Program

Schedule

Plenary	Symposium	Public lecture (in Japanese)

Poster	Hot topics + Satellite Workshops (in Japanese)	Equipment exhibition

Venue: Shiran Kaikan & Kyodai Kaikan & Kyoto International Community House (6/20, 2010)

June 20 (sun)

Shiran Kaikan

	14:00~15:00	15:00~18:00
Inamori Hall	Set-up	Hot topics + Satellite Workshops (in Japanese)
Yamauchi Hall	Set-up	Hot topics + Satellite Workshops (in Japanese)

Kyodai Kaikan

Room 101		Set-up	Hot topics + Satellite Workshops (in Japanese)
Room 210		Set-up	Hot topics + Satellite Workshops (in Japanese)

Kyoto International community House

		14:00~17:00
Event Hall		Public lectures (in Japanese)

Venue: Kyoto International Conference Center (6/21 - 23, 2010)

June 21 (Mon)

	9:00~12:00	12:15~13:30	13:45~16：45	16:45~ 19:00
Room A	Gamete stem cells	Luncheon 1 (in Japanese) (12:15~13:15)	Cellular mechanics in embryogenesis
Room B-1	EcoEvoDevo & comparative genomics		Spreading iPS research
Room B-2	Developmental timing and growth control: Hormones, microRNAs and beyond	Gender-equal society (in Japanese)	Hot topics 1
Annex Hall	Posters			Discussion time
Annex Hall	Exhibition (Equipment & books)

June 22 (Tue)

	9:15~11:15	11:45~ 13:15	13:45~16:45	16:45~ 18:45	19:00~ 21:00
Room A	Plenary Lectures Prof. Roel Nusse (Stanford Univ.) Prof. Eric Wieschaus (Princeton Univ.)	Publication workshop (in English)	Nuclear reprogramming: From germline to cloned animals
Room B-1	Plenary Lectures (by Video)	General assembly (in Japanese) (11:45~13:00)	Quantitative biology of spatiotemporal dynamics in development
Room B-2			Regulatory genetic network controlling cellular dynamics and organ morphogenesis
Annex Hall	Posters			Discussion time
Annex Hall	Exhibition (Equipment & books)
Swan Banquet Hall					Reception

June 23 (Wed)

	9:00~12:00	12:15~13:15	13:45~16:45
Room A	Organelle dynamics and functions during development	Luncheon 2 (in Japanese)	Toward acquisition of brain function
Room B-1	After Turing: Towards novel mathematical modeling of biological forms	Luncheon 3 (in Japanese)	Organogenesis: Diseases and their models
Room B-2	Regeneration: From model animals to human tissue engineering	Luncheon 4 (in Japanese)	Hot topics 2
Annex Hall	Exhibition (Equipment & books)

Program

Plenary Lectures

Symposia
・Symposium 1:	Gamete stem cells
・Symposium 2:	EcoEvoDevo & comparative genomics
・Symposium 3:	Developmental timing and growth control: Hormones, microRNAs and beyond
・Symposium 4:	Cellular mechanics in embryogenesis
・Symposium 5:	Spreading iPS research
・Symposium 6:	Nuclear reprogramming: From germline to cloned animals
・Symposium 7:	Quantitative biology of spatiotemporal dynamics in development
・Symposium 8:	Regulatory genetic network controlling cellular dynamics and organ morphogenesis
・Symposium 9:	Organelle dynamics and functions during development
・Symposium 10:	After Turing: Towards novel mathematical modeling of biological forms
・Symposium 11:	From model animals to human tissue engineering
・Symposium 12:	Toward acquisition of brain function
・Symposium 13:	Organogenesis: Diseases and their models

Hot topics + Satellite Workshops
・Hot topics 1:
・Hot topics 2:
・Satellite Workshops 1: Morphogenesis: Growth and patterning
・Satellite Workshops 2: Stem cells, germ cells, and epigenetics
・Satellite Workshops 3: Neural development, EcoEvoDevo, and technical advances
・Satellite Workshops 4: Xenopus

Poster

June 20 (Sun), 2010


	若手ワークショップ:Satellite Workshop (in Japanese)

	市民公開講座:Public lectures (in Japanese)
	Prof. Masatoshi Takeichi (RIKEN, CDB) Prof. Hiroki Ueda (RIKEN, CDB) Prof. Kiyokazu Agata (Kyoto Univ.)

June 21 (Mon) - June 23 (Wed), 2010

Plenary Lectures, Symposiums, Poster Sessions and others.
Chairperson: Tadashi Uemura (Kyoto Univ.)
Official language: English

Plenary Lectures

June 22 (Tue) 9:15-11:15 Room A
Plenary Lectures Chairpersons: Hitoshi Sawa(RIKEN CDB), Yasushi Hiromi(NIG)

PL-01: 09:15-10:15	Wnt signals during stem cell self-renewal and tissue repair Roel Nusse (Department of Developmental Biology and Howard Hughes Medical Institute, Stanford University, School of Medicine)

PL-02: 10:15-11:15	The mechanics of shape change in the Drosophila embryo Eric F. Wieschaus (HHMI, Department of Molecular Biology, Princeton University)
▲ Go to top

Symposia

June 21 (Mon) 9:00～12:00 Room A
Symposium 1: Gamete stem cells
Chairpersons:	Shosei Yoshida (NIBB), Satoru Kobayashi (NIBB) Production of gametes, i.e., eggs and sperms, is essential for the continuity of life. In this symposium, impacts of recent advance for this issue will be discussed by scientists, who have a wide variety of unique views and investigate a wide variety of animal species. These include establishment of germ line, sex differentiation, gamete stem cells, and their regulation. Their scope also ranges from basic research to application.

S01-01: 09:00-09:30	Germ cell specification in mammals in vivo and in vitro 哺乳類生殖系列の形成機構 Mitinori Saitou (Kyoto Univ.)

S01-02: 09:30-10:00	Notch and Egfr signaling act antagonistically to regulate germline stem cell niche formation in Drosophila male embryonic gonads ショウジョウバエ雄胚生殖巣におけるNotchおよびEgfrによる配偶子幹細胞ニッチ形成の制御 Satoru Kobayashi (NIBB)

S01-03: 10:00-10:30	Sex fate determination in mouse fetal germ cells Peter Koopman (Institute for Molecular Bioscience, The University of Queensland)

S01-04: 10:30-11:00	Hierarchy and reversibility within the mouse spermatogenic stem cell system マウス精子形成にみられる幹細胞システムの階層性と可逆性 Shosei Yoshida (Div. Germ Cell Biol., NIBB, NINS, Dept. Basic Biol., SOKENDAI)

S01-05: 11:00-11:30	Functions of NANOS2 in the maintenance and differentiation of male germ lineage in mice 雄性生殖細胞の分化と維持におけるNanos2の機能 Yumiko Saga (NIG)

S01-06: 11:30-12:00	Xenotransplantation of fish spermatogonia: Can salmon make trout? 魚類の異種間精原細胞移植：サケはマスを生むか？ Goro Yoshizaki (TUMSAT)
▲ Go to top

June 21 (Mon) 9:00～12:00 Room B-1
Symposium 2: EcoEvoDevo & comparative genomics
Chairpersons:	Hajime Ogino (NAIST), Hiroki Oda (JT Biohistory Research Hall) The recent progress of genome biology is opening a new frontier, where ecological biology, evolutionary biology and developmental biology (EcoEvoDevo) meet. We have started to realize that there are considerable genomic differences between species but little is understood about the significance of such differences in terms of EcoEvoDevo. We expect to discover key genomic differences that will help us to understand the universal mechanisms of biodiversity evolution in the natural world. In this symposium we invite scientists who are exploring this new field using unique strategies and experimental systems.

S02-01: 09:00-09:30	On the evolution of insect wings Ls Shashidhara (IISER)

S02-02: 09:30-09:55	Contrasting mechanisms of axis formation in the phylum Arthropoda: Rapid versus slow development 節足動物門における体軸形成のための異なる仕組み Hiroki Oda (JT BRH)

S02-03: 09:55-10:15	The development of epidermal sensory neurons in cephalochordate amphioxus: tracing the evolution of chordate peripheral nervous system Jr-Kai Sky Yu (ICOB, IONTU)

S02-04: 10:15-10:40	Evolution of cis-regulatory mechanisms in paralog formation パラログ形成にともなうシス調節機構の進化 Hajime Ogino (NAIST)

S02-05: 10:40-11:10	Icefish and Osteoporosis: The evolution of skeletal reduction as Antarctica cooled. John H. Postlethwait (Institute of Neuroscience, University of Oregon)

S02-06: 11:10-11:30	Ecological genetics in stickleback fishes: genetic mechanisms of adaptive evolution and speciation トゲウオ科魚類における生態遺伝学：適応進化と種分化の遺伝機構 Jun Kitano (Tohoku University)

S02-07: 11:30-12:00	Evolution of the gastrula organizer of vertebrates and its transcriptional regulatory networks 脊椎動物原腸胚オーガナイザーと転写制御ネットワークの進化 Masanori Taira (Dept.of Biol.Scis., Grad.Sch.of Sci., Univ.of Tokyo)
▲ Go to top

June 21 (Mon) 9:00～12:00 Room B-2
Symposium 3: Developmental timing and growth control: Hormones, microRNAs and beyond
Chairpersons:	Ryusuke Niwa (Univ. of Tsukuba), Hiroshi Kawasaki (Univ. of Tokyo) The precise regulation of the timing of developmental processes is extremely important for generating coordinated morphological output. Despite the importance of developmental timing regulation, the mechanisms responsible for it often remain unresolved. In other words, it is unclear what mechanisms are responsible for regulating developmental processes at appropriate and specific time points. In this symposium we invited scientists working on developmental timing regulation using a variety of model animals from C. elegans to vertebrates. We will especially focus on the following two points; 1) the coordination of developmental timing and growth, and 2) extrinsic and intrinsic factors involved in developmental timing regulation such as endocrine hormones and microRNAs.

S03-01: 09:00-09:25	Steroid hormone, cholesterol, and growth control: lesson from the neverland family of proteins ステロイドホルモン、コレステロール、そして成長制御：neverland遺伝子の解析を通じて Ryusuke Niwa (Graduate School of Life and Environmental Sciences, University of Tsukuba)

S03-02: 09:25-09:50	Functions of IGF-like peptides in the regulation of post-feeding growth in insects Naoki Okamoto (Division of Biological Science, Graduate School of Science, Nagoya University, RIKEN Kobe Institute Center for Developmental Biology)

S03-03: 09:50-10:15	Molecular dissection of juvenile hormone signaling in insects and its practical application 昆虫における幼若ホルモンのシグナリング分子の解析とその応用 Tetsuro Shinoda (NIAS)

S03-04: 10:15-10:40	*Temporal regulation of axon elongation in a C. elegans* motor neuron** Katherine Olsson-Carter (Yale)

S03-05: 10:40-11:10	Analyses of temporal and spatial miRNA-target interactions and roles of branched-chain fatty acids during C. elegans development Min Han (HHMI and University of Colorado)

S03-06: 11:10-11:30	Developmental timing of sensory map formation in the mammalian cerebral cortex is regulated by birth. 哺乳類大脳皮質における感覚マップ形成のタイミング制御 Hiroshi Kawasaki (Grad Sch of Med, Univ of Tokyo, Global COE)

S03-07: 11:30-12:00	Steroidal regulation of sexual differentiation of kisspeptin neurons in the developing rat brain responsible for sex difference in gonadotropin release 性腺刺激ホルモンの性差をもたらすキスペプチンニューロンの性分化メカニズム Hiroko Tsukamura (Nagoya Univ)
▲ Go to top

June 21 (Mon) 13:45～16:45 Room A
Symposium 4: Cellular mechanics in embryogenesis
Chairpersons:	Naoto Ueno (NIBB), Toshihiko Ogura (IDAC) During embryogenesis and organogenesis, cells undergo dynamic changes in morphology and in motility. In addition to cell division and cell differentiation, these cell properties have been extensively studied in vitro focusing mainly on gene expression and cytoskeltal rearrangement. More recently, however, physical environments have been shown to play essential roles in the regulation of cell differentiation, cell shape and tissue morphogenesis during development. In this symposium, speakers will discuss how intracellular and extracellular physical environments impact on cell morphology and cell behavior and how cells can sense external forces and interprete them to various intracellualr processes.

S04-01: 13:45-14:15	Exploration of Cell Mechanotransduction: Identification of the Src Family Kinase Substrate p130Cas as a Cytoskeletal Mechano-Sensor and a Possible Role of Non-Globular Domains in Mechano-Sensing 細胞のメカニカルストレス応答機構の解明:新規メカノセンサーの同定とその構造上の特徴 Yasuhiro Sawada (NUS)

S04-02: 14:15-14:45	Physical forces generated by cells, sensed by cells. 生命現象を力で再解釈する Toshihiko Ogura (IDAC)

S04-03: 14:45-15:15	Modeling of Osteocyte Mechanosensing and Communication in Bone Adaptation Taiji Adachi (Department of Mechanical Engineering and Science Kyoto University)

S04-04: (P-203) 15:30-15:45	Interaction of Bbs8 with the core PCP protein Vangl2 is required to establish left-right asymmetry in zebrafish Bbs8とVangl2の協調的な働きがゼブラフィッシュの左右比対称性の決定に必要である Masatake Kai (NIBB, UCL)

S04-05: 15:45-16:15	Regulation of Hippo signaling pathway by cell shape and F-actin 細胞形態とFアクチンによるHippoシグナルの制御 Hiroshi Sasaki (RIKEN CDB)

S04-06: 16:15-16:45	Notochord formation in Xenopus:establishment of cell polarity by a tissue-tissue interaction アフリカツメガエルの脊索形成：組織間相互作用による細胞極性形成 Naoto Ueno (NIBB)
▲ Go to top

June 21 (Mon) 13:45～16:45 Room B-1
Symposium 5: Spreading iPS research
Chairperson:	Shinichi Nishikawa (Riken CDB) What is attained by iPS is shuttling of epigenetic states between somatic cells and pluripotent cells. This is a situation that has never been thought of. At this moment, what has been implicated for the potential of iPS is not so special as that anyone can think of. However, its potential is enormous and many new areas are moving under the surface. In this symposium, I would like to show up such new movements representing spreading iPS research.

S05-01: 13:45-14:15	Strategies toward CNS-Regeneration using iPS cell technology Hideyuki Okano (Keio University School of Medcine)

S05-02: 14:15-14:45	Variation in the quality of induced pluripotent stem cells 人工多能性幹細胞における質の多様性 Takashi Aoi (CiRA)

S05-03: 14:45-15:15	Highly efficient generation of transgene-free iPS cells using temperature sensitive Sendai virus RNA vectors. 染色体非組込型・温度感受性センダイウイルスベクターを用いた高効率な外来因子フリーiPS作製 Noemi Fusaki (DNAVEC, JST, PRESTO)

S05-04: 15:15-15:45	Retinal regenerative therapy for retinal degenerative diseases Michiko Mandai (RIKEN CDB)

S05-05: 15:45-16:15	Superimposing neuroblastoma pathogenesis and iPS reprogramming 神経芽腫の病態生理とiPSリプログラミングに迫る ken-ichiro kobayashi (RIKEN CDB)

S05-06: 16:15-16:45	Induction of functional hepatocytes from fibroblasts by defined factors 特定因子による繊維芽細胞からの機能性肝細胞誘導 Atsushi Suzuki (MIB, Kyushu University, PRESTO)
▲ Go to top

June 22 (Tue) 13:45～16:45 Room A
Symposium 6: Nuclear reprogramming: From germline to cloned animals
Chairpersons:	Hiroyuki Sasaki (Kyusyu Univ.), Takashi Tada (Kyoto Univ.) Toti/pluri/multi-lineage differentiaion potency is confered on uni-potent somatic cells by the nucler reprogramming through in vivo germ cell developoment, nuclear tranplantation, cell fusion or transient expression of exogenous defined factors. Recent successful generation of induced pluripotent stem (iPS) cells could open a new era in not only regenerative medicine but also biology and pharmacology. Howerver, molecular mechanism involved in the reprogramming is largly in a blackbox. In this session, thoughtful speakers are going to provide exciting findings of "germline to cloned animals" on points of view, nuclear reprogramming.

S06-01: 13:45-14:10	Role for Piwi-interacting RNA and a novel noncoding RNA in de novo DNA methylation of the imprinted mouse Rasgrf1 locus in the germline マウス生殖細胞におけるRasgrf1遺伝子のインプリンティングはpiRNAと非コードRNAに依存する Hiroyuki Sasaki (MIBR)

S06-02: 14:10-14:35	Simple test for evaluation the safeness of human induced Pluripotent Stem cells ヒトiPS細胞の安全性評価に対する取り組み Kazutoshi Takahashi (CiRA, Kyoto Univ.)

