univ.)

OP09-09:
(P065)

14:36-14:48 
The evolution of acetabular morphogenesis on the line to extant birds.
鳥類の系統における寛骨臼の形態形成の進化

Shiro Egawa (Grad. Sch. of Life Sci, Tohoku Univ.)

OP09-10:
(P068)

14:48-15:00 
Integration of distinct developmental systems in the vertebrate pharyngeal arch segmentation and evolution
脊椎動物咽頭弓の分節形成と進化における異なる発生システムの統合

Kazunori Okada (NIBB, OIIB)

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Day Zero Session

DATE: May 10 (Wed) 13:00〜15:00 Room D
Day Zero Session 1: Satellite Workshop (in Japanese)
Chairpersons: Yoshifumi Yamaguchi (Univ. of Tokyo)
Asako Shindo (Nagoya Univ.)

SW-1:
(P034)

9:00-9:12 
The mechanism of Nodal1's signaling range regulation by Derrière, a Xenopus ortholog of mouse GDF1
アフリカツメガエルにおけるマウスGDF1オルソログDerrièreによるNodal1のシグナル活性化範囲制御機構

Takafumi Ikeda (Lab. of Mol. Biol., Dept. of Biol. Scis., Grad. Sch. of Sci., Univ. of Tokyo)

SW-2:
(P145)

9:12-9:24 
Functional analysis of the limb mesenchyme specific enhancer of Fgf10
Fgf10肢芽間充織特異的エンハンサーの機能の解明

Tomohiro Takenaka (Div. of Biol. Sci., Sch. of Sci., Nagoya Univ)

SW-3:
(P140)

9:24-9:36 
polished rice is essential for tip cell specification and tubular fusion of dorsal branches in Drosophila tracheal system.
ショウジョウバエpolishe rice遺伝子は背側気管支の先端細胞の分化および融合に必須である。

Yuki Taira (Kobe University)

SW-4:
(P117)

9:36-9:48 
Feather bud formation on limited domain of reassembled artificial skin
再構成した皮膚の限定された領域における羽毛原基形成

Kentaro Ishida (Dept. of Phys. & Math., Coll. of Sci. & Eng., Aoyama Gakuin Univ.)

SW-5:
(P157)

9:48-10:00 
Leg regeneration is regulated by epigenetics depending on photoperiodism in the cricket Modicogryllus siamensis
光周性依存的なエピジェネティクスはタンボコオロギの脚再生を制御する

Yoshimasa Hamada (OKAYAMA UNIV., Grad. Sch. of Med. Dent. and Phar. Sci.)

SW-6:
(P182)

10:00-10:12 
Harnessing the CRISPR/Cas9 system in mouse genetic engineering @ LARGE, RIKEN-Kobe
神戸RIKEN LARGEでのCIRSPR/Cas9システムを用いた遺伝子改変マウス作製の試み

Takaya Abe (GET, RIKEN CLST)

SW-7:
(P066)

10:12-10:24 
Importance of frogs as an experimental model for evo-devo study of interdigital cell death and webbing formation
指間細胞死と水かき形成の進化発生学的研究のためのモデル実験系としてのカエル類の重要性

Akio Nishikawa (Dept.of Biol.Sci., Fac.of Life & Environ.Sci., Shimane Univ.)

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Poster Sessions

The white number is Poster Award candidate.
DATE: May 10 (Wed) 11:30 - May 11 (Thu) 20:30
Discussion 1: May 10 (Wed) 15:15-16:15 for odd number posters
                                         16:15-17:15 for even number posters
Discussion 2: May 11 (Thu) 15:15-16:15 for odd number posters
                                         16:15-17:15 for even number posters

P001:
(OP04-02)
 
Cadherin-2 mediates spatiotemporal control of actomyosin contractility during zippering and neural tube closure in a simple chordate
ホヤ神経管閉鎖のジッパリングにおけるアクトミオシン収縮はカドヘリンによって時空間的に制御される

Hidehiko Hashimoto (University of Chicago)

P002: Theoretical inference of cell mechanics which explains 3-dimensional morphological diversity
細胞の力学の理論的な推定とそれに基づいた3次元的な形態の多様性の理解

Hiroshi Koyama (Div. Embryology, NIBB)

P003: The movement without nerves or muscles:
The twisting movement of plant leaves toward light
神経や筋によらない運動:光の方向に向く葉のねじれ運動

Yuta Otsuka (Grad. Sch. Sci., Univ. Tokyo)

P004: Modeling vascular scaling law formation in retina vasculature
網膜血管網におけるスケーリング則の形成メカニズム

Takashi Miura (Dept.of Anat.& Cell Biol., Kyushu Univ.Grad.Sch.of Med.)

P005:
(OP04-03)
 
Mechanotransducer channel Piezo2 regulates respiration at birth and in the adult
機械刺激受容体チャネルPiezo2は出生時と成体の呼吸を制御する

Keiko Nonomura (NIBB, TSRI)

P006: Iberian ribbed newt’s external gill; finely controlled distribution of the ciliated cells in the respiratory epithelium makes constant fluid flow pattern that realizes countercurrent blood flow.
イベリアトゲイモリ幼生の外鰓の呼吸上皮の繊毛細胞の分布は前方から後方への一定の水流パターンを生成し、血流の対向流を実現している

Reico Ichikawa (Dept. of Biol. Sci., Fac. of Sci., Kanagawa Univ.)

P007: Epithelial barrier homeostasis by cell competition
上皮バリアの恒常性の維持における細胞競合の役割

Tetsuhisa Otani (NIPS, Division of Cell Structure, SOKENDAI)

P008: Essential patterning of metachronal ciliary movement and resultant fluid flow is conserved in both urodelan and anuran amphibians
有尾両生類と無尾両生類の間で、同調的繊毛運動によって生成される脳脊髄液流と嗅窩の液流パターンは保存されている

Ryuji Toyoizumi (Dept. of Biol. Sci., Fac. of Sci., Kanagawa Univ.)

P009: 3D analysis of functional development of cerebellar circuitry in zebrafish
ゼブラフィッシュを用いた小脳の機能的神経回路形成の3次元的解析

Kanae Hiyoshi (Faculty of Sci., Saitama Univ.)

