Program

Schedule Program    

Program book


P1〜P128All(PDF 7,586KB)Download



P1〜P21Welcome to the 46th Annual meeting of JSDB in Matsue, Access Guide to KUNIBIKI MESSE etc(PDF 5,733KB)Download
P22〜P23iWAB (Web Abstract Book)(PDF 247KB)Download
P24〜P100Scientific Programs(PDF 1,358KB)Download
P101〜P104Luncheon Seminar etc(PDF 390KB)Download
P105〜P117Author Index(PDF 301KB)Download
P118〜P124Exhibitor Index(PDF 677KB)Download
P125〜P127Advertising etc(PDF 423KB)Download

The program book can be downloaded from the links above.
Please note that meeting program books will be distributed to all participants, but we will not be issuing an abstract booklet. Instead, an online abstract book has been created. For instructions on how to view the abstracts, go to the link for “How to view the online abstract book” (page 110-112).

You will need the User ID (en00XXXX or kn00XXXX) and password that was assigned to you upon registration. JSDB members can also view the abstracts by entering their membership number and password.

Tentative Schedule



 Plenary Lecture
 Symposium
 Poster


 Oral Presentation
 Flash Talk
 Satellite Workshops


 Technical tips
 Equipment exhibition



Day 0 (May 28 (Tue))


13:00 - 17:0015:00 - 17:00 17:10 - 19:00
Room 2(多目的ホール))
Satellite Workshops 1 : (in Japanese)
Gametogenesis, fertilization and reproduction/Early embryogenesis/Cell differentiation/Cell-Cell/-Matrix interaction/Cell proliferation/Organogenesis
Satellite Workshops 2 : (in Japanese)
Morphogenesis/Neural development and function/Regeneration/Technology, Theoretical approach

15:30 - 18:30 18:40 - 20:45
Room 3(小ホール)
Technical Workshop (in Japanese)
“Technical tips”
Satellite symposium (in Japanese)
“植物の逆襲 --- 植物の形づくりの理論モデルと実験”
Room 4(501) DGD Editorial Meeting & JSDB Board Meeting


Day 1 (May 29 (Wed)) OP=Oral Presentation、FT=Flash Talk


8:30 - 10:10
10:25 - 11:50
12:10 - 13:10
13:25 - 15:50
16:25 - 17:35
17:45 - 19:00
19:00 - 20:00
Room 2(多目的ホール) OP 1
Neural development and function 1
OP3
Neural development and function 2
Luncheon
(Olympus Corporation.)
(in Japanese)
OP 5
Early embryogenesis 1/ Morphogenesis & Organogenesis 1
FT 1
Systems biology / Technology, Theoretical approach / Regulation of gene expression / EvoDevo
FT 3
Neural development and function / Organogenesis

Room 3(小ホール) OP 2
Cellular behavior and differentiation 1
OP4
Cellular behavior and differentiation 2
OP 6
EvoDevo
FT 2
Cell proliferation / Cell biology / Cell death / Cell-Cell/-Matrix interaction / Cell differentiation / Regenerative medicine
FT 4
Stem cell / Epigenetics and Genomics / Others / Cell death / Aging

Poster Room(大展示場) Poster
Mixer with Poster
Exhibition (Equipment & books)

Rest area

Day 2 (May 30 (Thu))  OP=Oral Presentation、FT=Flash Talk

8:30 - 10:10
10:25 - 11:50
12:10 - 13:10
13:20 - 14:50
15:10 - 16:50
17:00 - 19:00
19:00 - 21:00
Room 1(国際会議場) OP 7
Morphogenesis & Organogenesis 2
OP 10
Morphogenesis & Organogenesis 3
General assembly
Plenary Lecture
FT 5
Myogenesis / Early embryogenesis


Room 2(多目的ホール) OP 8
Cell biology
OP 11
Neural development and function 3 / Aging / Technology, Theoretical approach


FT 6
Morphogenesis


Room 3(小ホール) OP 9
Regulation of gene expression
OP 12
Early embryogenesis 2


FT 7
Gametogenesis, fertilization and reproduction / Sex determination / Regeneration


Poster Room(大展示場) Poster
Poster Discussion

Exhibition (Equipment & books)