S06-03: 14:35-15:00	Dissecting the role of signalling inhibition during the induction of pluripotency Jose Silva (WTCSCR)

S06-04: 15:00-15:25	Production of cloned mice from not live cell nuclei 死滅した細胞の核からクローン個体を作出 Teruhiko Wakayama (RIKEN CDB)

S06-05: 15:25-15:50	Reprogramming-susceptible somatic cells and reprogramming-optimized Sox2 expression リプログラミングされる体細胞とする因子の条件 Takashi Tada (Stem Cell Engieer., IFMS, Kyoto Univ., Stem Cell Engineer., IFMS, Kyoto Univ., JST, CREST)

S06-06: 15:50-16:15	Dynamics of transcription factor network governing pluripotency 多能性を規定する転写因子ネットワークの動態 Hitoshi Niwa (Lab Pluripotent Cell Studies, RIKEN CDB)

S06-07: 16:15-16:40	Mechanisms underlying transcription factor-induced reprogramming to the iPS cell state Kathrin Plath (UCLA)
▲ Go to top

June 22 (Tue) 13:45～16:45 Room B-1
Symposium 7: Quantitative biology of spatiotemporal dynamics in development
Chairpersons:	Akatsuki Kimura (NIG), Toshihiko Fujimori (NIBB) Recent advances in imaging technologies have provided high spatial and tempral resolution data on dynamic events during development. A major challenge in the field is to extract quantitative information from the microscopic images and utilized them to understand principles behind. In this symposium, we invited speakers who present various approaches to quantitatively describe dynamic and complex morphological changes during development, and to construct quantitative models to explain and predict the dynamics.

S07-01: 13:45-14:05	Quantitative modeling of mitotic spindle in C. elegans embryos 線虫C. elegans胚における紡錘体形成の定量モデルの構築 Akatsuki Kimura (NIG, SOKENDAI)

S07-02: (P-110) 14:05-14:20	Mathematical analysis of localization mechanism of a morphogen source in Drosophila notum development ショウジョウバエ胸背板形成におけるモルフォゲンソース局在化メカニズムの数理的解析 Kenichi Hironaka (Kyushu Univ.)

S07-03: (P-115) 14:20-14:40	Modelling enteric neural crest cell migration Kerry Landman (UM)

S07-04: 14:40-15:10	Generating asymmetries for embryonic patterning 胚のパターニングにおいて非対称性を生じる機構 Hiroshi Hamada (Osaka University)

S07-05: 15:10-15:30	Patterns of the stress field and dynamics of morphogenesis in Drosophila epithelial tissues ショウジョウバエ上皮組織における応力場のパターンと形態形成のダイナミクス Kaoru Sugimura (RIKEN BSI)

S07-06: 15:30-16:00	in toto imaging of Drosophila embryonic morphogenesis Willy Supatto (Institut Jacques Monod, California Institute of Technology)

S07-07: 16:00-16:20	Quantification of Morphogen activity in the Developing chick limb bud 肢芽におけるモルフォゲンの活性を発光顕微鏡を用いて定量化する Takayuki Suzuki (IDAC, Tohoku University, Japan, JST PRESTO, Japan)

S07-08: 16:20-16:45	Adaptation and de-adaptation kinetics underlying the synchronized cAMP oscillations in Dictyostelium 細胞性粘菌の発生を支える適応と脱適応的なシグナリング Satoshi Sawai (Graduate School of Arts and Sciences, University of Tokyo, JST, ERATO Complex Systems Biology Project)
▲ Go to top

June 22 (Tue) 13:45～16:45 Room B-2
Symposium 8: Regulatory genetic network controlling cellular dynamics and organ morphogenesis
Chairpersons:	King Chow (Hong Kong Univ. of Science and Technology), Kwang-Wook Choi (Korea Advanced Institute of Science and Technology, KAIST) Embryonic development in animals requires a precise coordination of cellular proliferation and differentiation states. The processes act through signaling molecules that orchestrate the cell-tissue functions, their physiological homeostasis and morphogenetic execution. A myriad of transcription factors and cellular molecules act in a genetic network in these differentiating cells, and their biological activities are often interrogated by classical genetics and large scale analyses. In this symposium, we have assembled representative scientists of the Asia Pacific Regions to provide a sampler of developmental biology research activities there. The talks will highlight an integrative approach taken to uncover the molecular regulatory conrol of these genetic networks guiding key developmental events.

S08-01: 13:45-14:10	Kinesin-II function in cell polarity and retinal morphogenesis in Drosophila Kwang-Wook Choi (KAIST)

S08-02: 14:10-14:35	*Transcriptional network in the ray structural cell guides sensory organ assembly in C. elegans* males.** King L. Chow (HKUST)

S08-03: 14:35-15:00	Growth factor signalling pathways in lung development David Ornitz (Washington University School of Medicine, Department of Developmental Biology)

S08-04: 15:00-15:20	Mechanism and evolution of cytosolic Hedgehog signal transduction Pao-Tien Chuang (Cardiovascular Research Institute (CVRI) at the University of California, San Francisco)

S08-05: 15:20-15:40	Alleviating ER stress in chondrocytes: survival strategies with double-edged developmental consequences Kathryn SE Cheah (Department of Biochemistry, University of Hong Kong)

S08-06: 15:40-16:00	Insights into Endoderm Gene Regulatory Networks and evolutionary conservation Chiou-Hwa Yuh (NHRI, NTHU, NCTU)

S08-07:	Cancelled ()

S08-08: (P-345) 16:00-16:20	Conserved roles of asrij in stem cell pluripotency and hematopoiesis. Maneesha Inamdar (JNCASR)

S08-09: (P-180) 16:20-16:40	Dorsal axis formation by maternal squint is mediated by a non-coding function of the RNA Shimin Lim (TLL, Singapore)
▲ Go to top

June 23 (Wed) 9:00～12:00 Room A
Symposium 9: Organelle dynamics and functions during development
Chairpersons:	Shigeo Hayashi (Riken CDB), Noboru Mizushima (Tokyo Medical and Dental Univ.) Recent advance in cell biology has began revealing that the roles of intracellular organelles are not only limited to the steady state production and processing of biological materials, but also to biogenesis of key signaling activities required for intra- and intercellular communication. Organelles also play key roles in controlling morphogenesis of specialized shapes of cells. In this symposium we invite scientists from a varieties of fields to discuss new aspects of organelles as organizers of developmental functions.

S09-01: 09:00-09:30	The Role of autophagy during early embryogenesis and spermatogenesis in mice オートファジーの初期胚発生と精子形成における役割 Satoshi Tsukamoto (NIRS)

S09-02: 09:30-10:00	The maternal nucleolus function in early embryonic development 母方由来の核小体の役割 Sugako Ogushi (RIKEN CDB)

S09-03: 10:00-10:30	Milton/dMiro mediated morphogenesis of giant mitochondria shapes extremely long sperm tails of Drosophila. ショウジョウバエの極度に長い精子形態はMiltonを介した巨大ミトコンドリアの伸長により決定される。 Tatsuhiko Noguchi (Riken CDB)

S09-04: 10:30-11:00	The role of the V-ATPase in endocytic trafficking and Notch signaling. Trudi Schupbach (HHMI/Princeton University)

S09-05: 11:00-11:30	Roles of Membrane Traffic in Plant Development and Morphogenesis Akihiko Nakano (Molecular Membrane Biology Laboratory, RIKEN Advanced Science Institute, Laboratory of Developmental Cell Biology, Department of Biological Sciences, Graduate School of Science, The University of Tokyo)

S09-06: 11:30-12:00	Growth control by the Fat-Hippo pathway in Drosophila Ken Irvine (Rutgers)
▲ Go to top

June 23 (Wed) 9:00～12:00 Room B-1
Symposium 10: After Turing: Towards novel mathematical modeling of biological forms
Chairpersons:	Shigeru Kondo (Osaka Univ.), Takashi Miura (Kyoto Univ.) Application of the Turing model to biological systems is one of the major trends in modeling biological phenomena. In the field of applied mathematics, spontaneous pattern formation is vigorously studied and the results have been very influential for mathematical biologists. However, the term "pattern formation" has a relatively narrow meaning in nonlinear math or nonequilibrium physics and represents only a small part of the biological morphogenetic process. Mathematics can extract the essence of the mechanism of pattern formation in biological phenomena, but it tends to obscure important biological phenomena that do not fit the model. This symposium promotes studies which pursue goals different from those of classic "pattern formation" and aims to consider the future landscape of this field.

S10-01: 09:00-09:30	Turing model, a framework for explaining biological pattern formation 形態形成の一般的な原理としてのTuring波 Shigeru Kondo (FBS)

S10-02: 09:30-10:00	Constructive role of noise in the self-organized pattern formation of social amoeba 社会性アメーバの自己組織的パターン形成におけるノイズの積極的な役割 Kazuki Horikawa (REIS, PREST, JST)

S10-03: 10:00-10:30	Auxin-transport-driven regulation of leaf arrangement and form Przemyslaw Prusinkiewicz (Department of Computer Science, University of Calgary)

S10-04: 10:30-11:00	Self-organizing models of vertebrate limb skeletal pattern formation. James Sharpe (EMBL-CRG Systems Biology Unit)

S10-05: 11:00-11:30	Modeling Morphogenesis in Development 発生における形態形成の数理モデル Yoh Iwasa (Kyushu Univ)

S10-06: 11:30-12:00	An equation of motion for cell-based morphogenesis 細胞が行う形態形成のための運動方程式 Hisao Honda (Health Sci., Hyogo Univ.)
▲ Go to top

June 23 (Wed) 9:00～12:00 Room B-2
Symposium 11: Regeneration: From model animals to human tissue engineering
Chairpersons:	Koji Tamura (Tohoku Univ.), Chisa Shukunami (Kyoto Univ.) Recent progress in stem cell biology has created much enthusiasm and has given us hope for repair of many kinds of tissues and organs. With this progress, studies on embryonic development and regeneration in animal model systems aiming at organ regeneration are again attracting much attention and are expected to become a popular trend in which applied medical science will proceed. To gain insights by combining basic and applied sciences for regeneration, scientists working in a wide variety of fields on regeneration (from model systems such as fish, amphibian and mammal to tissue engineering) have been invited to this symposium. We will discuss the current trends and future prospects of regenerative biology.

S11-01: 09:05-09:35	Strategy and future prospect of regenerative medicine for the human heart Keiichi Fukuda (Department of Cardiology, Keio University)

S11-02: 09:35-10:05	Muscle growth and regeneration in zebrafish models of muscle disease. Peter Currie (ARMI)

S11-03: 10:05-10:35	Coordination of chondrogenesis and osteogenesis in endochondral bone development 軟骨内骨化における軟骨形成と骨形成の協調 Ung-il (Yuichi) Chung (Tei) (UT)

S11-04: 10:35-11:05	The inflammatory response during embryonic wound healing Enrique Amaya (University of Manchetser)

S11-05: (P-353) 11:05-11:25	Reprogramming of pancreatic acinar cells to multipotent progenitor cells CHIA-NING Shen (GRC)

S11-06: 11:25-11:55	Guiding ES cells to differentiate into pancreatic beta cells ES/iPS細胞から膵細胞系譜への分化誘導 Shoen Kume (IMEG, Kumamoto Univ.)
▲ Go to top

June 23 (Wed) 13:45～16:45 Room A
Symposium 12: Toward acquisition of brain function
Chairpersons:	Fumio Matsuzaki (Riken CDB), Hitoshi Okamoto (RIKEN BSI) It is well known that both genetic programs and neuronal activities contribute to the design of neural circuits during brain development. Recent progress in developmental biology and stem cell biology is dramatically renewing our views on tissue development and homeostasis. This symposium is originally intended as an opportunity to update fundamental concepts on the relationship between development and function of the brain.

S12-01: (P-330) 13:45-14:00	Ovol2 regulates cell fate decision between neuroectoderm and mesendoderm in ES cells and chick embryos Ting Zhang (SIBCB)

S12-02: 14:00-14:30	Understanding the brain composition from the viewpoint of cell lineage 細胞系譜の観点から理解する脳の構成原理 Kei Ito (IMCB, Univ. Tokyo)

S12-03: 14:30-15:00	Function of the SMN gene in keeping cell bodies of motor neurons in the spinal cord. E. Krull Catherine (University of Michigan)

S12-04: 15:00-15:30	From stem cells to cortical networks. Pierre Vanderhaeghen (IRIBHM, université libre de bruxelles)

S12-05: (P-233) 15:30-15:45	Prox1 defines dentate granule cells by transforming CA3 pyramidal neurons in the hippocampus Prox1は海馬CA3錐体細胞から歯状回顆粒細胞への分化転換とその細胞運命維持に機能している。 Tomohiko Iwano (RIKEN CDB)

S12-06: 15:45-16:15	Regulations and functions of adult neurogenesis 成体ニューロン新生の調節とその生理的役割 Tatsuhiro Hisatsune (Dept Integrated Biosciences, Univ Tokyo)

S12-07: 16:15-16:45	zebrafish as a model animal to study fear 恐怖制御の仕組みを探るモデル実験動物としてのゼブラフィッシュ Hitoshi Okamoto (RIKEN BSI)
▲ Go to top

June 23 (Wed) 13:45～16:45 Room B-1
Symposium 13: Organogenesis: Diseases and their models
Chairpersons:	Atsuo Kawahara (National Cardiovascular Center Research Institute), Shinji Takada (Okazaki Institute for Integrative Biosciences) Organogenesis is established by the functional coordination of signaling pathways and transcriptional regulation. Since the impairment of organ function leads to diseases, it is important to clarify how key regulators contribute to the physiological function and the formation of an organ. Recent in vivo analyses using vertebrate model organisms, including mouse, chick and zebrafish, have greatly enhanced our understanding of functional relationship between organogenesis and diseases. In this symposium, we will present novel developmental functions of key regulators in organogenesis.

S13-01: 13:45-14:15	FGF signaling and Heparan Sulfate Proteoglycan “Glycocode” converge at cilia formation and function in the development of diverse epithelia. H. Joseph Yost (University of Utah)

S13-02: 14:15-14:45	Versatile function of sFRPs in development and disease Thomas N Sato (NAIST)

S13-03: 14:45-15:15	Arterial Patterning and Remodeling by Repulsive Paracrine Signals Takashi Mikawa (CVRI, UCSF)

S13-04: 15:15-15:45	Ripply3, a Tbx1 modulator, is required for the pharyngeal apparatus and cardiovascular development Tadashi Okubo (Okazaki Institute for Integrative Bioscience, NINS)

S13-05: 15:45-16:15	Epigenetic signal pathway controls cardiac hypertrophic signaling by modulating fetal gene programs JUN K. Takeuchi (Cardio Reg. IMCB., U of Tokyo)

S13-06: 16:15-16:45	Role of sphingosine-1-phosphate (S1P) signaling during zebrafish embryogenesis スフィンゴシン-1-リン酸(S1P)シグナル伝達の初期発生における役割 Atsuo Kawahara (NCVC Japan)
▲ Go to top

Hot topics + Satellite Workshops

June 21(Mon) 13:45-16:45 RoomB-2
Hot topics 1
Chairpersons:	MATSUO ISAO, TSUDA LEO

HT1-01: 13:45-14:15	FGF signaling regulates otic placode induction and refinement by controlling both ectodermal target genes and hindbrain Wnt8a Suzanne L. Mansour (Departments of Human Genetics, University of Utah)

HT1-02: (P-219) 14:15-14:30	Wnt and FGF signals via MAPK and pAKT regulate development and differentiation of the trigeminal placodes Claire Canning (IMB)

HT1-03: (P-009) 14:30-14:45	Specific expression of heparan sulfate glycosaminoglycan chains is crucial for local distribution of FGF signaling during mammalian embryogenesis ほ乳動物胚発生において、ヘパラン硫酸鎖の特異的発現が、FGFシグナルの局所的分布を制御する Isao Matsuo (Osaka Medical Center and Research Institute for Maternal and Child Health, Graduate School of Medicine, Osaka University)

HT1-04: (P-069) 14:45-15:00	A top-down approach to identify Fgf signaling connecting ectoderm gene regulatory networks in the sea urchin embryo Yi-Hsien Su (ICOB, Academia Sinica)

HT1-05: (P-129) 15:00-15:15	Wallenda regulates JNK-mediated cell death and migration in Drosophila Xianjue Ma (SKLSDSLST)

HT1-06: (P-173) 15:15-15:30	Two cell-surface proteins Dally-like and Ihog differentially regulate Hh signalling strength and range during development Xinhua Lin (Institute of Zoology, Chinese Academy of Sciences, Beijing, Division of Developmental Biology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA)

HT1-07: (P-028) 15:30-15:45	The ubiquitin system regulates PCP protein localizations in Xenopus embryonic cells アフリカツメガエル胚細胞においてユビキチンシステムがPCPタンパク質の局在を制御する Noriyuki Kinoshita (NIBB)

HT1-08: (P-144) 15:45-16:00	Ebi, a Drosophila homologue of TBL1, modulates target site recruitment of PRC1 complex of PcG 核内因子Ebiによるポリコーム複合体の機能調節機構 Leo Tsuda (NILS)

HT1-09: (P-228) 16:00-16:15	A Wnt-Frz/Ror-Dsh pathway regulates neurite outgrowth in C. elegans Song Song (IGDB, CAS, GUCAS)

HT1-10: (P-281) 16:15-16:30	Ankrd17 is an essential regulator for vascular smooth muscle cell differentiation program to maintain the vascular integrity Yu-Ting Yan (IBMS, Academia Sinica)

HT1-11: (P-350) 16:30-16:45	Stem cell therapy to treat Hirschsprung’s disease: in vivo studies using a post-natal mouse model Donald Newgreen (MCRI)
▲ Go to top

June 23(Wed) 13:45-16:45 RoomB-2
Hot topics 2
Chairpersons:	Masanori Taira, Yumiko Saga

HT2-01: 13:45-14:15	Developmental Roles of Dchs1-Fat4 signaling in mice Philippa Francis-West (KCL, UK)

HT2-02: (P-249) 14:15-14:30	Hoxb1 cooperates with Gli to mediate sonic hedgehog signaling in the neurogenesis of hindbrain Wang Xingan (HKU)

HT2-03: (P-208) 14:30-14:45	Identification of a novel ubiquitin ligase regulating Dishevelled in Wnt signaling pathways Seong-Moon Cheong (POSTECH)

HT2-04: (P-014) 14:45-15:00	A non-canonical Notch cascade converges on mitochondria for the regulation of cell survival Lakshmi Revathi Perumalsamy (NCBS)

HT2-05: (P-324) 15:00-15:15	Cell-Substrate Interactions Dictate Heterogeneity of Mouse Embryonic Stem Cells 細胞-基質間相互作用がマウス胚性幹細胞の不均一性を規定する Tetsuya Tanaka (ASL, UIUC)

HT2-06: (P-073) 15:15-15:30	Specific microRNA regulations in early human retina development Hoi Kin Wong (O&G, CUHK)

HT2-07: (P-107) 15:30-15:45	Systems approach revealed novel myogenic transcriptional network regulated by Rp58 システムアプローチによる転写抑制因子Rp58を介した筋分化遺伝子ネットワークの解明 Hiroshi Asahara (Department of Systems BioMedicine)

HT2-08: (P-299) 15:45-16:00	Molecular Determinants of Drosophila Hematopoietic Precursors in Lymph Gland Development Mandal Lolitika (IISER(M))

HT2-09: (P-139) 16:00-16:15	Genome-wide analysis of Nodal target genes during zebrafish early gastrulation Qiang Wang (IOZ)

HT2-10: (P-305) 16:15-16:30	Hedgehog signaling is responsible for establishment of anterior-posterior polarity and tail development in planarian regeneration. プラナリアの再生における前後の極性決定と尾の再生 Shigenobu Yazawa (Dept Biophys, Kyoto Univ)

HT2-11: (P-268) 16:30-16:45	New transcription factors in early mouse eye development Ling Yin Tang (O&G, CUHK)
▲ Go to top

日時：6月20日（日）　午後3時から6時場所：芝蘭会館　稲盛ホール
Satellite Workshops 1: Morphogenesis: Growth and patterning
Chairpersons:	井垣達史, 布施直之

SW1-01: (P-189) 15:00-15:15	Involvement of Mitf in the retinal pigment epithelium development and its possible regulators 網膜色素上皮発生へのMitfの関与とその候補制御因子 Daisuke Nishihara (Grad. Sch. of Life Scis., Tohoku Univ.)