P010:
(OP04-05)
 
Involvement of cell shape and tension with neural-epidermal ectoderm patterning in Xenopus embryo
ツメガエル胚における、細胞張力と細胞形状の神経−表皮外胚葉パターニングへの関与

Tatsuo Michiue (Grad. School of Arts and Sciences, Univ. Tokyo)

P011:
(OP04-01)
 
Tension-dependent dynamics of adherens junction components during cell junction oscillation in Drosophila epithelium
上皮組織における細胞間張力のゆらぎと張力依存的な細胞接着分子の応答

Yusuke Hara (MBI, Singapore, TLL, Singapore)

P012:
(OP04-10)
 
Thyroid hormone coordinates pancreatic islet maturation during the zebrafish larval to juvenile transition to maintain glucose homeostasis
ゼブラフィッシュ膵島成熟化とグルコースホメオスタシスにおける甲状腺ホルモンの役割

Hiroki Matsuda (Tohoku Univ, MPI-BN)

P013:
(OP04-06)
 
Phosphoproteomic analysis of mechanotransduction during Xenopus embryogenesis
アフリカツメガエル胚発生におけるメカノトランスダクションのリン酸化プロテオーム解析

Noriyuki Kinoshita (Div.of Morphogenesis NIBB)

P014:
(OP04-07)
 
Collective durotaxis of cranial neural crest cells in Xenopus
アフリカツメガエル頭部神経堤細胞の弾性勾配応答

Sei Kuriyama (Akita University)

P015:
(OP01-03)
 
Intrinsic lens potential of neural retina inhibited by Notch signaling as the cause of “lens transdifferentiation”
神経性網膜に内在する水晶体分化能を抑制するNotch シグナル:その破綻が水晶体への「分化転換」をもたらす

Hideaki Iida (DBGSE, Kyoto Sangyo Univ.)

P016: Establishment and use of a new epiblast stem cell line marking Foxa2 expression with GFP
Foxa2とともにnEGFPを発現するエピブラスト幹細胞を用いた、初期発生過程の研究

Sachiko Inamori (FLS, Kyoto Sangyo Univ.)

P017: Cytoplasmic PIWI is indispensable for transposon silencing conducted by nuclear PIWI in planarian pluripotent stem cell system
細胞質局在型PIWIはプラナリア全能性幹細胞システムにおける核局在型PIWIによる転移因子の抑制に不可欠である

Makoto Kashima (RIFA, Ryukoku Uni., DB, GSS, Kyoto Univ.)

P018: Degradation Mechanism of Tbx6 during Mouse Somitogenesis
Wei Zhao (CDB)

P019:
(OP01-01)
 
HIF1α Initiates Zebrafish Primitive Erythroid Differentiation by Switching On GATA1a Expression
Bo-An Lin (Dep. Biosci. Biotechnol, Natl. Taiwan Ocean Univ.)

P020: Sox5 modulates Sox10 function in pigment cell fate specification in medaka and zebrafish
メダカおよびゼブラフィッシュの色素細胞の運命決定においてSox5はSox10の機能を修飾する

Hisashi Hashimoto (Biosci. Biotechnol.Ctr., Nagoya Univ.)

P021: Analysis of lncRNA dutA repressing terminal differentiation via Dictyostelium organizer
細胞性粘菌のオーガナイザーを介した最終分化抑制に関わるlncRNA dutAの解析

Yukika Saga (Toho Univ.)

P022: Analysis of the mouse embryos in diapause
マウスの発生休止胚の解析

Chizuru Kamemizu (Dept. of Basic Biol., School of Life Sci., SOKENDAI, Div. of Embryology, NIBB)

P023: Pax3 and Pax7 differentially regulate fate choice of pigment cells in zebrafish
Pax3とPax7はゼブラフィッシュの色素細胞の運命選択において異なる機能を持つ

Motohiro Miyadai (Grad. Sch. Sci., Nagoya Univ.)

P024:
(OP01-05)
 
A novel 3D spheroid culture system for generating functional pancreatic β cells derived from human induced pluripotent stem cells
ヒトiPS細胞を用いた膵臓分化誘導3次元培養系の構築

Zixuan Erinn Sim (Titech Life Science)

P025: Caspase signaling’s new function about cell fate determination in mechanoreceptor formation of drosophila
Yajie Zhu (SLST, Tongji Univ.)

P026: Generation and Characterization of an INSULIN promotor driven mCherry Reporter Human iPS Cell Lines Using CRISPR/Cas9 system
CRISPR/Cas9を用いたインスリンレポーター ヒトiPS細胞の作製と解析

Hiraku Tokuma (School of Life Science and Technology, Tokyo Tech)

P027:
(OP01-02)
 
Involvement of Adam19 in the fate decision of cardiac neural crest cells
心臓神経堤の運命決定におけるAdam19の役割

Hiroyuki Arai (IFMS, Kyoto U)

P028: Sox2-dependent regulation of stem cell-like precursors during secondary neurulation
尾側神経管形成 Secondary neurulationにおけるSox2依存的な幹細胞様前駆細胞の制御

Teruaki Kawachi (Kyoto univ.)

P029: Cooperative activation of Sall4 and Sox8 transcription factors in the regulation of the chicken Sox3 gene during inner ear development
内耳発生におけるニワトリSox3遺伝子のSall4とSox8による協調的な活性化機構

Masanori Uchikawa (Grad. Sch. of Frontier Bioscis., Osaka Univ.)

P030: new function of caspase
Hongui Wu (SKLSDR)

P031: Histone demethylase LSD1/Kdm1a plays a crucial role in zebrafish definitive hematopoiesis
ヒストン脱メチル化酵素LSD1/Kdm1aはゼブラフィッシュ二次造血において重要な働きを持つ

Junya Tamaoki (Department of Molecular and Developmental Biology, Faculty of Medicine, University of Tsukuba)

P032: Roles of a transcription factor 19A in the ossification of sternum
胸骨の骨化における転写因子19Aの機能

Mao Kuriki (IFMLS, Kyoto University)

P033: Role of monoamines in insulin secretion
インスリン分泌におけるモノアミンの役割

Fumiya Uefune (Life Science and Technology, Tokyo Tech)

P034:
(SW-1)
 
The mechanism of Nodal1's signaling range regulation by Derrière, a Xenopus ortholog of mouse GDF1
アフリカツメガエルにおけるマウスGDF1オルソログDerrièreによるNodal1のシグナル活性化範囲制御機構

Takafumi Ikeda (Lab. of Mol. Biol., Dept. of Biol. Scis., Grad. Sch. of Sci., Univ. of Tokyo)

P035: Xenopus JunB regulates tail elongation and formation of tailbud stem-zone via integration of multiple morphogen signals
JunBは複数のモルフォゲンシグナルを統合することによりツメガエルの尾部伸長と尾芽幹細胞領域を制御する

Hitoshi Yoshida (Amphibian Research Center, Grad. Sch. Sci., Hiroshima Univ.)