Rest area

Reception

Day 3 (May 31 (Fri)) OP=Oral Presentation、FT=Flash Talk

8:30 - 10:10
10:25 - 11:50
12:10 - 13:10
13:30 - 15:30
Room 1(国際会議場) OP 13
Morphogenesis & Organogenesis 4
OP 16
Morphogenesis & Organogenesis 5 / Myogenesis
Getting Published Well:
Strategies for Success
(in English)
Symposium 1
“Frontiers in Reproduction Research”
Room 2(多目的ホール) OP 14
Regeneration
OP 17
Gametogenesis, fertilization and reproduction / Sex determination / Chronobiology
Gender-equal society
(in Japanese)
Symposium 2
“The role of cell proliferation in development and regeneration”
Room 3(国際会議場) OP 15
Stem cell
OP 18
Regenerative medicine / Epigenetics and Genomics / Cell death

Symposium 3
“Advances in targeted genome editing”
大展示場 Poster

Exhibition (Equipment & books)

Rest area


Tentative Programs(27/11/2012)


Plenary Lectures
Prof. Cheng-Ming Chuong (University of Southern California)
Prof. Ryuzo Yanagimachi (University of Hawaii)

Symposia
  ・Symposium 1: Frontiers in Reproduction Research
        Chairpersons:Noritaka Hirohashi (Shimane University)
Kazuya Kobayashi (Hirosaki University)
        Speakers:Yayoi Obata (Tokyo University of Agriculture)
Takanobu Maezawa (Hirosaki University)
Masahito Ikawa (Osaka University)
Lixy Yamada (Nagoya University)
Lukas Scharer (University of Basel)
  ・Symposium 2: The role of cell proliferation in development and regeneration
        Chairpersons: Takashi Takeuchi (Tottori University)
Toshihiko Fujimori (NIBB)
        Speakers:Ritsuko Morita (RIKEN CDB) & Takashi Tsuji (Tokyo University of Science)
Masayuki Miura (University of Tokyo)
Fumio Matsuzaki (RIKEN CDB)
Takashi Takeuchi (Tottori University)
Ichiro Masai (OIST)
  ・Symposium 3: Advances in targeted genome editing
        Chairpersons: Takashi Yamamoto (Hiroshima University)
Atsuo Kawahara (RIKEN Qbic)
        Speakers:Atsuo Kawahara (RIKEN Qbic)
Yasunori Sasakura (Tsukuba University)
Kenichi Suzuki (Hiroshima University)
Tomoji Mashimo (Kyoto University)
Knut Woltjen (Kyoto University CiRA)
Yusuke Miyanari (IGBMC)

Oral Presentations (8 min. presentation and 4 min. discussion.)
  ・Oral presentation 1:  Neural development and function 1
  ・Oral presentation 2:  Cellular behavior and differentiation 1
  ・Oral presentation 3:  Neural development and function 2
  ・Oral presentation 4:  Cellular behavior and differentiation 2
  ・Oral presentation 5:  Early embryogenesis 1 / Morphogenesis & Organogenesis 1
  ・Oral presentation 6:  EvoDevo
  ・Oral presentation 7:  Morphogenesis & Organogenesis 2
  ・Oral presentation 8:  Cell biology
  ・Oral presentation 9:  Regulation of gene expression
  ・Oral presentation 10:  Morphogenesis & Organogenesis 3
  ・Oral presentation 11:  Neural development and function 3 / Aging / Technology, Theoretical approach
  ・Oral presentation 12:  Early embryogenesis 2
  ・Oral presentation 13:  Morphogenesis & Organogenesis 4
  ・Oral presentation 14:  Regeneration
  ・Oral presentation 15:  Stem cell
  ・Oral presentation 16:  Morphogenesis & Organogenesis 5 / Myogenesis
  ・Oral presentation 17:  Gametogenesis, fertilization and reproduction / Sex determination / Chronobiology
  ・Oral presentation 18:  Regenerative medicine / Epigenetics and Genomics / Cell death