SW1-02: (P-174) 15:15-15:30	Nodal signaling controls left-right asymmetric ocellus formation in Ciona intestinalis Nodalシグナリングはカタユウレイボヤにおける左右非対称な眼点の形成を司る Keita Yoshida (Dept. Biol. Sci., Grad. Sch. Sci. Engi., Tokyo Metropolitan Univ.)

SW1-03: (P-156) 15:30-15:45	Neurula rotation determines left-right asymmetry in ascidian tadpole larvae マボヤにおける神経胚の回転と左右非対称性の形成 Kazuhiko Nishide (Dept of Biol Sci, Osaka Univ)

SW1-04: (P-030) 15:45-16:00	*Functions of a helix loop helix transcription factor, Extramacrochaetae, in development of left right asymmetry in the Drosophila* embryonic hindgut** Ryo Hatori (Department of Biological Science and Technology, Tokyo University of Science)

SW1-05: (P-045) 16:00-16:15	Different cellular behavior between the left and right heart rudiments controls the asymmetric heart looping 心臓の左右非対称形態形成における細胞挙動 Hinako Kidokoro (Dept. of Neurobiology & Anatomy, University of Utah)

SW1-06: (P-165) 16:15-16:30	Epithelialization and extension of tubular structures are regulated by interactions between neighboring tissues 生体内における上皮管組織の形成と伸長の制御機構 Yuji Atsuta (NAIST)

SW1-07: (P-274) 16:30-16:45	The functional role of collagen fibrillogenesis in tendons during establishment of the musculoskeletal system 運動器連結システムにおけるコラーゲン線維形成の機能解析 Yuki Sugimoto (Dept. of Cellular Diff., Inst. for Front. Med., Kyoto Univ.)

SW1-08: (P-265) 16:45-17:00	Epithelial cell-intrinsic Notch signaling is essential for maturation of GALT 腸管関連リンパ組織の成熟における上皮性Notchシグナルの役割 Yuuki Obata (RIKEN, RCAI)

SW1-09: (P-273) 17:00-17:15	Sizzled in the foregut restricts liver region into anterior intestinal portal in the chicken embryo. 前腸で発現するsizzledは肝臓領域を前腸門付近に制限する Yui Okayama (Dept. Biol., Tokyo Metropol. Univ.)

SW1-10: (P-042) 17:15-17:30	Metalloprotease-Dependent Onset of Blood Circulation In Zebrafish 胚発生における最初の血液循環はプロテアーゼによる細胞接着の解除を必要とする Atsuo Iida (IFMS, Kyoto University)

SW1-11: (P-172) 17:30-17:45	Exploring the Role of AP-1 family transcriptional factors on the Patterning of Limb Buds in Chicken Embryo ニワトリ胚の肢芽における AP-1 転写因子群の機能解析 Natsuno Suda (Tokyo Tech)

SW1-12: (P-128) 17:45-18:00	Nutrient stress affects polarized transport during Drosophila oogenesis ショウジョウバエ卵形成において栄養ストレスは極性輸送に影響を及ぼす Yuko Shimada (Grad. of Life and Environmental Sciences, Univ. of Tsukuba)
▲ Go to top

日時：6月20日（日）　午後3時から6時場所：芝蘭会館　山内ホール
Satellite Workshops 2: Stem cells, germ cells, and epigenetics
Chairpersons:	佐藤伸, 日下部岳広

SW2-01: (P-311) 15:00-15:15	Two different regenerations accomplish limb regeneration cooperatively ２つの異なる再生システムが協調して四肢再生を完遂する Akira Satoh (RCIS)

SW2-02: (P-340) 15:15-15:30	Collective migration of keratinocytes induced by EGF requires their proliferative capacity EGFによる角化細胞の遊走は増殖能を必要とする Daisuke Nanba (ProMRes, EPFL)

SW2-03: (P-347) 15:30-15:45	Role of Six1 in production of apical and basal progenitors during olfactory epithelial development 嗅上皮発生途上のプロジェニター細胞産生におけるSix1の役割 Keiko Ikeda (Biol. Jichi)

SW2-04: (P-094) 15:45-16:00	Gene expression and possible roles of protein families involved in biogenesis and functions of small RNAs in the nervous system of the ascidian Ciona intestinalis 小分子RNAの作用機序に関わるタンパク質ファミリーのホヤ神経系における発現様式と役割 Aoi Ichinose (Dep. Bio., Fac. Sci. Eng., Konan Univ.)

SW2-05: (P-321) 16:00-16:15	Studies on the mode of cell division during differentiation of archeocytes (pluripotent stem cells) in sponge, Ephydatia fluviatilis 最も起源的な幹細胞システム(カイメン幹細胞システム)における分裂様式の解析 Kazuko Okamoto (Dept.Biophys.Grad.Sch.Sci., Kyoto univ.)

SW2-06: (P-143) 16:15-16:30	The histone acetylation, methylation, H2A.z, and a linker histone H1 are involved in the maintenance of cell fates in C. elegans ヒストンアセチル化、メチル化及びH1、H2A.zはC. elegansの細胞運命の維持に関与する Yukimasa Shibata (RIKEN CDB)

SW2-07: (P-140) 16:30-16:45	DNA replication-dependent passive mechanism modulates genome-wide erasure of DNA methylation in primoridial germ cells 始原生殖細胞によるDNA複製依存的なDNA脱メチル化機構 Yoshiyuki Seki (Kwansei-Gakuin Univ.)

SW2-08: (P-119) 16:45-17:00	DNA demethylation regulates primordial germ cell-specific gene expression in mouse DNA脱メチル化はマウスにおいて始原生殖細胞特異的遺伝子発現を制御する Kentaro Mochizuki (Cell Resource Center for Biomedical Research, Institute of Development, Aging and Cancer, Tohoku University)

SW2-09: (P-058) 17:00-17:15	Role of DNA replication related factor (DREF) in Drosophila melanogastor bristles development キイロショウジョウバエの機械感覚毛の形成におけるdrefの役割について Akihito Kawamori (Dept. of Appl. Biol., Kyoto Inst. of Technol)

SW2-10: (P-106) 17:15-17:30	Ecdysone regulats gene amplification necessary for Drosophila development. エクダイソンはショウジョウバエ発生に必須な遺伝子増幅を制御する。 Hidetugu Kohzaki (IVR, Kyoto Univ.)

SW2-11: (P-336) 17:30-17:45	Origin of Anterior-Posterior axis formation in the mouse embryos マウス胚における前後軸の起源 Katsuyoshi Takaoka (Osaka university FBS)

SW2-12: (P-193) 17:45-18:00	Analysis of Dictyostelium prestalk-specific gene expression 細胞性粘菌の予定柄細胞特異的遺伝子発現の解析 Hiroshi Senoo (UGAS)
▲ Go to top

日時：6月20日（日）　午後3時から6時場所：京大会館　Room101
Satellite Workshops 3: Neural development, EcoEvoDevo, and technical advances
Chairpersons:	平田たつみ, 千原崇裕

SW3-01: (P-357) 15:00-15:15	A simple and highly efficient transgenesis method in mice with the Tol2 transposon system and cytoplasmic microinjection Tol2トランスポゾンシステムを用いた細胞質への注入によるシンプルで高効率な遺伝子導入マウス作製法 Kenta Sumiyama (NIG)

SW3-02: (P-360) 15:15-15:30	Targeted mutagenesis in the sea urchin embryo using zinc-finger nucleases ウニ胚におけるジンクフィンガーヌクレアーゼを利用した標的遺伝子への突然変異導入 Hiroshi Ochiai (JSPS DC2, Dept. of Math. and Life Sci., Grad. School of Sci., Hiroshima Univ.)

SW3-03: (P-083) 15:30-15:45	Microinjection and its applications for research of pattern formation in embryonic development of the spider Achaearanea tepidariorum オオヒメグモ胚における顕微注入法の確立とパターン形成の研究に向けたその応用 Masaki Kanayama (Osaka University)

SW3-04: (P-087) 15:45-16:00	Origin of endoskeleton in chordates: insights from hemichordates 脊索動物における内骨格の起源 Norio Miyamoto (Univ. Tsukuba)

SW3-05: (P-004) 16:00-16:15	Nemo-like kinase positively regulates Wnt signaling via phosphorylating Lef1 in developing midbrain tectum Nlkは形成過程の中脳視蓋においてLef1のリン酸化を介してWntシグナルを正に制御する Satoshi Ota (MIB, Kyushu University)

SW3-06: (P-024) 16:15-16:30	The adherens junction serves as a switch for neurogenesis 接着帯は神経分化のスイッチとして働く Jun Hatakeyama (IMEG, Kumamoto Univ.)

SW3-07: (P-091) 16:30-16:45	Conservation of developmental mechanisms in evolutionarily divergent brain structures 保存された発生メカニズムへの小さな変更による脳構造の進化 Ikuo Suzuki (Dept. Brain Function, NIG)

SW3-08: (P-040) 16:45-17:00	Regulation of neural migration and development by PTEN in the mouse retina マウス網膜発生におけるPTENの機能解析 Kiyo Sakagami (UCLA, JSEI)

SW3-09: (P-256) 17:00-17:15	Concentric zones, cell migrations and neuronal circuits in the Drosophila visual center 発生過程のショウジョウバエ視覚中枢を区画化する転写因子群の解析 Eri Hasegawa (FSO, Kanazawa Univ.)

SW3-10: (P-036) 17:15-17:30	Morphological origin and dynamic change of nascent primary dendrite on cortical plate neurons: cerebral cortex formation in situ 皮質板ニューロンに形成される一次樹状突起の形態的起源と動的変化：大脳皮質形成の実態 Akira Sakakibara (Nagoya Univ. Med.)

SW3-11: (P-117) 17:30-17:45	Comprehensive analysis of the neural network in Drosophila brain based on the neuroblast lineages 神経幹細胞の系譜に基づいたショウジョウバエの脳の神経ネットワークの包括的解析 Masayoshi Ito (IMCB)

SW3-12: (P-218) 17:45-18:00	Naturally occurring cell death in the developing Drosophila optic lobe requires different effecter caspases for different sub-regions ショウジョウバエ視葉の自然発生細胞死には異なる領域で異なる実行カスパーゼが働く Hiromi Akagawa (TAT)
▲ Go to top

日時：6月20日（日）　午後3時から6時場所：京大会館　Room210
Satellite Workshops 4: Xenopus
Chairpersons:	荻野　肇, 福井彰雅

SW4-01: (P-209) 16:15-16:30	*Analysis of Xenopus* CXCR7 during gastrulation** Keita Masuda (Transdisciplinary Life Science, Graduate school of Life Science, Hokkaido University)

SW4-02: (P-212) 15:00-15:15	The integrated regulation of Xenopus cerberus by transcription factors downstream of Nodal/ Wnt/ BMP Nodal、Wnt、BMPの下流転写因子によるXenopus cerberusの統合的な発現制御機構 Norihiro Sudou (Lab.of Mol.Biol., Dept.of Biol.Scis., Grad.Sch.of Sci., Univ.of Tokyo)

SW4-03: (P-074) 15:15-15:30	TOR signal determines anteroposterior positional value of Xenopus embryogenesis TORシグナルはツメガエルの胚発生において前後方の位置価を調節する Yuki Moriyama (Graduate school of science and technology, Shizuoka University)

SW4-04: (P-230) 15:30-15:45	A mechanism coordinating the establishment of the dorsal-ventral and anterior-posterior axes during early Xenopus embryogenesis 胚発生初期に背腹と頭尾のパターン形成が調和するしくみ Kimiko Takebayashi-Suzuki (Inst.Amphibian Biol.，Hiroshima Univ.Grad.Sch.Sci.)

SW4-05: (P-147) 15:45-16:00	Functional analysis of epigenetic regulators, Ezh2 and Jmjd3, in Xenopus embryonic development Akane Kawaguchi (NAIST)

SW4-06: (P-211) 16:00-16:15	Function of endotelin-3 and endothelin receptor B2 in Xenopus laevis melanophore migration アフリカツメガエルのメラノブラスト移動におけるエンドセリンシグナルの役割 Akiha Nishihara-Kawasaki (Dept. Dev. Biol. and Neurosci. Graduate School of Life Sci. Tohoku Univ.)

SW4-07: (P-210) 16:30-16:45	*The role of PRMT1 in TR mediated transcription in the intestinal remodeling during Xenopus* metamorphosis** Hiroki Matsuda (National Institutes of Health, Johns Hopkins University School of Medicine)

SW4-08: (P-308) 16:45-17:00	A possible reason why both ouro1 and ouro2 genes are required for tail regression during tadpole metamorphosis おたまじゃくしの変態時の尾部退縮になぜオウロ１とオウロ２両方の遺伝子が必要なのか Tomomi Ohsima (Dept. Biol., Niigata Univ.)

SW4-09: (P-317) 17:00-17:15	Analysis of the mechanisms that determine tail regenerative ability in Xenopus laevis tadpoles アフリカツメガエル幼生における尾の再生能力規定要因の解析 Yuko Naora (Dept. Biol. Sci., Grad. Scl. Sci., Univ. Tokyo)

SW4-10: (P-313) 17:15-17:30	Different mechanisms in initiation of limb regeneration between larval and adult Xenopus 幼生期と成体期のアフリカツメガエルでみられる四肢再生における異なる開始機構　 Hitoshi Yokoyama (Dept. of Dev. Biol., Grad. School of Life Sci., Tohoku Univ.)

SW4-11: (P-138) 17:30-17:45	Transplantation of germ plasm in Xenopus induces primordial germ cell at animal hemisphere. Xenopusの生殖細胞質移植による動物半球での始原生殖細胞の誘導 Haru Tada (Grad.Sch.Life Sci,Univ.Hyogo)
▲ Go to top

Poster

June 21 (Mon) 9:00-16:45 Annex Hall June 22 (Tue) 9:15-16:45 Annex Hall

P-001:	Discrimination of the functions of Pumilio1 and Pumilio2 in the temporal control of mRNA translation during Xenopus oocyte maturation ツメガエル卵成熟過程でのPumilio1とPumilio2による時期特異的なmRNA翻訳制御機構 Ryoma Ota (Faculty of Advanced Life Science, Hokkaido University)

P-002:	Let-7b inhibits cell proliferation and down-regulates basigin expression in mouse endometrial stromal cells Tzu-Yen Fu (Developmental Biology, Department of Animal Science, National Chung Hsing University)

P-003:	Reconstruction of teeth with cell lines established from mouse molar germ epithelium and an increase the reconstruction capacity in these cell lines マウス臼歯歯胚上皮由来株細胞を用いた歯の再構築と再構築能の上昇 Akihiko Komine (Depa. of Biol. Sci. Tech., Tokyo Univ. of Sci., JSPS Research Fellow)

P-004: (SW3-05) 16:00-16:15	Nemo-like kinase positively regulates Wnt signaling via phosphorylating Lef1 in developing midbrain tectum Nlkは形成過程の中脳視蓋においてLef1のリン酸化を介してWntシグナルを正に制御する Satoshi Ota (MIB, Kyushu University)

P-005:	Different migratory properties of vagal and sacral neural crest cells in the mouse hindgut Xia Wang (CUHK)

P-006:	Roles of Mitochondrial Fusion-Fission Dynamics in Dendrite Morphogenesis and Mitochondrial Function of Drosophila Sensory Neurons ミトコンドリア融合/分裂動態の樹状突起形態形成とミトコンドリア機能に果たす役割 Taiichi Tsuyama (Grad. Sch. Biostuides, Kyoto Univ.)