P036: Zranb1b and Mib regulate the Ryk-mediated non-canonical Wnt signaling pathway during zebrafish convergent extension
Li-Chuan Tseng (IMGM, NHRI,TW)

P037: Live Imaging Analysis of Cell Behavior and Morphological Change in a Mouse Embryo during the A-P Axis Formation
マウス胚の前後軸形成期における細胞挙動・形態のライブイメージング解析

Go Shioi (Genetic EngineeringTeam, RIKEN CLST)

P038: Modulation of BMP4 distribution and signaling with heparosan, heparan sulfate, and cerberus
ヘパロサン・ヘパラン硫酸・CerberusによるBMP4の分布・活性制御

Takayoshi Yamamoto (Lab. of Mol. Biol., Dept. of Biol. Scis., Grad. Sch. of Sci., Univ. of Tokyo)

P039: GSK3β regulates cleavage pattern in early development of Lymnaea stagnalis
淡水産巻貝 Lymnaea stagnalis の初期発生において GSK3β は卵割パターンに関与する

Hiromi Takahashi (Dept. of Appl. Biol. Sci., Grad. Sch. of Sci. & Tech., Tokyo Univ. of Science)

P040: Ubiquitin C-terminal hydrolase 37 regulates Wnt/ß-catenin pathway during Xenopus gastrulation
Wonhee Han (Department of Life Sciences, POSTECH, South Korea)

P041: Self-organization of twinning in Xenopus half-embryos
Self-organizationによるアフリカツメガエル半胚Twin形成メカニズム

Yuki Moriyama (UCLA/hhmi)

P042: Searching for molecules expressed in the trophectoderm of the mouse peri-implantation embryo.
マウス着床前後の栄養外胚葉における発現分子の探索

Tomoaki Ito (NIBB, SOKENDAI)

P043: Whole-mount in situ hybridization and immunohistochemistry procedures without removal of the vitelline membrane of embryos in the appendicularian, Oikopleura dioica
ワカレオタマボヤOikopleura dioicaの胚におけるホールマウント in situ hybridizationおよび免疫染色を卵膜除去せずに行う方法

Takeshi Onuma (Dep. Biol. Sci., Osaka Univ.)

P044: Role of the GARP complex during early mouse development
マウス初期発生過程におけるGARP complexの役割

Michihiko Sugimoto (IRDA, Kumamoto Univ.)

P045: The cell-type specific functions of an ER modulating factor, Pecanex in Notch and Wnt signaling pathways
小胞体調節因子PecanexのNotchとWntシグナル伝達における細胞型特異的な機能

Tomoko Yamakawa (Dept. of Biol. Sci., Grad. school of Sci., Osaka Univ.)

P046:
(OP05-03)
 
Spatial regulation of Wnt proteins and planar cell polarity in Xenopus early embryogenesis.
アフリカツメガエル初期発生におけるWnt蛋白質の空間的制御と平面細胞極性

Yusuke Mii (NIBB, OIIB, SOKENDAI)

P047: Functional screening of maternal factors and analysis of metaphase arrest of meiosis in the appendicularian, Oikopleura dioica
ワカレオタマボヤを用いた母性因子の機能的スクリーニングおよび減数分裂停止機構の解析

Masaki Matsuo (Lab of Developmental Biology, Osaka Univ.)

P048: What is the factors which function during early dorsal determination in zebrafish?
ゼブラフィッシュ初期背腹軸形成に機能する因子は何か?

Hiromu Hino (Grad. Sch. Sci., Nagoya Univ., BBC)

P049: Expression and Function of Murine Sox17 and Sox7 Genes in Extraembryonic Endoderm from Early to Late Organogenetic Stages.
早期から後期の器官形成期におけるマウス Sox17 および Sox7 の胚体外内胚葉での発現と機能

Hitomi Igarashi (Dept Vet Anat, Univ Tokyo)

P050:
(OP05-02)
 
Membrane invagination-mediated posterior ciliary positioning is involved in the neurula rotation related to establish left-right asymmetry in ascidian embryo
膜構造を介した後方に偏った繊毛がホヤ左右軸決定に重要な神経胚回転に関わる

Takefumi Negishi (NIBB)

P051:
(OP05-06)
 
Mesp1 is a canonical Wnt target gene during early mesoderm formation
Mesp1の発現は初期中胚葉形成において古典的Wntシグナルによって制御される

Rieko Ajima (NIG)

P052: Involvement of Tmem150b during Xenopus convergent extension
Byeong-Rak Keum (POSTECH)

P053: Ripply2-mediated Xbra inhibition is required for proper head development
Inchul Yeo (POSTECH)

P054: Study of the molecular pathology of the human peroxisomal biogenesis disorder using zebrafish
ゼブラフィッシュを用いたペルオキシソーム形成異常症発症機構の解明

Shoko Takemoto (Div Gen Res, Life Sci Res Ctr, Gifu Univ)

P055:
(OP04-08)
 
Anaerobic glucose metabolism regulates neural tube formation
嫌気的解糖系による神経管閉鎖制御

Daisuke Sakai (Doshisha University)

P056: Vitamin A absorption and metabolism in lamprey
ヤツメウナギにおけるビタミンAの吸収と代謝

Yoshihiro Mezaki (Dep. Lab. Med., Jikei Univ.)

P057: RNA Polymerase II stalls at transcription start sites before zygotic genome activation in the ascidian embryo
ホヤ胚において胚性のゲノム活性化以前ではRNAポリメラーゼIIが転写開始点付近で停止している

Tatsuro Ikeda (Dept. Zool., Grad. Sch. Sci., Kyoto Univ., Present affiliation: NIBB)

P058: DNA methylation in Aeolosoma viride regeneration
Hung-Wen Kuo (Department of Life Science, NTU, IPMB, AS)

P059: Plant-parasitic nematodes activate the procambium genes in the feeding site on infection
植物寄生性線虫は寄生領域で前形成層遺伝子を活性化する

Yasuka Yamaguchi (FAST, Kumamoto Univ.)

P060:
(OP09-03)
 
Independent subfunctionalization of brachyury paralogs in vertebrate lineages
脊椎動物各系統におけるbrachyuryパラログの独立した機能分化

Yuuri Yasuoka (OIST)

P061: Expression patterns of netrins and netrin receptors in early embryonic development of the leech
Jun-Ru Lee (Department of Life Sci. College of Life Sci. NTU)

P062: Evolution and function of sterol sensing domain protein patched-related (PTR)
ステロールセンシングドメイン蛋白patched-related (PTR)の進化と機能

Yoshiro Nakano (Dept. of Genet., Hyogo Coll. of Med.)

P063: Homeobox code in the jaw primordia of marsupial opossum (Monodelphis domestica) may represent the prototypical state for the heterodont dentition of mammals
有袋類ハイイロジネズミオポッサムの顎原基におけるホメオボックスコードの発現は哺乳類の異形歯性の原型を示す

Yoshio Wakamatsu (Dept. Dev. Neurosci., Tohoku Univ., Grad. Sch. Med.)

P064: Toward understanding the mechanisms underlying phenotypic plasticity of sponges-1:
Approach by single-spicule mechanical wobbling in E.fluviatilis
カイメンの表現型可塑性はどのような機構で成り立っているか?
1:E.fluviatilisを用いた1本の骨片を機械的に揺らす実験系によるアプローチ

Sota Takagi (Dep. Biophysics, Grad. School of Science, Kyoto Univ.)