Flash Talks (4min. presentation only.)
  ・Flash Talk 1:  Systems biology / Technology, Theoretical approach / Regulation of gene expression / EvoDevo
  ・Flash Talk 2:  Cell proliferation / Cell biology / Cell death / Cell-Cell/-Matrix interaction / Cell differentiation / Regenerative medicine
  ・Flash Talk 3:  Neural development and function / Organogenesis
  ・Flash Talk 4:  Stem cell / Epigenetics and Genomics / Others / Cell death / Aging
  ・Flash Talk 5:  Myogenesis / Early embryogenesis
  ・Flash Talk 6:  Morphogenesis
  ・Flash Talk 7:  Gametogenesis, fertilization and reproduction / Sex determination / Regeneration

Satellite Workshops (in Japanese) (10min. presentation including discussion.)
  ・Satellite Workshop 1:  Gametogenesis, fertilization and reproduction/Early embryogenesis/Cell differentiation/Cell-Cell/-Matrix interaction/Cell proliferation/Organogenesis
  ・Satellite Workshop 2:  Morphogenesis/Neural development and function/Regeneration/Technology, Theoretical approach

Technical Workshop (in Japanese)
  ・Technical tips:  Chairpersons: Ken-ichi Suzuki (Hiroshima University)
Toshinori Hayashi (Tottori University)
Speakers: Shigehiro Kuraku (RIKEN CDB)
Shigenori Nonaka (NIBB)
Takayuki Suzuki (Nagoya University)
Tetsushi Sakuma (Hiroshima University)
Toshinori Hayashi (Tottori University)

Satellite symposium (in Japanese)
  ・植物の逆襲 --- 植物の形づくりの理論モデルと実験:  Chairpersons: Koichi Fujimoto (Osaka University)
Takashi Miura (Kyusyu University)
Speakers: Takashi Miura (Kyusyu University) & Takumi Higaki (University of Tokyo)
Natsumaro Kutsuna (University of Tokyo)
Kensuke Kawade (RIKEN)
Yoshihisa Oda (University of Tokyo)

  Plenary Lectures  

DATE: May 30 (Thu) 13:20-14:50 Room 1
Plenary Lectures
Chairperson: Motonori Hoshi (The Open Univ. of Japan)

PL-1:
13:20-14:05 
EMBRYOLOGY AND I
発生学と私

Ryuzo Yanagimachi (Univ. of Hawaii)

PL-2: Development and Regeneration of Ectodermal Organs: Gradient, Topology, and Epigenetic Competence
Cheng Ming Chuong (University of Southern California, Academician, Academia Sinica, National Taiwan University)
▲ Go to top

  Symposia  

DATE: May 31 (Fri) 13:30-15:40 Room 1
Symposium 1: Frontiers in Reproduction Research
Organizers:  Noritaka Hirohashi (Shimane Univ.)
Kazuya Kobayashi (Hirosaki Univ.)

This symposium aims at briefly introducing a wide variety of hot topics in the area of reproduction research, in particular addressing fundamental questions in relation to the “tactic of sex” at the individual, cellular and molecular levels. The speakers will give us an easy and friendly talk, young people are therefore to be encouraged to join.

S01-01:
13:35-13:58 
Mechanisms for oocyte-specific DNA methylation imprints
卵子形成過程におけるインプリント機構

Yayoi Obata (Dept.of Bioscience, Tokyo Univ. Agri.)

S01-02:
13:58-14:21 
Switching from asexual to sexual reproduction in the planarian Dugesia ryukyuensis:The role of D-amino acid oxidase
プラナリアの一種リュウキュウナミウズムシにおける無性生殖から有性生殖への転換機構:D-アミノ酸酸化酵素の役割について

Takanobu Maezawa (Hirosaki Univ.)

S01-03:
14:21-14:44 
ER chaperones, ADAM3, and sperm fertilizing ability
精巣シャペロンによるADAM3の品質管理と精子受精能力

Masahito Ikawa (RIMD, Osaka Univ.)

S01-04:
14:44-15:07 
Possibility of the proteomics toward the comprehensive understanding of the fertilization and early development.
受精研究におけるプロテオミクス解析の実践と可能性

Lixy Yamada (Sugashima Marine Biol. Lab., Grad. Sch. Sci., Nagoya Univ.)