P-007:	Drosophila Gprk2 is a kinase governing cell movements in gastrulation ショウジョウバエGprk2は原腸陥入における細胞運動を制御するキナーゼである Naoyuki Fuse (Kyoto Univ.)

P-008:	Functional analysis of Drosophila protein tyrosine phosphatases in development Guang-Chao Chen (IBC-AS, IBS-NTU, TIGP-AS)

P-009: (HT1-03) 14:30-14:45	Specific expression of heparan sulfate glycosaminoglycan chains is crucial for local distribution of FGF signaling during mammalian embryogenesis ほ乳動物胚発生において、ヘパラン硫酸鎖の特異的発現が、FGFシグナルの局所的分布を制御する Isao Matsuo (Osaka Medical Center and Research Institute for Maternal and Child Health, Graduate School of Medicine, Osaka University)

P-010:	Four-jointed is a Golgi kinase that phosphorylates cadherin domains of Fat and Dachsous Four-jointedは細胞外カドヘリンドメインをリン酸化するゴルジ体キナーゼである Hiroyuki Ishikawa (Grad. Sch. Sci., Chiba Univ.)

P-011:	Nucleolus-size regulation during oogenesis and early embryogenesis in C. elegans Szecheng Lo (CGU)

P-012:	Wnts regulate asymmetric spindle to generate asymmetric cell fates Wntによる微小管を介した非対称分裂の制御機構の解析 Kenji Suigoka (RIKEN CDB, Dept. of Biol., Grad. Sch. of Sci., Kobe Univ.)

P-013:	Imaging of the cell cycle phases in Xenopus Keller explants ツメガエルKeller explantにおける細胞周期位相の解析 Shuichi Ueno (Lab.of Mol. Dev. Biol.，Division of Applied Mol. BioSci.，Grad. Sch. of Med., Yamaguchi Univ.)

P-014: (HT2-04) 14:45-15:00	A non-canonical Notch cascade converges on mitochondria for the regulation of cell survival Lakshmi Revathi Perumalsamy (NCBS)

P-015:	Neuralized, an E3 ubquitin ligase, is required for the left-right asymmetric development of hindgut in the Drosophila E3ユビキチンリガーゼNeuralizedはショウジョウバエ後腸の左右非対称性形成に必須である。 Akira Ishio (Dept. Biol. Sci / Tec., Tokyo Univ. Sci.)

P-016:	Nemo-like kinase promotes neurogenesis by interfering with formation of Notch transcription complex. Nemo-like kinaseはNotch転写複合体の形成を阻害することにより神経形成を促進する Tohru Ishitani (Div. of Cell Reg. Sys., Med. Ins. of Bioreg., Kyushu Univ.)

P-018:	LPA signalling controls cell-cell adhesion stability via Lipoma prefered partner during Xenopus cranial neural crest migration アフリカツメガエル神経提細胞移動においてリゾ脂質シグナルはLPPを介して細胞接着を制御する Sei Kuriyama (Akita University, UCL)

P-019:	Genome-wide Analysis of Planar Cell Polarity in Drosophila by Transgenic RNAi ショウジョウバエにおけるトランスジェニックRNAi法を用いた平面内細胞極性のゲノムワイド解析 Masakazu Yamazaki (GCOE, Akita Univ. Grad. Sch. of Med.)

P-020:	Direct detection of guidance receptor activity during border cell migration Hsin-Ho Sung (IMCB, TLL)

P-021:	A novel gene, Sidetrk1 supports peripheral axon extension in zebrafish primary sensory neurons by facilitating ligand-independent activation of neurotrophin receptors. 感覚神経細胞が、軸索伸展の初期過程で神経成長因子に依存しないのはなぜか？ Makoto Aoki (DGR, BSI, RIKEN)

P-022:	A genetic screen to identify genes involved in the left-right asymmetric development of the embryonic gut in Drosophila ショウジョウバエ胚消化管の左右非対称性形成に関与する遺伝子の網羅的探索 Mitsutoshi Nakamura (TUS)

P-023:	SH2B1β enhances dendrite outgrowth and spines formation of hippocampal neurons. Chien-Jen Chen (Institute of Molecular Medicine, National Tsing Hua University, Taiwan)

P-024: (SW3-06) 16:15-16:30	The adherens junction serves as a switch for neurogenesis 接着帯は神経分化のスイッチとして働く Jun Hatakeyama (IMEG, Kumamoto Univ.)

P-025:	Sustained cell elongation requires dynamic equilibrium of vesicle trafficking 持続的な細胞伸長には小胞輸送の動的平衡が必須である Tetsuhisa Otani (RIKEN CDB, Lab for Morphogenetic Signaling)

P-027:	Functional analysis of Mlr1 and Mlr2: mouse homologs of Mblk-1, a transcription factor expressed in the honeybee brain, and their cofactors. ミツバチ脳由来転写因子Mblk-1のマウスホモログMlr1, Mlr2およびその結合因子の機能解析 Seika Takayanagi (Department of Biological Sciences, Graduate School of Science, University of Tokyo)

P-028: (HT1-07) 15:30-15:45	The ubiquitin system regulates PCP protein localizations in Xenopus embryonic cells アフリカツメガエル胚細胞においてユビキチンシステムがPCPタンパク質の局在を制御する Noriyuki Kinoshita (NIBB)

P-029:	Sox10 mutation affects cochleo-vestibular ganglion gliogenesis Daniel Kit Hang Chu (Department of Biochemistry)

P-030: (SW1-04) 15:45-16:00	*Functions of a helix loop helix transcription factor, Extramacrochaetae, in development of left right asymmetry in the Drosophila* embryonic hindgut** Ryo Hatori (Department of Biological Science and Technology, Tokyo University of Science)

P-031:	Impaired development of kidney with reduced expression of the genes for ureteric bud branching in mice lacking Lgr4 Lgr4遺伝子欠損マウスで見いだされたブランチング関連因子異常を伴った腎臓発生異常 Yasuaki Mohri (Lab. of Mol. Biol. Graduate School of Agric. Science, Tohoku University)

P-033:	Analysis of translocation of Fgf8 to the nuclei 核移行Fgf8の解析 Ayumu Suzuki (Grad., Life Sci. Dic. Tohoku Univ.)

P-034:	Boundary interactions triggering caspase activation coordinate epithelial tissue remodeling in the abdomen of Drosophila ショウジョウバエ腹部におけるカスパーゼ活性化を誘因する細胞間相互作用が表皮リモデリングを調和させる Yuichiro Nakajima (Dept. Genetics, Grad.Sch.Pharm. Sci., Univ. Tokyo)

P-035:	Study of the role of Isthmin as a modulator of FGF signaling during embryonic development Liliana Osorio (BCH, HKU)

P-036: (SW3-10) 17:15-17:30	Morphological origin and dynamic change of nascent primary dendrite on cortical plate neurons: cerebral cortex formation in situ 皮質板ニューロンに形成される一次樹状突起の形態的起源と動的変化：大脳皮質形成の実態 Akira Sakakibara (Nagoya Univ. Med.)

P-037:	Planar Cell Polarity: Mechanisms Underlying Polarized Transport of Frizzled-containing Vesicles 平面内細胞極性における Frizzled 小胞の極性輸送メカニズムの解析 Toshiyuki Harumoto (Grad. Sch. of Biostudies, Kyoto Univ., CREST, JST)

P-039:	Sall1 is involved in maintenance of nephron progenitors ネフロン前駆細胞におけるSall1の役割 Takeshi Terabayashi (IMEG)

P-040: (SW3-08) 16:45-17:00	Regulation of neural migration and development by PTEN in the mouse retina マウス網膜発生におけるPTENの機能解析 Kiyo Sakagami (UCLA, JSEI)

P-041:	XTbx2/3 specify ventral ectoderm by the inhibition of neural ectoderm and mesoderm formation Gun-Sik Cho (POSTECH)

P-042: (SW1-10) 17:15-17:30	Metalloprotease-Dependent Onset of Blood Circulation In Zebrafish 胚発生における最初の血液循環はプロテアーゼによる細胞接着の解除を必要とする Atsuo Iida (IFMS, Kyoto University)

P-043:	Deficiency of Grhl2 Impairs Otolith and Vestibular Development in Zebrafish Embryos Yanchao Han (SLS)

P-044:	The Mechanistic Roles of Iroquois Genes in Embryonic Heart Development and Physiology in Zebrafish Sin Ting Lee (CityU)

P-045: (SW1-05) 16:00-16:15	Different cellular behavior between the left and right heart rudiments controls the asymmetric heart looping 心臓の左右非対称形態形成における細胞挙動 Hinako Kidokoro (Dept. of Neurobiology & Anatomy, University of Utah)

P-046:	Molecular analysis of Xenopus dicalcin during fertilization アフリカツメガエルダイカルシンの受精における分子機能解析 Naofumi Miwa (Dept.Physiol., Toho Univ.)

P-047:	Drosophila Mob2 determines the subcellular localization of Moesin and Crumbs during photoreceptor morphogenesis Seng-Sheen Fan (DLS)

P-048:	Secreted PDZ Domain-containing Protein 2 (sPDZD2) Exerts Insulinotropic Effects on INS-1E cells via a Protein Kinase A-dependent Mechanism Kwok-Ming Yao (HKU Biochem)

P-049:	Olfactory neurogenesis is controlled by retinoic acid Raj Ladher (RIKEN CDB)

P-050:	Characterization of Extracellular Superoxide Dismutase (ECSOD) and Oxidative Stress regulate its gene Expression during Zebrafish Embryonic Development Chuian-Fu Ken (IB, NCUE)

P-051:	Exploring the roles of core-binding factor β (CBFB) in tooth development and ameloblast physiology 歯の発生におけるcore-binding factor β (CBFB)の上皮における役割について Hiroshi Kurosaka (Department of Orthodontics Okayama Univ.)

P-052:	Modular Patterning of Structure and Function of the Striatum by Retinoid Receptor Signaling FU-CHIN Liu (Instit. Neurosci., Natl. Yang-Ming Univ., Taipei, Taiwan)

P-053:	Prepupal period is determined by a common biological timer system in different Drosophila species ショウジョウバエ種間における前蛹期間のタイミング決定機構 Kazutaka Akagi (Glad. Sch. of Nat. Sci. and Tech., Okayama Univ.)

P-054:	How is the cardiac myocyte proliferation inhibited? 心筋細胞増殖阻害機構の解析 Satoshi Yoshitome (Div. Pathol. Biochem., Sch. Life Sci., Tottori Univ.)

P-055:	Metabolic Changes in Drosophila Inositol 1,4,5 Trisphosphate Receptor Mutants Confer Resistance to Starvation Manivannan Subramanian (NCBS, TIFR, Bangalore, India)

P-056:	An examination on the timing of limb bud induction of Xenopus embryos アフリカツメガエル胚における肢芽誘導のタイミングに関する研究 Takaya Suganuma (Div. of Biol. Sci., Grad. Sch. of Sci., Nagoya Univ.)

P-057:	Phenotypic effects of Cisd2 deficiency on cardiac and skeletal muscles in mice Chia-Yu Wu (NYMU)

P-058: (SW2-09) 17:00-17:15	Role of DNA replication related factor (DREF) in Drosophila melanogastor bristles development キイロショウジョウバエの機械感覚毛の形成におけるdrefの役割について Akihito Kawamori (Dept. of Appl. Biol., Kyoto Inst. of Technol)

P-059:	A novel role of extramitochondiral citrate synthase during Xenopus early embryonic development ミトコンドリア外のクエン酸合成酵素のツメガエル初期発生における新規機能 Yasuhiro Iwao (Mol. Dev. Biol.，Applied Mol. BioSci.，Yamaguchi Univ.)

P-060:	br regulates ring gland-specific expression of the ecdysone biosynthesis gene npc1 Yan-hui Xiang (IGDB, CAS, GUCAS)

P-061:	Suppression of the melanocyte proliferation and differentiation in endothelin receptor B2 mutated quail and chicken ウズラとニワトリのエンドセリン受容体B2変異体における色素細胞の増殖と分化能の低下 Toyoko Akiyama (Dept. Biol., Keio Univ.)

P-062:	Mechanistic Investigation of Cisd2 in Energy Metabolism, Adipogenesis and Thermo-regulation in Mice Yi-Fan Chen (NYMU)

P-063:	BMP/SMAD signaling regulates primary outgrowth of dorolateral otocyst through epithelial cell shape change BMP/SMAD経路は耳胞形成初期において上皮形態変化を制御する Sho Ohta (Ohta S)

P-064:	Regulation of cardiomyocyte proliferation and differentiation during development 発生過程における心筋細胞の増殖と分化の制御機構 Takashi Takeuchi (Sch. of Life Sci., Fac. of Med., Tottori Univ., MITLS)

P-065:	Progranulin, a novel regulator of MET, is required for embryonic hepatic outgrowth Yen-Hsing Li (ICOB, AS)

P-066:	Antagonistic regulation of Wnt/beta-catenin signaling by Dkk1 during caudal embryogenesis, GT (Genital Tuberle) development Kentaro Suzuki (IMEG)

P-067:	Spatio-temporal regulation of indirect flight muscle development and patterning by the transcription factor, erect wing (EWG) in Drosophila. Mamta Rai (IISc)

P-068:	Live-imaging analysis of apoptosis and caspase activation during neural tube closure by using SCAT3 transgenic mice. 神経管閉鎖におけるアポトーシスとカスパーゼ活性のライブイメージング解析 Naomi Shinotsuka (Dept. Genetics, Grad. Sch. Pharma. Sci, Uni. Tokyo.)

P-069: (HT1-04) 14:45-15:00	A top-down approach to identify Fgf signaling connecting ectoderm gene regulatory networks in the sea urchin embryo Yi-Hsien Su (ICOB, Academia Sinica)

P-070:	PTEN plays a pivotal role in retinal neurogenesis by supporting Notch signaling HONG SEOK Jo (KAIST)

P-072:	Ecdysone has distinct roles from 20-hydroxyecdysone in regulating of developmental timing in Drosophila melanogaster ショウジョウバエにおける20Eとは異なるecdysoneによる発育のタイミングの制御 Hajime Ono (Graduate School of Agriculture, Kyoto University)

P-073: (HT2-06) 15:15-15:30	Specific microRNA regulations in early human retina development Hoi Kin Wong (O&G, CUHK)

P-074: (SW4-03) 15:15-15:30	TOR signal determines anteroposterior positional value of Xenopus embryogenesis TORシグナルはツメガエルの胚発生において前後方の位置価を調節する Yuki Moriyama (Graduate school of science and technology, Shizuoka University)

P-075:	*Estrogen negatively regulates microRNA-202 expression during chicken embryonic gonad development.** Stephanie Bannister (CSIRO, University of Melbourne)

P-076:	Bacteria as environmental signals and a second internal signal to provoke metamorphosis in the coral Acropora ミドリイシサンゴの変態を誘導する環境シグナルとしてのバクテリアと第二の内在性シグナル Masayuki Hatta (Biol, Ocha Univ, MCBC, Ocha Univ)

P-077:	Mechanisms of acquisition of paired fins during vertebrate evolution: Insight from the Japanese lamprey, Lethenteron japonicum. ヤツメウナギ (Lethenteron japonicum) から得る脊椎動物の対鰭獲得機構への洞察 Koh Onimaru (Tokyo Insti, Tech.)

P-078:	Nodal/Pitx signaling and branching morphogenesis in Cnidaria 刺胞動物の形態形成におけるNodal/Pitxシグナルの役割 Hiroshi Watanabe (Heidelberg Institute of Zoology)

P-079:	Actin-based network structure in the tunic of ascidian larva revealed by confocal laser scanning and transmission electron microscopes 共焦点顕微鏡および透過型電子顕微鏡により明らかにされたホヤ幼生被嚢内新規ネットワーク構造 Kohji Hotta (Dept. of Bioscis.& Informatics, Sch. of Fundamental Sci.&Tech., Fac. of Sci.& Tech., Keio Univ.)

P-080:	Dramatic change of patterning gene expression during metamorphosis underlies the morphological evolution of the pheromone reception organ in Lepidopteran insects 変態期のパターン形成遺伝子の劇的な発現変化が鱗翅目昆虫のフェロモン受容器官の形態学的進化の基礎をなす Toshiya Ando (Dept. Integrated Biosci., Grad. School Frontier Sci., Univ. Tokyo)

P-081:	Divergent function of Delta/Notch signaling in formation of body segments in the intermediate-germband cricket Gryllus bimaculatus コオロギの体節形成におけるDelta/Notch signalingの機能 Kazuki Kurita (Dept. of Life Systems, Inst. of Tech. and Sci., The Univ. of Tokushima)

P-082:	Dynamic control of positional specification in a primitive mode of insect segmentation 祖先的な昆虫における体節形成のダイナミックな制御 Taro Nakamura (Dept of Life Systems, Institute of Tech. and Sci., The University of Tokushima)

P-083: (SW3-03) 15:30-15:45	Microinjection and its applications for research of pattern formation in embryonic development of the spider Achaearanea tepidariorum オオヒメグモ胚における顕微注入法の確立とパターン形成の研究に向けたその応用 Masaki Kanayama (Osaka University)

P-084:	Developmental mechanisms of the posteriormost digit in chick forelimb ニワトリ前肢の最後方の指の起源と発生メカニズム Koji Tamura (Grad. Sch. of Life Sci., Tohoku Univ.)