P065:
(OP09-09)
 
The evolution of acetabular morphogenesis on the line to extant birds.
鳥類の系統における寛骨臼の形態形成の進化

Shiro Egawa (Grad. Sch. of Life Sci, Tohoku Univ.)

P066:
(SW-7)
 
Importance of frogs as an experimental model for evo-devo study of interdigital cell death and webbing formation
指間細胞死と水かき形成の進化発生学的研究のためのモデル実験系としてのカエル類の重要性

Akio Nishikawa (Dept.of Biol.Sci., Fac.of Life & Environ.Sci., Shimane Univ.)

P067: Differing contributions of the first and second pharyngeal arches to tympanic membrane formation in the mouse and chick
マウスとニワトリの鼓膜形成では異なる咽頭弓の発生プログラムが関与する

Masaki Takechi (Grad Sch Med Dent Sci, TMDU)

P068:
(OP09-10)
 
Integration of distinct developmental systems in the vertebrate pharyngeal arch segmentation and evolution
脊椎動物咽頭弓の分節形成と進化における異なる発生システムの統合

Kazunori Okada (NIBB, OIIB)

P069: Enhancer activities of Amphioxus two Brachyury genes.
ナメクジウオの二つのBrachyury遺伝子のエンハンサー機能解析

Hitoshi Tominaga (SOKENDAI)

P070: Toward understanding the mechanisms underlying phenotypic plasticity of sponges-2:Approach using original system to observe skeleton construction under constant water flow
カイメンの表現型可塑性はどのような機構で成り立っているか?
2:一定水流下におけるカイメン骨片骨格形成過程のライブイメージングによるアプローチ

Goshi Ogita (Dep. Biophysics, Grad. School of Science, Kyoto Univ.)

P071: Functional analysis of a Hox gene, abdominal-A, in the cricket Gryllus bimaculatus using a CRISPR/Cas9-mediated gene knock-in system
CRISPR-Cas9ノックインシステムを用いたフタホシコオロギにおけるHox遺伝子abdominal-Aの機能解析

Mayuko Matsuda (Inst. Tech. and Sci., Tokushima Univ.)

P072: even-skipped is required for segmentation and elongation of embryos in the cricket Gryllus bimaculatusas revealed by CRISPR/Cas9-based gene knock-out.
フタホシコオロギにおいてeven-skippedは胚の体節構造の形成と伸長に必要である

Yu-Ki Nakamura (Inst. Tech. and Sci.,Tokushima Univ.)

P073: Identify germ granule-enriched transcripts in amphioxus by single cell transcriptome profiling
Che-Yi Lin (ICOB, Academia Sinica, Taiwan)

P074: Analysis of developmental sequence heterochronies in teleost fishes
真骨魚類における発生シークエンスのヘテロクリニー解析

Fumihiro Ito (SOKENDAI)

P075: How did the weakly electric mormyrid fish Gnathonemus petersii evolve a large and foliated cerebellum?
弱電気魚モルミルスGnathonemus petersiiはどのようにして、巨大で葉状構造を持つ小脳へと進化させてきたのか?

Koji Matsuda (BBC., Nagoya Univ., Grad. Sch. Sci., Nagoya Univ.)

P076: Identification of the counterpart of Xenopus dicalcin in the mouse reproductive tract
マウス卵丘細胞膜に存在する受精調節因子の同定

Naofumi Miwa (Toho Univ., Dept.Physiol.)

P077:
(OP07-07)
 
Testing the possible impact of maternal cells on development, case of the neonatal liver disorder biliary atresia
Flore Castellan (Dept. of Biol. Sciences, University of Tokyo)

P078: Ovarian structure and germ plasm components of Forcipomyia taiwana (Shiraki)(Diptera: Ceratopogonidae)
Ming-Der Lin (MBHG, Tzu-Chi Univ. Taiwan, LS, Tzu-Chi Univ. Taiwan)

P079:
(OP07-06)
 
Significance of Cav3.2 and TRPV4 in the adaptation of intracellular signaling for motility regulation to various reproductive environments in amphibian sperm.
両生類精子運動調節の細胞内信号伝達の生殖環境に対する適応におけるCav3.2とTRPV4の重要性

Akihiko Watanabe (Fac. of Sci., Yamagata Univ.)

P080:
(OP07-08)
 
Dullard deficiency causes hemorrhage in the adult ovarian follicles.
Dullard欠損は、成体の卵巣濾胞において、出血性嚢胞を引き起こす。

Tadayoshi Hayata (Dept. of Biol. SIg. Reg., Faculty of Med. Univ. of Tsukuba, Dept. of Mol. Pharmacol., Med. Res. Inst., TMDU)

P081:
(OP07-10)
 
Induction of spermatogenesis in explanted fetal mouse testis tissues by organ culture method
胎仔マウス精巣を用いた器官培養法による精子形成の誘導

Kazuaki Kojima (Graduate school of medical life science, Yokohama city university)

P082: The establishment of quail primordial germ cell culture system.
トランスジェニックウズラ作製に向けた始原生殖細胞培養法の開発

Daisuke Saito (FRIS, Tohoku univ.)

P083: Testicular organ culture reveals multiple temperature thresholds in mouse spermatogenesis
器官培養が明らかにしたマウス精子形成の分化過程に存在する多段階温度閾値

Kodai Hirano (Department of Basic Biology, SOKENDAI, Division of Germ Cell Biology, NIBB)

P084: Screening for extracellular matrix factors that may concern in mouse male fertility
マウス雄妊孕性に関わる細胞外マトリックス関連因子の探索

Daiji Kiyozumi (RIMD, Osaka Univ.)

P085:
(OP07-09)
 
Morphological diversity of seminal receptacles of species among genus Drosophila
ショウジョウバエ属に見られる管状受精嚢の形態的多様性

Tatsuhiko Noguchi (NDMC, Biology)

P086:
(OP07-04)
 
Homing efficiency and behavior of mouse seprmatogenic stem cells following transplantation
マウス精子幹細胞のホーミング効率と振舞い

Yoshiaki Nakamura (Div. Germ Cell Biology, NIBB, JSPS research fellow)

P087:
(OP07-05)
 
Requirement of DDX6-mediated P-body formation in male germ cell development
雄性生殖細胞発生におけるDDX6を介したP-bodyの必要性

Ryuki Shimada (SOKENDAI)

P088: Zebrafish model revealed the functional time window of POLR1C on facial development
William Kf Tse (Agr, Kyushu Univ)

P089:
(OP02-04)
 
Disruption of Tsukushi leads to hydrocephalus by aberrant neurogenesis.
Tsukushiの欠損は神経発生の異常による水頭症を発症させる。

Naofumi Ito (Kumamoto University, Dev. neurobiol.)

P090: Reelin signaling is involved in layer and neural circuit formation in the cerebellum and the optic tectum in zebrafish
Reelinシグナルはゼブラフィッシュ小脳および視蓋の層形成に関与する

Takayuki Nimura (Graduate School of Science, Nagoya Univ.)