S01-05:
15:07-15:40 
Phenotypic engineering using RNAi to study sex in a simultaneous hermaphrodite: functional genomics meets sexual selection research
Lukas Schärer (Evol Biol, Zool Inst, Uni Basel)
▲ Go to top

DATE: May 31 (Fri) 13:30 〜 15:30 Room 2
Symposium2: The role of cell proliferation in development and regeneration
Organizers:  Takashi Takeuchi (Tottori Univ.)
Toshihiko Fujimori (NIBB)

Cell proliferation is one of critical factors which regulate development and regeneration. The proper regulation of cell cycle is required for pattern formation, morphogenesis and differentiation.In this symposium, we will reconsider cell proliferation in various developmental aspects, focus on the research highlighting the mechanisms and significance, and discuss future perspectives in this field.

S02-1:
13:31-13:55 
Spatially regulation of cell proliferation and differentiation in the zebrafish lens
ゼブラフィッシュ水晶体における細胞増殖と細胞分化の空間的な制御

Ichiro Masai (OIST)

S02-2:
13:55-14:19 
Analysis of Tooth Germ Epithelium Morphogenesis by using a Novel Four-dimensional Cell Tracking System
歯胚上皮組織の形態形成における4次元細胞動態解析

Ritsuko Morita (Res. Inst. for Sci. & Tech., Tokyo Univ. of Sci.)

S02-3:
14:19-14:43 
Fluctuations in division modes: a way for cortical neural stem cells to find a new niche
神経幹細胞の分裂モードの変化による脳の形成

Fumio Matsuzaki (RIKEN CDB)

S02-4:
14:43-15:07 
Gut epithelial renewal is required for systemic response to tissue damage in Drosophila
ショウジョウバエ組織傷害に対する全身性応答に関わる腸上皮の再生

Masayuki Miura (Dept.of Genetics, Grad.Sch.of Pharm.Scis., Univ.of Tokyo)

S02-5:
15:07-15:29 
Molecular mechanisms of cell proliferation in cardiomyocytes during cardiac development and regeneration
心臓の発生と再生における心筋細胞の増殖制御機構

Takashi Takeuchi (Sch. of Life Sci., Fac. of Med., Tottori Univ.)
▲ Go to top

DATE: May 31 (Fri) 13:30-15:30 Room 3
Symposium3: Advances in targeted genome editing
Organizers:  Takashi Yamamoto (Hiroshima Univ.)
Atsuo Kawahara (RIKEN Qbic)

Genome editing with engineered nucleases is an emerging technology that enables manipulation of targeted genes in many organisms and cell lines. To date, two types of engineered nucleases have been developed. Zinc finger nucleases (ZFNs), which first emerged in 1996, have a long and successful history of genome editing. However, the construction of ZFNs is highly laborious and the success rate of active ZFN construction is very low. Transcription activator-like effector nucleases (TALENs), on the other hand, have been recently developed as a more user-friendly engineered nuclease, because TALENs are easy to construct in-house and the target site may be selected in any gene. Using these engineered nucleases, targeted gene disruptions have been achieved successfully in cultured cells and various organisms. Furthermore, gene correction or targeted gene addition have been reported mainly in cultured cells, and also in several organisms. The purpose of this symposium is to share and discuss the recent research advances in genome editing and related technology.
Co-organized by Genome Editing Consortium

S03-01:
13:00-13:20 
TALEN-mediated genome modifications in zebrafish
ゼブラフィッシュにおけるTALENを用いたゲノム編集の技術開発

Atsuo Kawahara (RIKEN QBiC)

S03-02:
13:20-13:40 
Knockout of genes with TALE nucleases in the chordate Ciona intestinalis
脊索動物カタユウレイボヤにおけるTALENを用いた遺伝子破壊

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

S03-03:
13:40-14:00 
Gene knockout in Xenopus using TALENs
ツメガエルにおけるTALENによる遺伝子破壊

KEN-ICHI Suzuki (Hiroshima Univ.)

S03-04:
14:00-14:20 
Efficient gene targeting with ZFN/TALEN in animals
ラットにおける効率的な遺伝子改変技術

Tomoji Mashimo (ILA, Med, Kyoto Univ.)