P-085:	Wnt-signaling pathway is important for patterning of mammalian tooth roots in evolution and development 進化と発生における哺乳類の歯根のパターニングに重要なWntシグナル経路 Masato Ota (Sect. Mol. Craniofac. Emb, Grad.Sch. Med. Dent., TMDU,, Kondo Res. Unit,BSI, RIKEN)

P-086:	Identification of targets of Ultrabithorax in Bombyx mori Shreeharsha T T (IISER-P)

P-087: (SW3-04) 15:45-16:00	Origin of endoskeleton in chordates: insights from hemichordates 脊索動物における内骨格の起源 Norio Miyamoto (Univ. Tsukuba)

P-088:	Critical evolutionary steps for pallial GABAergic interneurons to adapt to mammalian layered neocortex 外套GABA作動性介在神経細胞が哺乳類大脳新皮質に適応するための決定的進化段階 Daisuke TANAKA-HARADA (Dep. of Anatomy, Keio Univ. Sch. Med.)

P-089:	Developmental switch from Rohon-Beard cells to dorsal root ganglia in Xenopus Rohon-Beard細胞から脊髄神経節へ Hiroshi Yajima (Div. Biol., CMM)

P-090:	Development of the nervous system in the turtle trunk region カメ体幹部における神経回路形成機構の解析 Masahumi Kawaguchi (CMES, Ehime Univ.)

P-091: (SW3-07) 16:30-16:45	Conservation of developmental mechanisms in evolutionarily divergent brain structures 保存された発生メカニズムへの小さな変更による脳構造の進化 Ikuo Suzuki (Dept. Brain Function, NIG)

P-092:	Larvae of blind cave characin (Astyanax mexicanus) respond to light in various wavelength during the short period just after hatching 洞窟魚ブラインドケーブカラシンの解剖学的観察と孵化直後の幼生を用いた光受容能の観察 Kazue Mogi (Res. Inst. for Integrated Sci., Kanagawa Univ.)

P-093:	Foxo and RagA link multiple stem cell lineages to coordinate somatic development in C. elegans. 表皮組織におけるfoxoとRagAが複数の幹細胞系譜の発生開始を協調的に制御する Masamitsu Fukuyama (Dept of Physiological Chem, Grad Sch of Pharmaceutical Sci, Univ. of Tokyo)

P-094: (SW2-04) 15:45-16:00	Gene expression and possible roles of protein families involved in biogenesis and functions of small RNAs in the nervous system of the ascidian Ciona intestinalis 小分子RNAの作用機序に関わるタンパク質ファミリーのホヤ神経系における発現様式と役割 Aoi Ichinose (Dep. Bio., Fac. Sci. Eng., Konan Univ.)

P-095:	Intronic delay is essential for oscillatory expression in the segmentation clock Ryoichiro Kageyama (IVR, Kyoto Univ, CREST)

P-096:	Emergence of the cerebellum is correlated with the establishment of close linkage between canopy1 and engrailed2 Canopy1-Engrailed2のシンテニー獲得時期と小脳の出現時期は相関する Hisaya Kakinuma (RIEKN BSI Lab. for DGR)

P-097:	Evolution of soxE genes in teleost fish revealed by comparative expression analysis and genomics 真骨魚類におけるsoxE遺伝子の進化 -比較ゲノミクスと遺伝子発現による解析- Hayato Yokoi (ION, Univ Oregon, Grad Sch Agri Sci, Tohoku Univ)

P-098:	Molecular Evolution of Camera Eye Kwong Wai Choy (O&G, CUHK, SBS, CUHK)

P-099:	Morphogen actions in the non-differentiating cellular slime mold, Acytostelium subglobosum 非分化性の細胞性粘菌Acytostelium subglobosum における分化誘導因子の作用 Takashi Hata (Grad Sch Life Env Sci, Univ Tsukuba)

P-100:	Evolutionary comparison of Lhx1 and Otx2 transcriptional regulatory networks in the gastrula organizer using chromatin immunoprecipitation (ChIP) analysis 原腸胚オーガナイザーにおけるLhx1とOtx2の転写制御ネットワークのChIP解析を用いた進化的比較 Yuuri Yasuoka (Dept. of Biol. Sci., Grad. Sch. of Sci., Univ. of Tokyo)

P-101:	A fail-safe regulatory system generated by genome duplications for kidney development Haruki Ochi (NAIST)

P-102:	Gene regulatory networks in the Ciona mesodermal tissues ホヤ中胚葉における遺伝子制御ネットワークの解析 Atsushi Kubo (Kyoto Univ.)

P-103:	A gene expression atlas of the early Ciona embryo in the single-cell resolution カタユウレイボヤ初期胚の細胞レベルでの遺伝子発現パターンの記載と解析 Terumi Matsuoka (Dept. of Sci., Grad. Sch. of Sci., Kyoto Univ.)

P-104:	Systematic study of Drosophila microRNA functions in vivo Ya-Wen Chen (TLL)

P-105:	The COPI complex is required for chromosome segregation and cytokinesis during male meiotic divisions in Drosophila COPI複合体はショウジョウバエ雄減数分裂時において染色体の分配や細胞質分裂に不可欠である Daishi Kitazawa (IBRC, KIT)

P-106: (SW2-10) 17:15-17:30	Ecdysone regulats gene amplification necessary for Drosophila development. エクダイソンはショウジョウバエ発生に必須な遺伝子増幅を制御する。 Hidetugu Kohzaki (IVR, Kyoto Univ.)

P-107: (HT2-07) 15:30-15:45	Systems approach revealed novel myogenic transcriptional network regulated by Rp58 システムアプローチによる転写抑制因子Rp58を介した筋分化遺伝子ネットワークの解明 Hiroshi Asahara (Department of Systems BioMedicine)

P-108:	Role of 20-hydroxyecdysone during spermatogenesis in Drosophila ショウジョウバエ精子形成におけるエクダイソンの役割 Jun Ogata (Dept. Biol. Faclty Sci. Ibaraki Univ.)

P-109:	Analysis of ciliary beat frequency and ovum transport ability in mouse oviduct マウス卵管上皮における繊毛の周波数と卵輸送能に関する解析 Dongbo Shi (NIBB, Kyoto University)

P-110: (S07-02) 14:05-14:20	Mathematical analysis of localization mechanism of a morphogen source in Drosophila notum development ショウジョウバエ胸背板形成におけるモルフォゲンソース局在化メカニズムの数理的解析 Kenichi Hironaka (Kyushu Univ.)

P-111:	Quantitative analysis of multi-dimensional organ deformation; illustrated by chick limb development 器官形成における多次元変形過程の定量解析：ニワトリ四肢形成を例に Yoshihiro Morishita (Kyushu Univ., JST)

P-112:	Roles of epithelium and mesenchyme during lung branching morphogenesis 肺の枝分かれ形成時の上皮と間葉の役割 Takashi Miura (Dept.of Anat.& Dev.Biol., Kyoto Univ.Grad.Sch.of Med.)

P-113:	Robustness of the Dpp morphogen activity gradient depends on negative feedback regulation by the inhibitory Smad, Dad Dppモルフォゲン活性勾配の安定性 Yuri Ogiso (IMCB)

P-114:	Mathematical modeling of somitogenesis in mice: spatiotemporal dynamics of segmentation gene network マウス体節形成の数理モデル：分節化を支配する遺伝子ネットワークの時空間ダイナミクス Daisuke Saito (Theoret biol lab, RIKEN)

P-115: (S07-03) 14:20-14:40	Modelling enteric neural crest cell migration Kerry Landman (UM)

P-116:	Enhanced diffusion and signaling range expansion of Wnt by secreted Frizzled-related proteins. 分泌性Frizzled関連蛋白質によるWntの拡散性の上昇およびシグナル範囲の拡大 Yusuke Mii (Dept. of Biol. Sci., Grad. Sch. of Sci., Univ. of Tokyo)

P-117: (SW3-11) 17:30-17:45	Comprehensive analysis of the neural network in Drosophila brain based on the neuroblast lineages 神経幹細胞の系譜に基づいたショウジョウバエの脳の神経ネットワークの包括的解析 Masayoshi Ito (IMCB)

P-118:	Dbf4 mRNA recruitment required for the initiation of DNA replication in mouse zygote Dbf4 mRNAの発現活性化はマウス初期胚におけるDNA複製に必須である Shin Murai (Dept of Biochem, Toho Univ, Sch of Med)

P-119: (SW2-08) 16:45-17:00	DNA demethylation regulates primordial germ cell-specific gene expression in mouse DNA脱メチル化はマウスにおいて始原生殖細胞特異的遺伝子発現を制御する Kentaro Mochizuki (Cell Resource Center for Biomedical Research, Institute of Development, Aging and Cancer, Tohoku University)

P-120:	Functional analysis of Aphid Vasa in Drosophila ovary Ming-Der Lin (DMBHG, TCU, DLS, TCU)

P-121:	Isolation and cytogenetic characterization of zebrafish mutants affecting meiotic prophase I 第一減数分裂前期に異常を示すゼブラフィッシュ突然変異体の単離とその表現型解析 Kenji Saito (NIG, Dept. of Model Fish Genomics Resource)

P-122:	Human germ cells development during the first trimester Satoru Kobayakawa (LUMC, NIBB)

P-123:	Functional analysis of Aphid Vasa in Drosophila ovary Szu-Chieh Wang (DLS, TCU)

P-124:	‘Non-reductional meiosis’ found in parthenogenetic Daphnia pulex (Crustacea: Cladocera) ~ Does sperm penetration induce the switching to normal meiosis? ~ 単為生殖を行うミジンコで発見された減数しない減数分裂 -受精により通常の減数分裂が進行するか？- Chizue Hiruta (Dept. of Nat. His. Sci., Grad. Sch. of Sci., Hokkaido Univ.)

P-125:	Periodic activation of retinoic acid signaling creates stage-dependent gene expression change in Sertoli cells during mouse spermatogenesis レチノン酸シグナルの周期的な活性化がセルトリ細胞のステージ依存的遺伝子発現パターンを作り出す Kazuteru Hasegawa (Department of Genetics, SOKENDAI)

P-126:	Sexual Maturation Process in Roosters Hsu-Chen Cheng (Dept. Life Sciences, NCHU)

P-127:	A P body component, Edc3 plays a role in oskar mRNP transport and translational control in the Drosophila oocyte ショウジョウバエ卵形成におけるPボディ構成因子Edc3のOskar mRNPの輸送と翻訳における役割 Yasuko Kato (Laboratory for Germline Development, RIKEN CDB)

P-128: (SW1-12) 17:45-18:00	Nutrient stress affects polarized transport during Drosophila oogenesis ショウジョウバエ卵形成において栄養ストレスは極性輸送に影響を及ぼす Yuko Shimada (Grad. of Life and Environmental Sciences, Univ. of Tsukuba)

P-129: (HT1-05) 15:00-15:15	Wallenda regulates JNK-mediated cell death and migration in Drosophila Xianjue Ma (SKLSDSLST)

P-130:	Ci-PEM is a Nuclear Protein that Repress Zygotic Transcription in Ciona Germline Blastomeres Ci-PEMはホヤ生殖割球の核に局在し胚性発現を抑制する Maki Shirae (CDB)

P-131:	Sall4 is a crucial transcriptional regulator for mouse primordial germ cell specification Sall4はマウス生殖細胞形成に必須な転写調節因子である Yasuka Yamaguchi (IMEG, Kumamoto Univ.)

P-132:	Dullard is required for mouse primordial germ cell formation マウス生殖細胞形成に必須なDullard遺伝子の機能解析 Satomi Tanaka (IMEG, Kumamoto Univ.)

P-133:	Fatty acyl-CoA synthetase and meiotic cell cycle regulation Huawei Wang (IGDB)

P-134:	Developmental change of nucleus membrane proteins during oocyte maturation and first mitotic cycle. 卵成熟および第一有糸分裂過程における核膜蛋白の発達的変化 Masanori Narahara (Fac.of Pharm.Scis., Kobe Gakuin Univ.)

P-135:	The actin regulator Enabled is essential for proper gonad morphogenesis in Drosophila ショウジョウバエの生殖巣形成におけるアクチン制御因子Enabledの役割 Hiroko Sano (Academic Production, Ochanomizu University, Skirball Institute of NYU Medical Center, USA)

P-136:	Functional interference of Pax proteins in Drosophila accessory gland development Li Li (SKLSDSLST)

P-137:	Analysis of reproductive mode of the triploid planarian Dugesia ryukyuensis ３倍体リュウキュウナミウズムシの生殖戦略 Ayako Chinone (Dept. of Bioscis. & Informatics, Fac. of Sci. & Tech., Keio Univ.)

P-138: (SW4-11) 17:30-17:45	Transplantation of germ plasm in Xenopus induces primordial germ cell at animal hemisphere. Xenopusの生殖細胞質移植による動物半球での始原生殖細胞の誘導 Haru Tada (Grad.Sch.Life Sci,Univ.Hyogo)

P-139: (HT2-09) 16:00-16:15	Genome-wide analysis of Nodal target genes during zebrafish early gastrulation Qiang Wang (IOZ)

P-140: (SW2-07) 16:30-16:45	DNA replication-dependent passive mechanism modulates genome-wide erasure of DNA methylation in primoridial germ cells 始原生殖細胞によるDNA複製依存的なDNA脱メチル化機構 Yoshiyuki Seki (Kwansei-Gakuin Univ.)

P-141:	Epigenetic Analysis of Stem Cells in E. japonensis -Telomerase Activity during Regeneration Process- ヤマトヒメミミズ再生のエピゲノム解析～再生時におけるテロメラーゼ活性の変化～ Chikako YOSHIDA-NORO (CIT Nihon Univ., ARISH Nihon Univ.)

P-142:	The Nucleosome Assembly Protein TSPYL2 Represses Transcription Siu Yuen Chan (HKU)

P-143: (SW2-06) 16:15-16:30	The histone acetylation, methylation, H2A.z, and a linker histone H1 are involved in the maintenance of cell fates in C. elegans ヒストンアセチル化、メチル化及びH1、H2A.zはC. elegansの細胞運命の維持に関与する Yukimasa Shibata (RIKEN CDB)

P-144: (HT1-08) 15:45-16:00	Ebi, a Drosophila homologue of TBL1, modulates target site recruitment of PRC1 complex of PcG 核内因子Ebiによるポリコーム複合体の機能調節機構 Leo Tsuda (NILS)

P-145:	Prdm14 is required for multiple lineage neuron development in zebrafish Chao Liu (IGDB, CAS)

P-146:	Enhancer of zeste epigenetically regulates leg development in the cricket Gryllus bimaculatus コオロギの脚形成におけるエピジェネティックな遺伝子発現制御 Yuji Matsuoka (Dept. of Bio. Sci. and Tech., Fact. of Eng., Tokushima Univ.)

P-147: (SW4-05) 15:45-16:00	Functional analysis of epigenetic regulators, Ezh2 and Jmjd3, in Xenopus embryonic development Akane Kawaguchi (NAIST)

P-148:	Acetyltransferase ARD1 controls developmental compartment size by regulating engrailed protein level Yongfei Yang (IOZ)

P-149:	Polycomb promotes trophoblast stem cell differentiation by repressing key transcription factors. ポリコームは転写因子の抑制を介して栄養芽幹細胞の分化速度を正に制御する. Mitsuhiro Endoh (RIKEN,RCAI,Developmental Genetics)

P-150:	Chromobox homolog 3 is an essential modulator of endodermal differentiation in mouse F9 cells. Cbx3はマウスF9細胞の内胚葉への分化に必須の機能調節因子である Nobuhito Ikeda (Div. Rege. Med., Tottori Univ.)

P-151:	Reactivation of the silent X chromosome during transcription factor induced reprogramming Jason Tchieu (UCLA)

P-152:	Reverse effects of Cbx3 on the differentiation capacity between ES and EC cells ES・EC細胞の分化過程におけるCbx3の機能解析 Kumi Morikawa (Dept. of Genet. Med. & Regenerat. Therapeut., Tottori Univ.)

P-153:	Spatio-temporal analysis of spacing pattern formation: Role of programmed cell death in Drosophila sensory organ development ショウジョウバエ外感覚器の空間パターン形成における細胞死の役割 Akiko Koto (Dept. Genetics, Grad. Sch. Pharmaceutical Sci. , Univ. Tokyo)

P-154:	FGF control of basal and apical cytoskeletal activities during inner ear invagination FGFによる上皮細胞形態形成時の細胞骨格リモデリング XIAO REI Sai (RIKEN CDB)

P-155:	Dissecting the Role of Fgf Signaling During Gastrulation and Left-Right Axis Formation in Mouse Embryos Using Chemical Inhibitors マウス初期発生におけるFgfシグナルの役割－化学的阻害剤を用いた高時間分解能解析－ Shinya Oki (Kyushu University)

P-156: (SW1-03) 15:30-15:45	Neurula rotation determines left-right asymmetry in ascidian tadpole larvae マボヤにおける神経胚の回転と左右非対称性の形成 Kazuhiko Nishide (Dept of Biol Sci, Osaka Univ)

P-157:	Involvement of an apoptosis-inducing adaptor, FADD in embryonic development of Xenopus laevis 細胞死誘導アダプター分子FADDの胚発生における機能解析 Kazuhiro Sakamaki (Dept. Animal Dev. Physiol., Grad. Sch. Biostudies, Kyoto Univ.)