P091: Neural specific kinase promotes early neural development in Xenopus embryos
Nusrat Jahan (Amphibian Research Center, Grad. Sch. Sci., Hiroshima Univ.)

P092: Gene expression profiling of zebrafish cerebellar neurons reveals possible mechanisms controlling neural circuit formation
ゼブラフィッシュ小脳ニューロンの遺伝子プロファイリングから明らかになる神経回路形成の分子メカニズム

Miki Takeuchi (BBC, Nagoya Univ.)

P093: Lineage analysis of Ripply3 expressing cells in the mouse development
マウス胚発生におけるRipply3発現細胞の系譜解析

Tadashi Okubo (Lab. Animal Sci. Kitasato Univ. School of Medicine)

P094: Roles of Ptf1a and Gsx2 in development of inferior olive nucleus neurons in zebrafish
ゼブラフィッシュの下オリーブ核ニューロンの発生を制御するPtf1aおよびGsx2の機能解析

Tsubasa Ito (Grad. School of Science, Nagoya Univ.)

P095: Foxp1-expressing motor neurons undergo apoptosis dependently on the Hox expression pattern in the cervical spinal cord of chick embryo
ニワトリ胚頸髄においてFoxp1陽性細胞はHoxの発現パターンに依存してアポトーシスを起こす

Katsuki Mukaigasa (Fukushima Med. Univ.)

P096: Coordinated regulation between survivin and epo expression promotes neuronal differentiation
Hsin-Yu Chung (Dep, Biosci. Biotech., Natl Taiwan Ocean Univ.)

P097: Visualization of the parasympathetic nervous system in the lung of chicken embryos
肺における副交感神経ネットワーク形成過程の可視化

Tadayoshi Watanabe (Department of Zoology, Graduate School of Science, Kyoto University)

P098: Antero-posterior positional information is maintained in sacral-level neural crest cells when they form parasympathetic Remak’s ganglia in chicken embryos
副交感Remak神経節形成時における細胞の前後軸に沿った位置情報の維持

Yuuki Shikaya (Department of Zoology, Graduate School of Science, Kyoto University)

P099: The cerebellar granule cells control recovery from classical conditioned fear responses in zebrafish
ゼブラフィッシュ恐怖条件付け学習における小脳の役割

Takashi Shimizu (BBC, Nagoya Univ., Grad. Sch. Sci., Nagoya Univ.)

P100: Establishment of the apico-basal polarity of neural tube-forming cells during mesenchymal-to-epithelial transition (MET) in secondary neurulation.
Secondary neurulationの間充織-上皮転換(MET)における頂端-基底極性の確立

Ryo Kudo (Kyoto university)

P101: Molecular mechanism of the layer-, column-specific targeting in the Drosophila visual system.
ショウジョウバエ視神経系における層・カラム特異的投射の分子機構

Hiroki Takechi (Suzuki Lab, Titech)

P102: Adult glial architectures are established by a plastic and robust developmental strategy in Drosophila
ショウジョウバエ成虫グリア網は可塑的な発生プログラムによって形成される

Kentaro Kato (Kyorin Univ Schl of Med)

P103: Critical role of En1-positive neurons for silencing slow-component neurons during fast swimming in zebrafish
En1ニューロンは、速い運動の際に、遅い運動に関与するニューロンの活動を止めるのに必須の役割を果たす

Shin-Ichi Higashijima (OIBB, NIBB, NINS)

P104: Lobe-less, a long noncoding RNA that regulates Drosophila mushroom body morphogenesis
長鎖noncoding RNA Lobe-lessはショウジョウバエ中枢神経系において、キノコ体の軸索投射に寄与している

Sachi Inagaki (Biosignal Res. Ctr., Kobe University)

P105: Near-infrared upconversion nanoparticles for optogenetics
近赤外光をアップコンバージョンするナノ粒子の光遺伝学への利用

Wataru Shoji (FRIS, Tohoku Univ.)

P106: Characterization of RNA-binding protein NonO during retinal development in zebrafish
ゼブラフィッシュ網膜形成におけるRNA結合タンパク質NonOの機能解析

Chisa Usami (Dept. Biol., Grad. Sch. Sci., Kobe Univ.)

P107: Visualization of Neuregulin 1 ectodomain shedding in motor neurons in zebrafish
ゼブラフィッシュを用いた運動神経におけるニューレグリン1の切断の可視化

Mai Tabuchi (GSB,Kyoto Univ., IFMS, Kyoto Univ.)

P108:
(OP04-09)
 
The role of methionine metabolism during germline development in Drosophila melanogaster.
ショウジョウバエ生殖系列におけるメチオニン代謝の役割

Yoshiki Hayashi (TARA center, Univ. of Tsukuba)

P109:
(OP05-10)
 
Tail reduction process during human embryonic development
ヒト胚発生過程における尾部短縮過程の解明

Sayaka Tojima (Grad. Sch. of Med.,Osaka City Univ.)

P110: Valproic acid induces aberrant pattern of corticostriatal pathway in an animal model of autism spectrum disorder
Liu Fu-Chin (INS, NYMU)

P111:
(OP06-10)
 
Non-muscle Myosin II Deletion in the Developing Kidney Causes Ureter-bladder Misconnection and Apical Extrusion of the Nephric Duct Lineage Epithelia
Fahim Haque (Dept. of Kidney Development, IMEG, Kumamoto Univ.)

P112:
(OP03-07)
 
How to encounter endothelial cells in deep tissues – mechanical interaction between endothelial cells and epithelial tube
組織深部で血管内皮細胞が出会うためには 〜血管内皮と上皮管の力学的相互作用

Tsuyoshi Hirashima (Inst Front Life Med Sci, Kyoto Univ)

P113: Regulation of neuro-sensory and non-sensory fate determination by Sox2 during otic development
Alexis Kok Ting Tam (SBMS, HKU)

P114: SOX2-dependent determination of tissue identity in the foregut
SOX2による消化管前部における領域性の決定機構

Machiko Teramoto (KSU)

P115: Embryonic region-dependent development and interactions of grafted Hensen’s node with host tissues
宿主胚領域に依存した、ヘンゼン結節移植片の自己発生と宿主組織との相互作用

Koya Yoshihi (Kyoto Sangyo Univ)

P116:
(OP06-03)
 
Temporal Control of Tissue Maturation with Proliferation Reduction in developing trachea.
気管発生時にみられる、増殖低下を伴う組織成熟の経時的変化とその制御機構の解明

Hirofumi Kiyokawa (CDB)

P117:
(SW-4)
 
Feather bud formation on limited domain of reassembled artificial skin
再構成した皮膚の限定された領域における羽毛原基形成

Kentaro Ishida (Dept. of Phys. & Math., Coll. of Sci. & Eng., Aoyama Gakuin Univ.)