P-158:	Dynamic shape changes of ECM-producing cells drive morphogenesis of ball-and-socket joints in the fly leg ECM産生細胞の形状変化が司る骨格の形態形成：ハエ成虫肢のBall-and-socket型関節 Reiko Tajiri (RIKEN CDB)

P-159:	A non-cell autonomous genetic screen for identifying regulators of cell competition ”細胞非自律的”スクリーニングによる細胞競合機構の遺伝学的解析 Kyoko Takino (Dept of Cell Biology, G-COE, Kobe Univ Grad Sch of Med)

P-160:	Balance of Planar and Apico-basal Forces Orchestrate the Invagination of the Drosophila Tracheal Placode ショウジョウバエ気管原基の陥入を制御する平面および頂端-基底方向の力 Takefumi Kondo (RIKEN CDB)

P-161:	Function of progesterone during zebrafish gastrulation Bon-chu Chung (IMB, AS)

P-162:	Functional analysis of Lgr4 in the morphogenesis of ectodermal tissues 外胚葉組織形成におけるLgr4の機能解析 Kazunori Oyama (Lab. Mol. Biol., Grad. Sch. of Agr. Sci., Univ. of Tohoku)

P-163:	A LIM-homeodomain factor Lhx1 is required for neural retina formation in the early chicken optic vesicle LIMホメオドメイン因子Lhx1はニワトリ初期眼胞の神経網膜形成に必要である Takumi Kawaue (Dept. of Life Systems, The Univ. of Tokushima)

P-164:	Segmentation and rostro-caudal patterning of somites is not essential for metameric pattern of vertebral body/intervertebral disc formation 体節の分節化と前後極性は椎体／椎間板の繰り返しパターンの形成に必須ではない Yu Takahashi (NIHS)

P-165: (SW1-06) 16:15-16:30	Epithelialization and extension of tubular structures are regulated by interactions between neighboring tissues 生体内における上皮管組織の形成と伸長の制御機構 Yuji Atsuta (NAIST)

P-166:	Regulation of Growth and Planar Cell Polarity by Fat-Dachsous signaling Hitoshi Matakatsu (UW-Madison)

P-167:	Control of body size by chico and epidermal growth factor receptor, as revealed by systemic nymphal RNA interference in the cricket. Noha Dabour (Tanta Univ)

P-168:	Rspo3 is required for the angiogensis and the arterial differentiation during zebrafish embryogenesis Chiung-Fang Chang (CSMU)

P-169:	Limited functions of Hox genes in the larval development of the ascidian, Ciona intestinalis カタユウレイボヤの幼生までの発生におけるHox遺伝子の機能は限定的である Hidetoshi Saiga (Dept.of Biol. Sci., Grad.Sch.of Sci., Tokyo Metropolitan Univ.)

P-170:	zic1 and zic4 expression in the somite regulates dorsalization of the medaka trunk 体節におけるzic1およびzic4の発現はメダカ体幹部の背側化を引き起こす Toru Kawanishi (Dept. Biol. Scis., Grad. Sch. Sci., Univ. Tokyo)

P-171:	BMP-switching regulates lineage specification and migration of neural crest cells 神経冠細胞の移動と分化運命を規定するBMPスイッチング Daisuke Saito (NAIST)

P-172: (SW1-11) 17:30-17:45	Exploring the Role of AP-1 family transcriptional factors on the Patterning of Limb Buds in Chicken Embryo ニワトリ胚の肢芽における AP-1 転写因子群の機能解析 Natsuno Suda (Tokyo Tech)

P-173: (HT1-06) 15:15-15:30	Two cell-surface proteins Dally-like and Ihog differentially regulate Hh signalling strength and range during development Xinhua Lin (Institute of Zoology, Chinese Academy of Sciences, Beijing, Division of Developmental Biology, Cincinnati Children's Hospital Medical Center, Cincinnati, OH 45229, USA)

P-174: (SW1-02) 15:15-15:30	Nodal signaling controls left-right asymmetric ocellus formation in Ciona intestinalis Nodalシグナリングはカタユウレイボヤにおける左右非対称な眼点の形成を司る Keita Yoshida (Dept. Biol. Sci., Grad. Sch. Sci. Engi., Tokyo Metropolitan Univ.)

P-175:	Wnt signal plays essential roles in the left-right asymmetric development of the embryonic gut in Drosophila. ショウジョウバエ消化管の左右非対称性形成におけるWntシグナルの機能 Junpei Kuroda (t.u.s)

P-176:	Development of enhancer trap lines using the GAL4/UAS system in the cricket, Gryllus bimaculatus コオロギにおける GAL4/UASシステムを用いたエンハンサートラップ系統の作製 Koji Matsuda (Dept. of Life System, Inst. of Tech. and Sci., Univ. of Tokushima)

P-177:	Eph4-Dependent Dorsoventral Polarity Regulates Convergence and Extension-Mediated Notochord Formation in the Urochordate Ciona intestinalis . ホヤの脊索形態形成における頂底細胞極性の役割 Izumi ODA-ISHII (CVRI UCSF)

P-178:	Twinning formation in Xenopus laevis embryo アフリカツメガエルの２次胚形成 Eiji Sato (Dept.of Biochem., Hamamatsu Univ.Sch.of Med.)

P-179:	Genetic analysis of cell-elimination that regulates intrinsic tumor suppression and epithelial maintenance in Drosophila 上皮の動的恒常性維持システムを司る細胞排除機構の遺伝学的解析 Shizue Ohsawa (Dpt of Cell Biol, Kobe Univ, Kobe, Japan)

P-180: (S08-09) 16:20-16:40	Dorsal axis formation by maternal squint is mediated by a non-coding function of the RNA Shimin Lim (TLL, Singapore)

P-181:	A comprehensive study on expression patterns of zebrafish ADAM genes ゼブラフィッシュADAM遺伝子の包括的発現解析 Kazuya Sakaguchi (Department of Growth Regulation, IFMS, The Laboratory of Functional Biology, Kyoto University Graduate School of Biostudies)

P-182:	Analysis of microRNAs in the Hox cluster in the water flea, Daphnia magna オオミジンコHoxクラスター内に存在するmicroRNAの解析 Eisuke Komatsubara (Sch. of Life Sci., Tokyo Univ. of Phrm. and Life Sci.)

P-183:	Identification and functional characterization of zebrafish regulatory of G protein signaling 4 (zrgs4) gene Li-Sung Hsu (Institue Biochem. Biotech., Chung Shan Medical University)

P-184:	Hunting for Novel Genes that Regulate Planar Cell Polarity: A Mutation of a Cohesin-subunit Gene Affected both PCP and Cell Packing 平面内細胞極性を制御する遺伝子の探索：コヒーシンの突然変異はPCPと細胞パッキングに影響する Kousuke Mouri (Grad. Sch. of Biostudies , Kyoto Univ.)

P-185:	Regulation of DAN expression in the otic vesicle of the chick embryo ニワトリ胚耳胞におけるDANの発現制御 Kenjiro Katsu (Div.of Pattern Formation, IMEG, Kumamoto Univ.)

P-186:	Spiculus skeleton formation as a new model system to reveal positional information and mechanisms of response to it in sponges カイメンにおけるパターン形成機構「骨片骨格形成」―等間隔に立てられる骨片パターンと骨片運搬細胞の発見 Noriko Funayama (Dept. of Biophys., Graduate School of Science, Kyoto Univ.)

P-187:	A Ubiquitin Receptor Regulates Planar Cell Polarity in Drosophila 平面内細胞極性を調節するユビキチン結合タンパク質 Shin-ya Horiuchi (Grad. Sch. of Biostudies, Kyoto Univ.)

P-188:	Molecular cloning and gene expression of the col2a1a and col2a1b genes during medaka embryonic development メダカの胚発生時期におけるcol2a1a 、col2a1b遺伝子の同定と発現パターン解析 Tomohiro Matsumoto (AIST, First Dept. of Oral and Maxi. Surg,, Tsurumi Univ., Div. of Oral and Maxi Imp., Tsurumi Univ.)

P-189: (SW1-01) 15:00-15:15	Involvement of Mitf in the retinal pigment epithelium development and its possible regulators 網膜色素上皮発生へのMitfの関与とその候補制御因子 Daisuke Nishihara (Grad. Sch. of Life Scis., Tohoku Univ.)

P-190:	Identification and Expression Patterns of Zebrafish Cyclin-Dependent Kinase10 (zcdk10) gene Chi-Wei Yeh (IBB)

P-191:	Gene expression analysis during eye formation and maintenance 眼球形成維持に関与する遺伝子の発現解析 Akira Ito (PTHS)

P-192:	Pattern formation by Hedgehog signaling in the early spider embryo: long-range repression and subsequent progressive derepression ヘッジホッグ・シグナルによるクモ初期胚のパターン形成：長距離抑制と抑制の解除 Yasuko AKIYAMA-ODA (JT Biohistory Res. Hall)

P-193: (SW2-12) 17:45-18:00	Analysis of Dictyostelium prestalk-specific gene expression 細胞性粘菌の予定柄細胞特異的遺伝子発現の解析 Hiroshi Senoo (UGAS)

P-194:	Morphological changes in oral muscles and innervation during lancelet (amphioxus) metamorphosis ナメクジウオ変態期の筋と神経支配の形態変化 Kinya Yasui (MBL, Hiroshima Univ.)

P-195:	Analysis of Nanog expression during blastocyst formation in mouse 胚盤胞形成過程におけるNanogの発現解析 Kouji Komatsu (NIBB)

P-196:	Netrin / UNC-6 signal regulates epidermal morphogenesis in C. elegans. 線虫C. elegans においてNetrin / UNC-6シグナルは表皮形態形成を制御する Ken Kodama (DBS)

P-197:	A role for Lrp5 and its putative inhibitor Sost in the development of the cranial skeleton. Bernd Willems (DBS NUS)

P-198:	The control of inner ear morphogenesis by Sprouty and Tbx1 genes Sprouty及びTbx1遺伝子による内耳形態形成の制御 Yuichiro Yaguchi (DSCH)

P-199:	Sall4 plays multiple roles in heart formation 心臓形成におけるSall4の多様な役割 Kazuko KOSHIBA-TAKEUCHI (IMCB, Univ. of Tokyo)

P-200:	Targeted disruption of the Sema6D gene leads to early embryonic lethality. セマフォリンファミリー遺伝子Sema6Dはマウス初期発生に必須である Wataru Kimura (Hamamatsu Univ.)

P-201:	Role of phytohormones in CINCINNATA-mediated control of leaf morphogenesis in Antirrhinum majus Mainak Das Gupta (IISc)

P-202:	Cleft palate in mice of sonic hedgehog and its cis-regulatory region MFCS4 Shh/MFCS4コンパウンドヘテロマウスの口蓋裂 Shigeru Okuhara (Section of Molecular Craniofacial Embryology, Graduate School of Tokyo Medical and Dental University)

P-203: (S04-04) 15:30-15:45	Interaction of Bbs8 with the core PCP protein Vangl2 is required to establish left-right asymmetry in zebrafish Bbs8とVangl2の協調的な働きがゼブラフィッシュの左右比対称性の決定に必要である Masatake Kai (NIBB, UCL)

P-204:	A FKBP (FK506 Binding protein) enhances BMP signaling during Xenopus dorso-ventral patterning Inchul Yeo (POSTECH)

P-205:	Possible mechanism to lateralize eye-sidedness in opposite direction between sinistral and dextral flounders ヒラメとカレイで眼位を逆に固定するメカニズムの推定 Tohru Suzuki (Grad.Sch.of Agric.Sci., Tohoku Univ.)

P-206:	Xwnt8 acts cell-autonomously in early Xenopus embryo. Analysis in the luciferase assay. ゼノパス初期胚でXwnt8は細胞自律的に機能する。ルシフェラーゼアッセイによる解析。 Tomohiro Narita (Mol. Biol. 1, Kawasaki Med. Sch.)

P-207:	Cell-autonomous expression of chordin caused by the injection of Xwnt8 mRNA in early Xenopus embryos ゼノパス初期胚でのXwnt8 mRNA注入による細胞自律的なchordinの発現 Eriko Motomura (Grad. Sch. of Sci. and Engi., Kagoshima Univ.)

P-208: (HT2-03) 14:30-14:45	Identification of a novel ubiquitin ligase regulating Dishevelled in Wnt signaling pathways Seong-Moon Cheong (POSTECH)

P-209: (SW4-01) 16:15-16:30	*Analysis of Xenopus* CXCR7 during gastrulation** Keita Masuda (Transdisciplinary Life Science, Graduate school of Life Science, Hokkaido University)

P-210: (SW4-07) 16:30-16:45	*The role of PRMT1 in TR mediated transcription in the intestinal remodeling during Xenopus* metamorphosis** Hiroki Matsuda (National Institutes of Health, Johns Hopkins University School of Medicine)

P-211: (SW4-06) 16:00-16:15	Function of endotelin-3 and endothelin receptor B2 in Xenopus laevis melanophore migration アフリカツメガエルのメラノブラスト移動におけるエンドセリンシグナルの役割 Akiha Nishihara-Kawasaki (Dept. Dev. Biol. and Neurosci. Graduate School of Life Sci. Tohoku Univ.)

P-212: (SW4-02) 15:00-15:15	The integrated regulation of Xenopus cerberus by transcription factors downstream of Nodal/ Wnt/ BMP Nodal、Wnt、BMPの下流転写因子によるXenopus cerberusの統合的な発現制御機構 Norihiro Sudou (Lab.of Mol.Biol., Dept.of Biol.Scis., Grad.Sch.of Sci., Univ.of Tokyo)

P-214:	Hunting for target genes of transcription factors that control neuronal class-specific dendrite morphogenesis 樹状突起パターンの多様性を生み出す転写調節因子群の下流遺伝子探索 Yukako Hattori (Grad. Sch. Biostudies, Kyoto Univ.)

P-215:	Pleiotropic functions of a Class V POU transcription factor Pou2/Pou5f1 in patterning of the body and brain in zebrafish embryos revealed by the transgenic approach. ゼブラフィッシュ胚発生におけるPOUクラスV転写因子Pou2/Pou5f1の多面的機能 Kyo Yamasu (Div. of Life Sci., Grad. School Sci. Eng., Saitama Univ.)

P-216:	Novel aspect of flounder brain sidedness revealed by expression analyses of nervous system marker genes. 神経マーカー遺伝子の発現解析で明らかになったヒラメ脳の新しい非対称性の側面 Youhei Washio (BII, Graduate School of Agricultural Science, Tohoku University, JSPS Research Fellow)

P-217:	Anterior neural development requires Del1, a matrix-associated protein that attenuates canonical Wnt signaling via the Ror2 pathway 吻側神経発生に必須なマトリックスタンパク質Del1によるRor2経路を介した古典的Wntシグナル抑制 Akira Takai (CDB)

P-218: (SW3-12) 17:45-18:00	Naturally occurring cell death in the developing Drosophila optic lobe requires different effecter caspases for different sub-regions ショウジョウバエ視葉の自然発生細胞死には異なる領域で異なる実行カスパーゼが働く Hiromi Akagawa (TAT)

P-219: (HT1-02) 14:15-14:30	Wnt and FGF signals via MAPK and pAKT regulate development and differentiation of the trigeminal placodes Claire Canning (IMB)

P-220:	Dendrite reshaping in adult Drosophila sensory neurons ショウジョウバエ成虫期における感覚ニューロン樹状突起構造の再編 Kei-ichiro Yasunaga (Neural Morpho. lab., Nat. Inst. of Genet.)

P-221:	Apoptosis contributes to normal brain morphogenesis not by restricting cell number but by ensuring the completion of neural tube closure 脳の初期形態形成においてアポトーシスは、細胞数の調節ではなく、神経管閉鎖の完了に必要である Keiko Nonomura (Dept. Genetics, Grad. Sch. Pharm. Scis, Unv. Tokyo)

P-222:	Dynamics of dendritic arborization of cerebellar Purkinje cells 小脳プルキンエ細胞の樹状突起形成のダイナミクス Kazuto Fujishima (iCeMS, Kyoto Univ.)

P-223:	Dual roles of Notch in regulation of apically restricted mitosis and apicobasal polarity of neuroepithelial cells 神経上皮細胞のアピカル面に限局した細胞分裂と細胞極性の維持におけるNotchの役割 Shinya Ohata (Lab. for Developmental Gene Regulation, BSI, RIKEN)

P-224:	*Mouse Mab21l2* potentiates neural differentiation** Chun-Wai Kwan (HKUST)

P-225:	Roles of NF-κB signaling in gliogenesis of mouse mesencephalic neural crest cells マウス中脳神経冠細胞のグリア細胞分化におけるNF-κBシグナルの役割 Kyohei Fujita (Dept. Bio Sci., Osaka Univ.)

P-226:	Roles for non-canonical opsins during chicken retinal differentiation ニワトリ網膜分化における非典型オプシンの発現解析 Hideyo Ohuchi (Dept. of Life Systems, Inst. of Tech. Sci., Univ. of Tokushima Grad. Sch.)

P-227:	Sbno1 promotes differentiation of cortical neurons in mouse brain development Sbno1はマウス大脳皮質ニューロン分化を促進する Yu Katsuyama (Kobe Univ Grad Sch Med)

P-228: (HT1-09) 16:00-16:15	A Wnt-Frz/Ror-Dsh pathway regulates neurite outgrowth in C. elegans Song Song (IGDB, CAS, GUCAS)

P-229:	Transcriptome analysis of Ciona intestinalis to identify genes expressed in the larval brain カタユウレイボヤ幼生における脳胞遺伝子のトランスクリプトーム解析 Mayuko Hamada (OIST)

P-230: (SW4-04) 15:30-15:45	A mechanism coordinating the establishment of the dorsal-ventral and anterior-posterior axes during early Xenopus embryogenesis 胚発生初期に背腹と頭尾のパターン形成が調和するしくみ Kimiko Takebayashi-Suzuki (Inst.Amphibian Biol.，Hiroshima Univ.Grad.Sch.Sci.)

P-231:	Molecular Cloning and Characterization of Neuronal Intermediate Filament Protein α-internexin in Chicken Embryos Chi-Hsiu Liu (NTUCM)

P-232:	Neural crest derivatives are involved with early mechanisms to maintain motoneuron cell bodies in the zebrafish embryonic spinal cord. ゼブラフィッシュ一次運動神経細胞体を脊髄内に保持する機構には神経冠由来細胞が関与する Mika SATO-MAEDA (Dept. Cell Biol., IDAC, Tohoku Univ.)

P-233: (S12-05) 15:30-15:45	Prox1 defines dentate granule cells by transforming CA3 pyramidal neurons in the hippocampus Prox1は海馬CA3錐体細胞から歯状回顆粒細胞への分化転換とその細胞運命維持に機能している。 Tomohiko Iwano (RIKEN CDB)

P-234:	New retinotectal projection pathway in deeper laminae of the developing chick optic tectum ニワトリ胚網膜視蓋投射における新規軸索経路 Minoru Omi (Dept. Mol. Neurobiol., Grad. Sch. Life Sci., Tohoku Univ.)

P-235:	draxin is essential for the guidance of thalamocortical projections draxinは視床皮質投射に必須である Yohei Shinmyo (Dept. of Dev. Neurobiol., Kumamoto Univ.)

P-236:	Gcm protein degradation mediated by F-box E3 ligases suppresses proliferation of glial progenitors Margaret Ho (IMB, AS)

P-237:	Transcriptional regulatory mechanism underlying the formation of the anterior neural boundary (ANB/ANR) in vertebrate embryos. 脊椎動物胚の前方神経境界（ANB/ANR）形成に関わる転写制御機構 Yuri Kuroyanagi (Life Sci., Grad. Sch. Sci. Eng., Saitama Univ.)

P-238:	The Cellular Composition of the Ventricular Zone and Neuronal Migration in the Adult Zebrafish Telencephalon ゼブラフィッシュ成魚の脳室壁付近の細胞構築とニューロン移動 Norihito Kishimoto (Dept. Dev. Regene., Nagoya City Univ., Sch. Med. Sci., Center for Integrated Medical Research, Keio University)

P-239:	Foxp4 is important for Purkinje cell dendritic aborization maintenance in the mouse cerebellum Kit Ying Crystal Leung (MBT, CUHK)

P-240:	Analysis of Dmrta1 as a downstream gene of Pax6 in early development of the telencephalon 終脳発生過程におけるPax6下流遺伝子Dmrta1の機能解析 Takako Kikkawa (Div. Dev. Neurosci., Tohoku Univ. Grad. Sch. Med.)

P-241:	Identification and characterization of a mouse recessive mutation which displays neurulation defects 神経管形成不全を示すマウス劣性致死変異体の解析 Mami Tsume (Osaka Med. Cent. for MCH, Osaka Univ. Sch. Med.)

P-242:	Integration of Prepatterning Mechanisms to Establish Drosophila Sensory Neuron Class-Specific Character. MD. REZAUL Karim (RIKEN BSI)

P-243:	Zebrafish Kuririn is a critical factor for the telencephalic neurogenesis through the regulation of Hes-related gene ゼブラフィッシュKuririnはHes関連遺伝子の発現制御を介して終脳の神経分化に重要な因子である Yoshinari Nakahara (Hiroshima University)

P-244:	Neurogenesis of habenula nuclei requires Wntless activity in zebrafish Yung-Shu Kuan (IBS-NTU TAIWAN, IBC-AS TAIWAN)

P-245:	Molecular addresses: motifs involved in compartment-specific localization of guidance receptors in Drosophila axons Rajshri Joshi (NIG, SOKENDAI)

P-246:	ErbB signaling involved in neurogenesis in the developing tectum in zebrafish ErbBシグナル伝達は発生過程のゼブラフィッシュ視蓋における神経産生に関与する Tomomi Sato (Frontier Med Sci, Kyoto Univ)

P-247:	Evolutionarily conserved protein Dogi is expressed in the Drosophila olfactory projection neurons and cell-autonomously required for the neurite targeting ショウジョウバエ嗅覚系投射神経に発現する新規分子Dogiの神経突起ターゲティングにおける役割 Chisako Ando (Dept. Genetics, Grad. Sch. Pharm. Sci., Univ. Tokyo)

P-248:	Sub-lineage-Specific Modification of Notch Transcriptional Regulation by Hamlet Generates Drosophila Olfactory Sensory Neuron Diversity キイロショウジョウバエ嗅覚神経細胞の多様性は細胞系譜特異的なNotchシグナルの修飾により獲得される Keita Endo (IMCB, Univ. of Tokyo)

P-249: (HT2-02) 14:15-14:30	Hoxb1 cooperates with Gli to mediate sonic hedgehog signaling in the neurogenesis of hindbrain Wang Xingan (HKU)

P-250:	Interaction of Semaphorin signaling in the central olfactory projection 嗅球軸索投射におけるセマフォリンシグナルの相互作用 Takahiko Kawasaki (NIG, SOKENDAI)

P-251:	Meigo, a putative UDP-sugar transporter regulates dendritic and axonaltargeting along medial to lateral axis in the Drosophila antennal lobe ショウジョウバエ嗅覚系神経回路の軸索・樹状突起投射：糖核酸輸送体様蛋白質Meigoによる制御 Sayaka Sekine (Dept. Genetics, Grad. Sch. Pharm. Scis, Univ. Tokyo)

P-252:	Tspyl2 Regulates Hippocampal Long-term Potentiation via NMDA Receptor Subunits Nr2a and Nr2b Expression Ka Hing Tsang (Department of Paediatrics and Adolescent Medicine, HKU)

P-253:	Centrosomal Protein Ninein May Control Interkinetic Nuclear Migration in Neuroepithelial Cells 神経上皮細胞のエレベーター運動における中心体タンパク質Nineinの機能解析 Hiroshi Shinohara (Tohoku Univ. School of Medicine)

P-254:	Analysis of the mechanism that defines the stage-dependent function of neocortical progenitor cells 発生の進行に伴い変化する大脳前駆細胞の性質を規定しているメカニズムの解析 Mayumi Okamoto (Dep. Anatomy and Cell Biol., Nagoya Univ. Grad. Sch. of Med.)

P-255:	Control of Dendritic Self-Avoidance by the Seven-Pass Transmembrane Cadherin Flamingo and PET-LIM domain protein Espinas in Drosophila Sensory Neurons FlamingoとEspinasは感覚ニューロンの樹状突起自己忌避を恊働的に調節する Tadao Usui (Grad. Sch. Biostudies, Kyoto Univ.)

P-256: (SW3-09) 17:00-17:15	Concentric zones, cell migrations and neuronal circuits in the Drosophila visual center 発生過程のショウジョウバエ視覚中枢を区画化する転写因子群の解析 Eri Hasegawa (FSO, Kanazawa Univ.)

P-257:	Role of cadherins in vocal learning of a songbird 鳥類の歌学習におけるcadherin分子の役割 Eiji Matsunaga (Lab for Symbolic Cognitive Development , RIKEN BSI, Lab for Biolinguistics, RIKEN BSI)

P-258:	Intercellular trafficking of Vax1 homeotic transcription factor Namsuk Kim (KAIST)

P-259:	Nephrin/NEPH1 homolog proteins play a role in the specific interaction between pre- and post-synaptic neurons during development of Drosophila visual system Nephrin/NEPH1ホモログによるシナプス前後細胞間認識 Atsushi Sugie (IMCB, Univ. of Tokyo)

P-260:	Long-term In Vivo Time-lapse Recordings of Dendritic Development and Organelle Dynamics 神経樹状突起の伸長およびオルガネラダイナミクスの長時間タイムラプスによるin vivoでの観察 Ritsuko Suyama (kyoto univ.)

P-261:	Developmental gene regulation involving cooperative interaction of SOX-PAX transcription factors SOX-PAX因子の協同による発生過程の転写制御 Tomoyuki Mikami (Graduate School of Frontier Bioscience. Osaka University)

P-262:	Ex vivo live-imaging at high resolution to directly visualize melanin transfer from melanocytes to keratinocytes 色素細胞の挙動とメラニン輸送の可視化：表皮培養法を用いたライブイメージング観察 Ryosuke Tadokoro (NAIST)

P-264:	Function of LXXLL motif-containing nuclear receptor dax1in zebrafish development LXXLLモチーフを持つ核内受容体Dax1のゼブラフィッシュ発生過程における機能 Yoshifumi Yajima (JAIST)

P-265: (SW1-08) 16:45-17:00	Epithelial cell-intrinsic Notch signaling is essential for maturation of GALT 腸管関連リンパ組織の成熟における上皮性Notchシグナルの役割 Yuuki Obata (RIKEN, RCAI)

P-266:	Developmental Properties of the Fin Mesenchyme in Zebrafish ゼブラフィッシュ発生期におけるヒレ間充織の性質 Tohru Yano (Dept. Dev. Biol. and Neurosci., Grad. Sch. Sci., Tohoku Univ., JSPS Research Fellow)

P-267:	SRY-dependent inducibility of SOX9 expression in developing mouse ovaries: A sexually bipotential population of granulosa cells and its contribution to sexual plasticity in ovarian follicles マウス卵巣における性的未分化性と可塑性 Kyoko Harikae (Department of Veterinary Anatomy, The University of Tokyo)

P-268: (HT2-11) 16:30-16:45	New transcription factors in early mouse eye development Ling Yin Tang (O&G, CUHK)

P-269:	Kyoho ; the huge blood cell medaka mutant Kyoho ; 巨大な血球が生じるメダカ変異体 Kiyohito Taimatsu (Department of Biological Information, Tokyo Institute of Technology)

P-270:	Maintenance of the zic1-expression boundary from embryo to adult in medaka メダカにおいてzic1発現境界は胚期から成体まで維持される Takuya Kaneko (Dept. Biol. Sci., Grad. Sch. Sci., Univ. Tokyo)

P-271:	DYSREGULATION OF RETINOIC ACID SYNTHESIS IN EMBRYOS UNDER DIABETIC OR HYPERGLYCEMIC CONDITION Roy WL Chan (School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong)

P-272:	The lymphatic development is visible in vivo in a pFLT4-EGFP transgenic medaka pFLT4-EGFPトランスジェニックメダカを用いたin vivoでのリンパ管発生観察 Tomonori Deguchi (AIST)

P-273: (SW1-09) 17:00-17:15	Sizzled in the foregut restricts liver region into anterior intestinal portal in the chicken embryo. 前腸で発現するsizzledは肝臓領域を前腸門付近に制限する Yui Okayama (Dept. Biol., Tokyo Metropol. Univ.)

P-274: (SW1-07) 16:30-16:45	The functional role of collagen fibrillogenesis in tendons during establishment of the musculoskeletal system 運動器連結システムにおけるコラーゲン線維形成の機能解析 Yuki Sugimoto (Dept. of Cellular Diff., Inst. for Front. Med., Kyoto Univ.)

P-275:	MODULATING ORGAN SIZE BY ALTERING THE ACTIVITY OF TCP4 TRANSCRIPTION FACTOR IN Arabidopsis thaliana Kavitha Sarvepalli (IISc)

P-277:	Functional analysis of VEGF in myeloid cell differentiation in the ventral blood islands in Xenopus embryo ゼノパス胚腹部血島の骨髄球分化におけるVEGFの役割 Sayaka Kurihara (Grad. Sch. Sci., Niigata Univ.)

P-278:	Arterial and venous vessels are required for modulating developmental relocalization and laterality of the interrenal tissue in zebrafish Yi-Wen Liu (Department of Life Science, Tunghai Universiy, Taiwan)

P-279:	Regulation of enhancer NOP-1/2 of Sox2 in the nasal/otic placode specification Sox2遺伝子の鼻・耳プラコード特異的活性を示すNOP-1/2エンハンサーの解析 Masanori Uchikawa (Grad.Sch.of Frontier Bioscis., Osaka Univ.)

P-280:	islet-1 is transiently expressed in the tectum of E3 chick embryos islet-1はニワトリ３日目胚の視蓋で一過的に発現する Akinobu Kakehata (Dept Chem & Bioeng, Fac Eng, Iwate Univ)

P-281: (HT1-10) 16:15-16:30	Ankrd17 is an essential regulator for vascular smooth muscle cell differentiation program to maintain the vascular integrity Yu-Ting Yan (IBMS, Academia Sinica)

P-282:	Functional analyses of Mab21l2 during heart and liver development 心臓と肝臓の形成過程におけるMab21l2 の機能解析 Yohei Saito (Grad. Sch. Agr. LifeSci. Univ Tokyo)

P-283:	Growth arrest of chicken embryonic cardiomyocytes by the extract of new born chicken heart ニワトリ雛心臓抽出液によるニワトリ胚性心筋細胞の増殖阻害 Akio Inoue (Dept. Biol. Grad. Sch. Sci. Osaka Univ.)

P-284:	Investigation of a Novel Retinoic Acid Negative Feedback Mechanism by a Retinoic Acid-Induced Renal Agenesis Mouse Model Walfred Tang (School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong, Hong Kong)

P-285:	Immunohistochemical profiling of the basement membrane composition during early stages of mouse embryogenesis マウス初期胚における基底膜蛋白質の局在解析 Sugiko Futaki (IPR Osaka Univ)

P-286:	Ubiquitin proteasome system is essential for the lens development. ユビキチンプロテアソームシステムは水晶体の発生に必須である Fumiyasu Imai (OIST)

P-287:	Microtubule mediated targeting of E-cadherin in de novo adherence junction formation during epithelial organogenesis 微小管が制御する上皮性組織構築における新規接着部位の形成 Kagayaki Kato (RIKEN CDB)

P-288:	Ovca1 is Required for the Mouse Cardiac Morphogenesis Yi-Ru Yu (LSIGS)

P-289:	Molecular and cell fate analyses of androgen dependent hemato-vascular development アンドロゲン依存性のメダカ初期胚血球血管分化メカニズム解析 Yukiko Ogino (Dept. of Organ Fromation, IMEG,Kumamoto Univ.)

P-290:	Sickie, a NEURON NAVIGATOR homolog, is required for the axonal development of Drosophila mushroom body neurons. Sickieはショウジョウバエ脳のキノコ体神経細胞の軸索形成に必要である Takashi Abe (IMCB)

P-291:	*Elevated Glucose is the Critical Factor that Down-regulates the Expression Level of the Retinoic Acid Catabolizing Enzyme Cyp26a1* in Embryos of Diabetic Pregnancy** Leo MY Lee (School of Biomedical Sciences, Faculty of Medicine, The Chinese University of Hong Kong, Hong Kong)

P-292:	Guidance of coronary and epicardial precursor cells to the heart by myocardium-derived BMP signals BMPシグナルによる冠血管/心外膜前駆細胞の心臓への誘導 Yasuo Ishii (CVRI, UCSF)

P-293:	A novel role of Neptune in induction of the hatching gland and neural crest in the Xenopus embryo アフリカツメガエル胚の孵化腺および神経冠誘導におけるNeptuneの新たな役割 Tohru Hoshino (Grad. Sch. Sci., Niigata Univ.)

P-294:	Tissue interactions in the organogenesis of the juxta-oral organ in mice マウス口腔傍器官発生における組織間相互作用について Masataka Ito (NDMC)

P-295:	In vitro transformation from neural plate to placode provides mechanistic insights into placode subtype specification 培養神経板のプラコードへの形質転換実験系を用いたプラコードサブタイプの決定メカニズムの解析 Yoshio Wakamatsu (Div.of Dev.Neurosci., Tohoku Univ.Grad.Sch.of Med.)

P-296:	Functional analysis of COUP-TFII during craniofacial development Li-Ru You (IBMB)

P-297:	Spatiotemporal specification of gallbladder/bile duct progenitors in mouse foregut development マウス前腸発生における胆嚢/胆管前駆細胞の時空間的な特異化 Mami Uemura (Department of Veterinary Anatomy, The University of Tokyo)

P-298:	Six1 and Six4 homeoproteins are required for gonadal development in mouse gonads. Six1/Six4 遺伝子はマウス生殖線形成に必須である Yuka Fujimoto (IMEG, Dept. of Kidney Dev., Kumamoto Univ.)

P-299: (HT2-08) 15:45-16:00	Molecular Determinants of Drosophila Hematopoietic Precursors in Lymph Gland Development Mandal Lolitika (IISER(M))

P-300:	The regulation of oligodendrocyte number and differentiation by a signaling molecule swap-70 シグナル分子swap-70によるオリゴデンドロサイトの数と分化の制御 Norio Takada (UCAMC)

P-301:	Six1 enhancers as a tool to understand vertebrate sensory organogenesis Six1エンハンサーを利用した脊椎動物の感覚器形成の理解 Shigeru Sato (Div. of Biol., Jichi Med. Univ.)