P118: Zebrafish VCAP1X2 is essential for the proliferation and contractility of ventricular cardiomyocytes and proper epicardium development
Fang-Chi Hsieh (GILS, National Defense Medical Center, ICOB, Academia Sinica)

P119: VEGF-A misexpression in the epicardium of the avian heart results in connective tissue hyperplasia and ectopic vascular development
鳥類胚心臓心外膜でのVEGF-A強制発現は結合組織の過形成および異所性血管形成を引き起こす

Yasuo Ishii (Dept. Biol., School Med., Tokyo Women's Med. Univ.)

P120:
(OP06-07)
 
Cellular and molecular mechanisms for the establishment of the dorsal and ventral compartments in the teleost somite.
真骨魚類体節の背腹コンパートメント形成における細胞・分子メカニズム

Kota Abe (Laboratory of Embryology, University of Tokyo)

P121: Quantitative analysis of chondrogenic pattern in cultured limb mesenchymal cells.
肢芽間充織培養系を用いた軟骨パターンの定量解析

Keiichi Kitajima (Grad. Sch. of Life Sci., Tohoku Univ.)

P122:
(OP03-06)
 
Oriented mesenchymal cells drive tracheal tubulogenesis.
気管の管腔形成における間充織極性化の重要性

Keishi Kishimoto (RIKEN CDB)

P123: The development of a novel tool to analyze cranial placode development
感覚器プラコードの発生を解析するための新たなツールの開発

Shigeru Sato (Div. of Biol., Jichi Med. Univ.)

P124:
(OP06-08)
 
Establishment of polarity of cilia orientation and cell elongation during the mouse oviduct development
マウス卵管の発生における繊毛と細胞伸長の極性形成

Fumiko Usami (Dept. of Basic Biol., School of Life Sci., SOKENDAI, Div. of Embryology, NIBB)

P125: Genetic interactions between Ripply and Tbx6 in the somite segmentation and myogenesis in zebrafish embryos
Akinori Kawamura (Grad. Sch. Eng., Saitama Univ.)

P126: Towards understanding the mechanisms that orchestrate directional migration and the following subsequent invasive migration between epithelial cells in sponge
芽球骨片運搬を担う細胞の「方向性を持った遊走」と「上皮細胞間への入り込み」が、形成中の芽球の殻への芽球骨片の順序だった埋め込みを実現する

Kanji Nakagawa (Dept. Biophys. Grad. Sch. Sci., Kyoto Univ.)

P127: Expression analysis of Lhx1-downstream genes in the chick embryonic eye
Lhx1下流遺伝子のニワトリ胚眼における発現解析

Toshiki Kinuhata (Dept. Cyto. & Histo., Okayama Univ. Grad. Sch. Med. Dent. & Pharm.)

P128:
(OP06-04)
 
The role of diphthamide biosynthesis enzyme DPH1 in mouse cardiac development
Chun-Ming Chen (DLSIGS, National Yang-Ming University)

P129:
(OP03-09)
 
Wnt signal is required for proper rearrangement and morphological change of roof plate cells in the formation of median septum of mouse spinal cord
Wntシグナルは脊髄神経管中隔形成に必要である

Takuma Shinozuka (Dept. Basic Biology, SOKENDAI, OIIB)

P130: Comparison of cell proliferation control between leaves and flower organs in Arabidopsis
シロイヌナズナにおける葉と花器官の分裂制御の比較

Ayaka Kinoshita (Grad. Sch. Sci., Univ. Tokyo)

P131: Six1 regulates growth of dental papilla and lingual-labial asymmetry in the developing mandibular incisor
Six1は下顎切歯の発生において歯乳頭の成長と舌唇側上皮の非対称性形成を制御する

Masanori Takahashi (Div.of Biol. Cent. for Mol. Med. Jichi Med. Univ.)

P132: Reconstruction of tissue deformation dynamics for Xenopus laevis limb development from positional data of cells labeled by IR-LEGO system
アフリカツメガエルの四肢発生過程における組織変形動態の定量解析

Aiko Kawasumi (RIKEN QBiC)

P133: Ddx3x, an X-linked member of DEAD box RNA helicase family, is required for craniofacial development
Li-Ru You (IBMB, National Yang-Ming University)

P134: Patterning of the Cylindrical Unifacial Leaf Plant Juncus torreyi (Juncaceae)
Xiaofeng Yin (Dept. Biol. Sci., Grad. Sch. Sci., Univ. Tokyo)

P135: A small part of the endoblast contributes to the gut endoderm in the chicken embryo.
ニワトリ胚ではエンドブラストの一部が消化管内胚葉に寄与する

Kimiko Fukuda (Dept,. Biol., Tokyo Metropol. Univ.)

P136:
(OP03-03)
 
Blood flow and vascular remodeling: analyses of individual endothelial cell behaviors by in vivo live-imaging and mathematical approach
生体内血管リモデリング:ライブイメージングと数理解析からみる血管内皮細胞の挙動と血流の関係

Yuta Takase (Dept. of Zoology, Grad. Sch. of Sci. Kyoto Univ.)

P137:
(OP01-09)
 
Determination of mechanism for vascular remodeling from endothelial cellular behavior by fluid and solid mechanics
連続体力学を用いて血管リモデリングにおける内皮細胞の振る舞いを理解する

Kenichi Nakazato (Theoretical Biology Laboratory, RIKEN)

P138: Functional analyses of a novel vesicular membrane protein, TMEM141 affecting the survival rate during the growth stage in medaka (Oryzias latipes) larvae
メダカ稚魚の成長過程に関わる新規小胞膜分子TMEM141の機能解析

Yasuhiro Tonoyama (Adv. Res. Ctr. GSP., Keio Univ.)

P139:
(OP06-09)
 
Molecular mechanism to convert the segmentation clock into the segmental pattern of somites in the zebrafish
分節時計によるゼブラフィッシュ体節分節境界形成の制御機構

Taijiro Yabe (NIBB)

P140:
(SW-3)
 
polished rice is essential for tip cell specification and tubular fusion of dorsal branches in Drosophila tracheal system.
ショウジョウバエpolishe rice遺伝子は背側気管支の先端細胞の分化および融合に必須である。

Yuki Taira (Kobe University)

P141: Identification of Hox target genes involved in regulating the autopod-specific patterning and growth of cartilage
自脚骨形成に関与するHox標的遺伝子の同定

Shiori Yamamoto (Div. of Biol. Sci., Grad. Sch. of Sci., Nagoya Univ.)

P142: Anatomical integration of the sacral-hindlimb unit coordinated by GDF11 enables the evolutionary diversification of hindlimb positioning in tetrapods
GDF11による仙椎ー後肢ユニットの位置の解剖学的統合が四肢動物における後肢の位置の多様性を生み出す

Takayuki Suzuki (Div. of Biol. Sci., Nagoya Univ.)

P143: 3-dimensional visualization of morphogenesis reveals novel contribution of visceral muscles to the left-right asymmetric development in Drosophila
Dongsun Shin (Department of Biological Science, Graduate School of Science, Osaka University)

P144: Functional verification of each Msx homology domain of Msx1 gene for tooth morphogenesis using CRISPR/Cas system
CRISPR/Casシステムを用いたMsx1遺伝子各ドメインの歯の発生における機能検証

Akihiro Yasue (Dept. of Orthod., Inst. of Health Biosci., Tokushima Univ)

P145:
(SW-2)
 
Functional analysis of the limb mesenchyme specific enhancer of Fgf10
Fgf10肢芽間充織特異的エンハンサーの機能の解明

Tomohiro Takenaka (Div. of Biol. Sci., Sch. of Sci., Nagoya Univ)

P146: Identification of early progenitors for the cardiac conduction system in murine heart development
マウス胚心臓原基上における刺激伝導系前駆細胞の同定

Akane Sakaguchi (SOKENDAI)

P147: The planarian Dugesia japonica as a new model animal to understand molecular mechanisms underlying stable body proportioning
プラナリア(ナミウズムシ)を用いた体のプロポーションを保つ分子機構の解析

Kazutaka Hosoda (Grad. Sch. of Life Sci., Univ. of Hyogo)

P148:
(OP06-02)
 
The mechanism about the cell autonomous generation of collagen crystal involved with fin skeletal development.
魚類ヒレ骨形成において機能するコラーゲン結晶の自律的合成メカニズム

Junpei Kuroda (FBS, Osaka univ)

P149: Epidermal reprogramming during limb regeneration of Xenopus froglet
アフリカツメガエル四肢再生における上皮細胞の脱分化

Akira Satoh (research Core for interdisciplinary Sciences (RCIS))

P150: Erythropoietin Produced by Genetic-modified NIH/3T3 Fibroblasts Facilitate Neurogenesis in a Rat Stroke Model
Pin-Chun Chou (Graduate Institute of Anatomy and Cell Biology, College of Medicine, National Taiwan University, Taipei, Taiwan)

P151: Visualization of cell-based positional information in connective tissue
結合組織における細胞ベースの位置情報の可視化

Takayoshi Otsuka (UC Irvine)

P152: Positional memory during zebrafish fin regeneration
ゼブラフィッシュひれ再生中の位置情報の解析

Eri Shibata (LST, Titech)

P153: Caudal fin morphology regenerates by recognizing amputated fin-ray length in zebrafish
ゼブラフィッシュの尾鰭は切除された長さを認識することで元通りの形態を再生する

Toshiaki Uemoto (Grad Sch of Life Sci, Tohoku Univ)

P154: Avi-caspase X Expression in Anterior Regeneration of Aeolosoma viride Is Regulated by the Wnt/β-Catenin Signaling Pathway
Sheridan Fok (Department of Life Science, NTU)

P155: Cloning, Identification and Characterization of Two MyD88s during Anterior Regeneration in Aeolosoma viride
Chiao-Ping Chen (LS, NTU)

P156: Implicated role of hyaluronan signaling in adult epithelial development during intestinal remodeling in Xenopus leavis
アフリカツメガエルの小腸再構築におけるヒアルロン酸シグナルの役割

Kenta Fujimoto (Dept. of Biol., Nippon Med. Sch.)

P157:
(SW-5)
 
Leg regeneration is regulated by epigenetics depending on photoperiodism in the cricket Modicogryllus siamensis
光周性依存的なエピジェネティクスはタンボコオロギの脚再生を制御する

Yoshimasa Hamada (OKAYAMA UNIV., Grad. Sch. of Med. Dent. and Phar. Sci.)

P158:
(OP05-08)
 
Loss-of-function and rescue analyses of immune T cells involved in Xenopus tail degeneration via Ouro antigens
ツメガエル尾の退縮にOuro抗原タンパク質を介して関わる免疫T細胞の機能阻害実験と回復実験

Haruka Kobayashi (Dept.Biol.,Fac.Sci.,Niigata Univ.)

P159: Hyper innervation stimulate improvement of Xenopus laevis limb regeneration
神経の供給によるアフリカツメガエル四肢再生能力の向上

Kazumasa Mitogawa (RCIS, Okayama Univ.)

P160: Small-scale culture system of bamboo sole (Heteromycteris japonica), a small-sized species of the Pleuroneciformes, and its metamorphic external asymmetry and pectoral fin loss
小型異体類ササウシノシタ, Heteromycteris japonica, 仔魚の小型飼育システムの構築と変態に伴う左右非対称性形成と胸鰭の消失

Tohru Suzuki (Grad. Sch. of Agric. Sci., Tohoku Univ.)

P161:
(OP05-07)
 
Scaling of critical weight for metamorphosis in the genus Drosophila
ショウジョウバエ属における変態のための臨界重量のスケーリング

Ken-Ichi Hironaka (Dept. of Biol. Sci., Osaka Univ., RIKEN CDB)

P162: Expression profiling of Japanese flounder abnormal pigmentation caused by feeding conditions
給餌条件により生じるヒラメ体色異常についての遺伝子発現プロファイル解析

Hayato Yokoi (Grad Schl Agricul Sci, Tohoku Univ)

P163: The formation of the presumptive pylorus region before gut metamorphosis in Xenopus
アフリカツメガエル消化管の変態前における予定幽門領域の形成

Kei Nagura (Lab. of Mol. Biol., Dept. of Biol. Scis., Grad. Sch. of Sci., Univ. of Tokyo)

P164: MOLECULAR APPROACH TO UNDERSTANDING ECHINODERM REGENERATION
Akari Okada (Misaki Marine Biological Station, Graduate School of Science, The University of Tokyo)

P165: Modeling of human somite patterning using hiPSC
ヒトiPS細胞を用いた体節発生の再現

Taiki Nakajima (CiRA, Kyoto Univ.)

P166: Establishment of neural progenitor cell lines with defined regional specificiteis from EpiSCs.
エピブラスト幹細胞株から領域特性をもった神経幹細胞株を樹立する

Kae Nakamura (GSLS, Kyoto Sangyo Univ.)

P167:
(OP08-04)
 
Post-transcriptional suppression of Dazl in follicular oocytes plays a crucial role in pre-implantation embryonic development
卵胞におけるDazl転写後抑制は着床前胚の発生において重要な役割を持つ

Kurumi Fukuda (Lab. of mammdev, Dept. of genet, Div.Sci. of life sci ,SOKENDAI)

P168: Osteoblast precursor cells are the committed stem cells involved in bone maintenance and regeneration of zebrafish
骨芽前駆細胞は幹細胞としてゼブラフィッシュの骨の維持と再生に関わる

Kazunori Ando (LST, Tokyo Tech)

P169: Zebrafish pou2, a Oct4-type class-V POU gene, is involved in neurogenesis in the tail bud.
Oct4型POU遺伝子pou2はゼブラフィッシュ胚の尾芽において神経発生を制御する

Tatsuya Yuikawa (Div. Life Sci., Grad. Sch. Sci. Eng., Saitama Univ.)