P-302:	An in vitro neurogenesis model to study gene dosage imbalance and epigenetics in Down's syndrome Chi Chiu Wang (O&G, CUHK, SBS, CUHK, CIB & DDBJ, NIG)

P-303:	Molecular mechanism underlying the anterior-posterior body patterning during planarian regeneration プラナリア再生過程における前後軸パターニングの分子機構 Yoshihiko Umesono (Kyoto Univ. Department of Biophysics)

P-304:	The Planarian homeobox gene DjotxA is required for the patterning and specification of the neuronal subtypes in the planarian brain プラナリアの脳形成に関わるホメオボックス関連遺伝子 DjotxAの機能解析 Manami Fushiki (Dep.Biophys.Kyoto Univ.)

P-305: (HT2-10) 16:15-16:30	Hedgehog signaling is responsible for establishment of anterior-posterior polarity and tail development in planarian regeneration. プラナリアの再生における前後の極性決定と尾の再生 Shigenobu Yazawa (Dept Biophys, Kyoto Univ)

P-306:	Alteration in tissue and cell-cell interaction triggers the expression of early genes necessary for amphibian retinal regeneration アフリカツメガエル網膜再生初期に見られる色素上皮細胞の基底膜遊離と網膜幹細胞化に必要な遺伝子発現 Masasuke Araki (Dept.of Biol.Scis., Fac.of Sci., Nara Women's Univ.)

P-307:	Epigenetic Reprogramming of Fibroblasts into Osteo-chondroprogenitors Luhui Lu (Department of Biochemistry, the University of Hong Kong, Hong Kong SAR)

P-308: (SW4-08) 16:45-17:00	A possible reason why both ouro1 and ouro2 genes are required for tail regression during tadpole metamorphosis おたまじゃくしの変態時の尾部退縮になぜオウロ１とオウロ２両方の遺伝子が必要なのか Tomomi Ohsima (Dept. Biol., Niigata Univ.)

P-309:	Lowfat regulates leg size and growth under the Dachsous/Fat signaling during regeneration in Gryllus bimaculatus LowfatはDachsous/Fatシグナルを介してコオロギ脚再生を制御する Tetsuya Bando (Dept. of Life System, Univ. of Tokushima)

P-310:	The phenotypic analyses of zebrafish shippo-saki-marumari mutant that shows the defect in fin development and caudal fin regeneration ヒレの形成と尾ビレの再生に異常を示すshippo-saki-marumari変異体の解析 Ryo Hirabayashi (Hiroshima Univ.)

P-311: (SW2-01) 15:00-15:15	Two different regenerations accomplish limb regeneration cooperatively ２つの異なる再生システムが協調して四肢再生を完遂する Akira Satoh (RCIS)

P-312:	AP2γ functions as a BMP downstream target to regulate primitive ectoderm fate determination Yunbo Qiao (SIBCB)

P-313: (SW4-10) 17:15-17:30	Different mechanisms in initiation of limb regeneration between larval and adult Xenopus 幼生期と成体期のアフリカツメガエルでみられる四肢再生における異なる開始機構　 Hitoshi Yokoyama (Dept. of Dev. Biol., Grad. School of Life Sci., Tohoku Univ.)

P-314:	Cell lineage analysis of fish fin blastema for their potential producing multiple cell types during regeneration 再生芽細胞の多分化能力を検証するための、魚類鰭の再生組織における細胞系譜の解析 Atsushi Kawakami (Tokyo Tech.)

P-315:	Checkpoint for fast proliferating blastema cells during finfold regeneration 再生細胞の早い細胞増殖を検問するチェックポイントメカニズム Teruhiro Nakajima (Tokyo Tech)

P-317: (SW4-09) 17:00-17:15	Analysis of the mechanisms that determine tail regenerative ability in Xenopus laevis tadpoles アフリカツメガエル幼生における尾の再生能力規定要因の解析 Yuko Naora (Dept. Biol. Sci., Grad. Scl. Sci., Univ. Tokyo)

P-318:	Avian stem cells and the application for biotechnology 鳥類幹細胞のバイオテクノロジーへの活用 Hiroshi Kagami (Animal Dev. Genet. Lab. Shinshu Univ.)

P-319:	Efficient derivation of isogenic embryonic stem cells from single preimplantation blastomeres Hung-Chih Kuo (ICOB, Academia Sinica)

P-320:	Development and regeneration of the articular cartilage 関節軟骨の発生と再生 Mikiko Miura (PTHS)

P-321: (SW2-05) 16:00-16:15	Studies on the mode of cell division during differentiation of archeocytes (pluripotent stem cells) in sponge, Ephydatia fluviatilis 最も起源的な幹細胞システム(カイメン幹細胞システム)における分裂様式の解析 Kazuko Okamoto (Dept.Biophys.Grad.Sch.Sci., Kyoto univ.)

P-322:	CCN3 regulates several independent extracellular signalings during development Kenichi Katsube (Tokyo Med Dent Univ)

P-323:	Effects of Sox2 expression level on direct reprogramming efficiency by alternative somatic cell fate 体細胞のiPS細胞化の運命を左右するリプログラミング因子Sox2 Shinpei Yamaguchi (Stem Cell Engineer., Inst. Frontier Med. Sci., Kyoto Univ., JST, CREST)

P-324: (HT2-05) 15:00-15:15	Cell-Substrate Interactions Dictate Heterogeneity of Mouse Embryonic Stem Cells 細胞-基質間相互作用がマウス胚性幹細胞の不均一性を規定する Tetsuya Tanaka (ASL, UIUC)

P-325:	Zfp521 drives the intrinsic transition of ES cell differentiation into neural progenitors Zfp521はES細胞から神経前駆細胞への分化転換を司る Daisuke Kamiya (RIKEN CDB)

P-326:	Sox10 mediates proliferation and migration behavior of enteric neural crest cells Mei Zhang (Department of Biochemistry, HKU)

P-327:	Roles of the epithelial structure in neural progenitor self-renewal in the mammalian developing neocortex. マウス神経幹細胞の自己複製能における上皮構造の役割 Atsunori Shitamukai (RIKEN CDB)

P-328:	Community Effect Triggers Terminal Differentiation of Myogenic Cells by Quenching Smad Signaling Pathway コミュニティー・イフェクトは、Smad経路を抑制し、筋分化を誘導する Naohiro Hashimoto (Dept Reg Med, NILS, NCGG)

P-329:	In vitro differentiation of mouse embryonic stem cells into inner ear hair cells using stromal cells ストローマ細胞を用いたマウスES細胞から内耳有毛細胞への分化誘導 Masahide Yoshikawa (Program in Tissue Engineering, Dept.of Parasitology, Nara Medical University)

P-330: (S12-01) 13:45-14:00	Ovol2 regulates cell fate decision between neuroectoderm and mesendoderm in ES cells and chick embryos Ting Zhang (SIBCB)

P-331:	Genetic manipulation and cloning of culture cells derived from ovarian somatic stem cells in Drosophila ショウジョウバエ卵巣由来体性幹細胞の遺伝子操作とクローニング Hiroshi Uetake (Dept. of Sciences, Faculty of Science, Ibaraki Univ)

P-332:	The mechanism underlying the switching of reproductive strategies in planarian: pluripotent stem cell transplantation using microsatellite markers to identify donor-derived cells 細胞識別マーカーを用いた幹細胞移植によるプラナリア生殖戦略決定機構の解明 Hanae Nodono (Dept. of Bioscis. & Informatics, Fac. of Sci. & Tech., Keio Univ.)

P-333:	Expression of engrailed-Hoxb5 transcriptional repressor by Wnt1-Cre produces neurocristopathies of pigmentation and enteric nervous system defects in mice Mandy KM Kam (Department of Surgery, The University of Hong Kong)

P-334:	The mechanism of Notch 3 signaling pathway in mouse testicular cell differentiation マウス精巣細胞分化におけるNotch3シグナル経路の機構 Yukio Nishina (IGSAS)

P-335:	Initiation of oogenesis in Drosophila in vitro in vitroにおけるショウジョウバエ生殖細胞の分裂および分化の誘導 Yusuke Iizumi (ibaraki Univ)

P-336: (SW2-11) 17:30-17:45	Origin of Anterior-Posterior axis formation in the mouse embryos マウス胚における前後軸の起源 Katsuyoshi Takaoka (Osaka university FBS)

P-337:	Difference in quality control system of mammalian germinal stem cell between growth phase and mature phase 成長期と成熟期におけるマウス生殖幹細胞の質的保証機構の応答変化 Kentaro Yomogida (FS & Nutrition, Mukogwa Women' Univ)

P-338:	Transcriptional regulation in the derivation of Neural Plate from EpiSC EpiSCから神経板を派生する転写制御機構 Kazunari Matsuda (Grad. Sch. of Frontier Biosci., Osaka Univ.)

P-339:	Oct-6 promotes neural commitment by repressing BMP signaling activity Qingqing Zhu (SIBS)

P-340: (SW2-02) 15:15-15:30	Collective migration of keratinocytes induced by EGF requires their proliferative capacity EGFによる角化細胞の遊走は増殖能を必要とする Daisuke Nanba (ProMRes, EPFL)

P-341:	Potential roles of epididymal ducts in the maintenance of mouse spermatogenesis マウスの恒常的な精子発生における精巣上体管の役割 Yoshimi Aiyama (Department of Veterinary Anatomy, Tokyo University)

P-342:	Stem cell differentiation is controlled by their progeny in mouse spermatogenesis マウス精子形成における幹細胞分化の子孫細胞による制御 Ryo Sugimoto (Div. of Germ Cell Biol., NIBB, Dept. Path. & Tumor Biol., Grad. Sch. Med., Kyoto Univ., Lab. of Funct. Biol., Grad. Sch. of BioStudies., Univ. of Kyoto)

P-343:	Formation of blood vessels is controlled by neural progenitor cells in the central nervous system 中枢神経系組織における血管のパターン形成 Teruaki Takahashi (NAIST)

P-344:	Multiple roles of Epiprofin in ectodermal organs 外胚葉器官におけるエピプロフィンの役割 Takashi Nakamura (Tohoku Univ Grad Sch of Dent, NIDCR, NIH)

P-345: (S08-08) 16:00-16:20	Conserved roles of asrij in stem cell pluripotency and hematopoiesis. Maneesha Inamdar (JNCASR)

P-346:	Expression of a dominant positive thyroid hormone receptor initiates adult epithelial development through epithelial-connective tissue interactions in the Xenopus laevis intestine ドミナントポジティブ型甲状腺ホルモン受容体の発現により誘起されるアフリカツメガエル成体型腸上皮の発生 Takashi Hasebe (Dept. Biol., Nippon Med. Schl)

P-347: (SW2-03) 15:30-15:45	Role of Six1 in production of apical and basal progenitors during olfactory epithelial development 嗅上皮発生途上のプロジェニター細胞産生におけるSix1の役割 Keiko Ikeda (Biol. Jichi)

P-348:	CD105 Positive Adipose Tissue-Derived Mesenchymal Stem Cells from Mouse ES Cells マウスES細胞から作成したCD105陽性脂肪由来間葉系幹細胞 Shigeko Torihashi (Dept.of Health Science, Nagoya Univ. Grad. Sch. of Med.)

P-349:	Tsukushi is a Frizzled ligand that regulates the proliferation of neuronal stem/progenitor cells TsukushiはFrizzledのリガンドとして神経幹・前駆細胞の増殖を制御する Kunimasa Ohta (Dept.of Dev.Neurobiol., Kumamoto Univ. Grad.Sch.of Med.Scis.)

P-350: (HT1-11) 16:30-16:45	Stem cell therapy to treat Hirschsprung’s disease: in vivo studies using a post-natal mouse model Donald Newgreen (MCRI)

P-351:	RNAi screening of genes required for normal behavior of hypodermal stem cells in C. elegans RNAiスクリーニングによる線虫の上皮系幹細胞の正常なふるまいに必要な遺伝子の探索 Tomomi Takano (RIKEN CDB)

P-352:	Foxo1 is essential for in vitro vascular formation from embryonic stem cells Foxo1はES細胞による血管様構造の形成に必須である Minetaro Ogawa (IMEG, Kumamoto University)

P-353: (S11-05) 11:05-11:25	Reprogramming of pancreatic acinar cells to multipotent progenitor cells CHIA-NING Shen (GRC)

P-354:	Assurance of genome integrity in stem cells of planarian, Dugesia japonica プラナリア全能性幹細胞のゲノム品質の保証機構の解明 Norito Shibata (GCOE, Kyoto Univ.)

P-355:	The LIM-homeobox gene is required for differentiation of Wnt-expressing cells at the posterior end of a planarian body 尾部特異的なWnt発現細胞の分化を制御するプラナリアLIM-homeobox遺伝子の解析 Tetsutaro Hayashi (RIKEN, CDB)

P-356:	The reprogramming competence of Xenopus egg/oocyte extracts on NIH/3T3 cells Chiang Chien-Yueh (Developmental Biology, Department of Animal Science, National Chung Hsing University)

P-357: (SW3-01) 15:00-15:15	A simple and highly efficient transgenesis method in mice with the Tol2 transposon system and cytoplasmic microinjection Tol2トランスポゾンシステムを用いた細胞質への注入によるシンプルで高効率な遺伝子導入マウス作製法 Kenta Sumiyama (NIG)

P-358:	Mechanisms regulating the localization and translational timing of cyclin B1 mRNA during oocyte maturation, as revealed by transgenic zebrafish 遺伝子組換えゼブラフィッシュを用いた卵成熟過程でのサイクリンB1 mRNAの局在・翻訳制御機構の解明 Kyota Yasuda (Lab. of Rep. Dev. Biol. Grad. sch. of life sci., Hokkaido Univ.)

P-359:	Spatio-temporal control of gene function in the germ cell lineage in mice マウス生殖系列における時空間特異的遺伝子改変系の確立 Takayuki Hirota (Grad. Sch. of Biostudies Kyoto Univ., RIKEN CDB)

P-360: (SW3-02) 15:15-15:30	Targeted mutagenesis in the sea urchin embryo using zinc-finger nucleases ウニ胚におけるジンクフィンガーヌクレアーゼを利用した標的遺伝子への突然変異導入 Hiroshi Ochiai (JSPS DC2, Dept. of Math. and Life Sci., Grad. School of Sci., Hiroshima Univ.)

P-361:	Visualization of tangential neuronal migration in the developing chick optic tectum ニワトリ視蓋発生における接線方向の神経細胞移動 Yuji Watanabe (Dept. Mol. Neurobiol. , Grad. Sch. Life Sci., Tohoku Univ., IDAC, Tohoku Univ.)

P-362:	Three-dimensional visualization and histomorphometry of developing blood vessel and nerve networks in mouse embryos マウス胎仔における血管系と神経系ネットワークの立体構築と形態解析 Yuji Taya (Dept of Pathol, Nippon Dental Univ)

P-363:	Reciprocal interactions between neural crest cells and blood vessel formation 血管と神経冠細胞間の密接な相互作用 Yuta Takase (Biol. Sci., NAIST)

P-364:	Live imaging of the whole mouse embryo during gastrulation 原腸陥入期におけるマウス全胚のライブイメージング Takehiko Ichikawa (NIBB)

P-365:	Rudhira is a microtubule- associated protein that promotes cdc42- dependent cell migration and angiogenesis. Mamta Jain (JNCASR)

P-366:	Live broadcast of Xenopus development on the Internet: Share the wonder of developmental biology 発生の魅力を社会に伝える試み：アフリカツメガエル胚発生をインターネットで生中継 Tomoko Kurata (NIBB)

P-367:	Efficient phenotypic rescue of the zebrafish hematopoietic mutant using Tol2-mediated transgenesis. 造血障害をもつ突然変異ゼブラフィッシュのTol2システム活用による表現型回復 Miki Takeuchi (Grad. Sch. Comp. Human Sci., Univ. Tsukuba)

P-368:	Control of interneuron formation by the DM domain containing transcription factor Dmrt3 Flora Rajaei (Department of Biological Sciences, National University of Singapore)

P-369:	Fibroblast Growth Factor Receptor 1 (FGFR1) Function in Inner Ear Hair Cell Development Akira Honda (RIKEN-CDB)

P-370:	Modelling therapeutic strategies for muscular dystrophy in zebrafish Te Hall (Australian Regenerative Medicine Institute, Monash University, Melbourne, Australia)

P-371:	Nutraceutical therapy is able to prevent at least in part the malformation of chicken embryo induced by valproic acid Chiu-Lan Hsieh (Graduate Institute of Biotechnology, National Changhua University of Education)

P-372:	Regulational mechanism of follicle-stimulating hormone receptor expression in medaka (Oryzias latipes) メダカ濾胞刺激ホルモン受容体の発現制御機構の解析 Taku Uchikawa (Grad. Sch. Sci. Tech., Kumamoto Univ.)

P-373:	*Gene expression profiling induced by high temperature treatment in medaka (Oryzias latipes)* Tomoya Uchimura (Grad. Sch. Sci. Tech., Kumamoto Univ.)
▲ Go to top

43^rd Annual Meeting for
the Japanese Society of Developmental Biologists
Jointly Sponsored by the Asia-Pacific Developmental Biology Network

Menu

Program

Schedule

Program

43rd Annual Meeting forthe Japanese Society of Developmental Biologists Jointly Sponsored by the Asia-Pacific Developmental Biology Network

Menu

Program

Schedule

Program

43^rd Annual Meeting for
the Japanese Society of Developmental Biologists
Jointly Sponsored by the Asia-Pacific Developmental Biology Network