P170:
(OP08-08)
 
Density homeostasis of spermatogenic stem cells through competition for FGFs
精子幹細胞の密度は精細管の周囲の体細胞から発現する一定量のFGFsを精子幹細胞が奪い合うことで決められている

Yu Kitadate (NIBB, Sokendai)

P171: Expression analysis of Notch3 and Hes family genes in mouse spermatogonia
マウス精原細胞におけるNotch3およびHes family遺伝子の発現解析

Ryu Okada (Yokohama City Univ.)

P172:
(OP08-01)
 
Six1 and Six4 regulate germ and gonadal somatic progenitor cell formation in mice
転写因子Six1とSix4によるマウス生殖細胞と生殖腺体細胞の前駆細胞形成の制御機構について

Satomi Tanaka (Kumamoto Health Sci. Univ.)

P173: Studying the establishment of the spermatogenic stem cell compartment in neonatal mice by gene expression analysis and lineage tracing
新生仔マウスにおける精子幹細胞の形成過程の解析

Miho Ishizaka (Division of Germ Cell Biology, NIBB, NINS, Dept. Basic Biology, Sch. Life Science, SOKENDAI)

P174: Chromodomain protein MRG-1 is required for global repression of Pol II-dependent transcription in the primordial germ cells in C. elegans
線虫C. elegansにおいて、クロモドメイン蛋白質MRG-1が始原生殖細胞における転写抑制制御に必要である

Takashi Miwa (Dept. Biol., Grad. sch. Sci.,Kobe Univ.)

P175:
(OP08-09)
 
Identification of genes regulating PGC reprogramming into pluripotent stem cells
多能性獲得に関与する始原生殖細胞リプログラミングの分子機構解明

Kei Otsuka (IDAC, Tohoku Univ)

P176:
(OP08-10)
 
The endocytic regulation of the yolk protein receptor Yolkless is required for the polarity establishment and germ plasm assembly in the Drosophila oocyte
ショウジョウバエにおいて卵黄タンパク受容体Yolklessのエンドサイトーシス制御は卵母細胞の極性形成と生殖質形成に必要である

Tsubasa Tanaka (IMEG, Kumamoto Univ., Grad Sch Pharm Sci, Kumamoto Univ)

P177: Forward genetic screen with haploid embryonic stem cells identifies a regulator for extraembryonic development
一倍体ES細胞を用いた順遺伝学的スクリーニングにより胚体外系譜への分化に関わる遺伝子を同定する

Takashi Ishiuchi (Div. of Epigenetics and Developent, MIB, Kyushu Univ.)

P178:
(OP08-06)
 
Regulatory mechanism of retinal cell differentiation from ocular tissue stem cells
トリ虹彩のユニークな組織幹細胞と網膜分化の調節機構

Masasuke Araki (Dept of Biol., Nara Med. Univ.)

P179:
(OP08-02)
 
Hdac3 recruitment on somatic developmental genes by Blimp1 and their repression is essential for mouse primordial germ cell fate determination.
Blimp1によるHdac3の体細胞発生遺伝子群へのリクルートメントとそれらの発現抑制は、マウス始原生殖細胞の運命決定に必須である。

Kentaro Mochizuki (IDAC, Tohoku Univ., AMED-CREST)

P180: Cell cluster formation by ribosome is reproducible with medaka cells
リボソームによるメダカ細胞での細胞塊形成の再現

Yuichi Goto (Uto Senior High School)

P181:
(OP08-07)
 
New categorization of planarian stem cell population based on possible stem cell niche
予想される幹細胞ニッチをもとにしたプラナリア幹細胞集団の新しい区分

Yuki Sato (Grad. School of Science, Gakushuin Univ., Dep. of Biophys, Grad school of Science, Kyoto Univ.)

P182:
(SW-6)
 
Harnessing the CRISPR/Cas9 system in mouse genetic engineering @ LARGE, RIKEN-Kobe
神戸RIKEN LARGEでのCIRSPR/Cas9システムを用いた遺伝子改変マウス作製の試み

Takaya Abe (GET, RIKEN CLST)

P183:
(OP07-03)
 
Integrative analysis of transcription factor occupancy at tissue-specific enhancers and disease risk loci in non-coding genomic regions
Non-coding ゲノム領域における組織特異的エンハンサーおよび疾患関連 SNP に結合する転写因子の統合的解析

Shinya Oki (Grad. Sch Med. Sci., Kyushu Univ.)

P184:
(OP07-01)
 
Regulatory sequence evolution during the fin-to-limb transformation
鰭から四肢への形態変化における遺伝子制御配列の進化

Koh Onimaru (CLST)

P185:
(S04-4)
 
In vivo targeted single-base editing in zebrafish
ゼブラフィッシュ生体内における標的化塩基の編集

Shingo Tanaka (Graduate school of Biostudies, Kyoto Univ.)

P186: The tissue-clearing method, CUBIC, is useful for chicken embryos
CUBIC試薬を用いたニワトリ胚の透明化

Yuta Takase (Department of Zoology, Graduate School of Science, Kyoto University)

P187:
(OP01-06)
 
Effects of sizes of self-organized patterns composed by vascular endothelial cells on vasculogenesis.
脈管形成において血管内皮細胞が自律的に形成するパターンサイズの影響

Akiko Nakamasu (Grad. Sch. Med. Sci., Kyushu Univ.)

P188: Inference of Gene Regulatory Networks from Expression Data
Prabhat Shankar (RIKEN QBiC)

P189: Mathematical Modeling for Meshwork Formation of Endothelial Cells in Fibrin Gels
フィブリンゲル内における血管内皮細胞メッシュワーク形成の数理モデル

Daiki Sasaki (Kyushu Univeristy)

P190: Automated cell shape extraction in C. elegans embryonic development
線虫C. elegans の胚発生における細胞形状の自動検出

Yusuke Azuma (RIKEN QBiC)

P191: Mathematical model of epithelial buckling for single- and multi-step processes of the intestinal villus formation
上皮座屈の数理モデル:マウスとトリの小腸絨毛形成過程

Hisako Takigawa-Imamura (Dept. Anat. Cell Biol., Grad. Sch. Med., Kyushu Univ.)

P192: 3D analysis of zebrafish somite morphogenesis
ゼブラフィッシュ体節形態形成の3次元解析

Yue Tong (Dept. of Biol. Sci., Univ. Tokyo)

P193:
(OP01-10)
 
Imaging of the kinetics of transcription factors in pluripotent stem cells
幹細胞核内におけるコア転写因子の一分子イメージング

Kazuko Okamto (RIKEN QBiC Comprehensive Bioimaging Laboratory)

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