S03-05:
14:20-14:40 
Uncovering nuclear dynamics by TAL effector
Yusuke Miyanari (IGBMC, Strasbourg, FRANCE)

S03-06:
14:40-15:00 
Transposed and Targeted Gene Expression Systems for Guiding Somatic Cell Reprogramming and Differentiation
Knut Woltjen (Center for iPS Cell Research and Application (CiRA), Kyoto University)
▲ Go to top

  Oral presentation  

DATE: May 29 (Wed) 08:30-10:10 Room 2
OP01: Neural development and function 1
Chairpersons:  Ichiro Masai (OIST)
Masayuki Miura (Univ. of Tokyo)

OP01-01:
(P-180)

8:30-8:42 
Role of tubulin folding pathway in neurite morphogenesis of Drosophila olfactory projection neuron
神経突起形成におけるチューブリン折りたたみ経路の役割

Misako Okumura (Grad. Sch. Pharm. Sci., Univ. Tokyo)

OP01-02:
(P-182)

8:42-8:54 
Roles of Robo endocytic trafficking in acquisition of axonal responsiveness to the repellent Slit during midline crossing
正中線交叉における交連軸索のSlit応答性の不可逆性スイッチを支える分子基盤

Junichi Kawada (OIST)

OP01-03:
(P-183)

8:54-9:06 
Genetic analysis of the leucine-rich repeat molecule Capricious in synaptic-layer specificity in the Drosophila visual system
ショウジョウバエ視覚神経系におけるLRR膜タンパク質Capricious はシナプス層の特異性を決定していない

Takashi Suzuki (Dept. Biosci, & Biotech., Titech, Max Planck Institute of Neurobiology, Martinsreid, Germany)

OP01-04:
(P-185)

9:06-9:18 
Formation process of individual compartments in the cerebellum of mouse embryo
マウス小脳内における、個々の区画の形成過程

Mitsuhiro Hashimoto (Dep. of Cell Biol. Nagoya Univ.)

OP01-05:
(P-186)

9:18-9:30 
MRE32 RNA is essential for mushroom body morphogenesis in Drosophila adult brain
MRE32 RNAはショウジョウバエキノコ体の形態形成に必須である

Sachi Inagaki (Res Ctr Environmental Genomics, Kobe Univ)

OP01-06:
(P-188)

9:30-9:42 
Evidence for involvement of apoptosis in establishing proper cerebrospinal fluid hydrodynamics
脳脊髄液動態の確立におけるアポトーシスの関与

Yoshifumi Yamaguchi (Dept. Genet. Pharma. The Univ. of Tokyo, PREST, JST)

OP01-07:
(P-189)

9:42-9:54 
Molecular and cellular dissection of axonal pruning in Drosophila sensory neurons
ショウジョウバエ感覚ニューロンにおける軸索刈り込みメカニズムの探索

Rei Morikawa (Dept. Cell Biol., Osaka Biosci. Inst.)

OP01-08:
(P-190)

9:54-8:30 
Examination of developmental processes of the ferret cerebral cortex using in utero electroporation
子宮内電気穿孔法を用いたフェレット大脳皮質の形成過程解析

Hiroshi Kawasaki (Grad Sch of Med, Kanazawa Univ)
▲ Go to top

DATE: May 29 (Wed) 08:30-10:10 Room 3
OP02: Cellular behavior and differentiation 1
Chairpersons:  Kenji Matsuno (Osaka Univ.)
Masahiko Hibi (Nagoya Univ.)

OP02-01:
(P-082)

8:30-8:42 
IRSp53 family of I-BAR domain proteins regulates microvillus morphogenesis by sculpting the apical plasma membrane.
IRSp53ファミリータンパク質はI-BARドメインの膜変形活性により微絨毛の形態形成を制御する

Shusaku Kurisu (ICMS, Kobe Univ. Grad. Schl. of Med.)

OP02-02:
(P-061)

8:42-8:54 
Null mutation of Nolz-1/Zfp503 in mesenchymal cells acts non-cell autonomously to influence differentiation of epithelial cells in developing mouse lung
Shih-Yun Chen (INS, National Yang-Ming Univ.)

OP02-03:
(P-063)

8:54-9:06 
Sequential expression of Lgr5 and Col22a1 in developing synovial joints mark the progressive differentiation of progenitor cells to articular chondrocytes
Danny Chan (HKU)

OP02-04:
(P-065)

9:06-9:18 
Functional analysis of EDNRB2 in the melanocyte development and differentiation using EDNRB2-mutated chickens
突然変異鶏を用いたメラノサイトの発生と分化におけるエンドセリン受容体B2の機能解析

Toyoko Akiyama (Dept. Biol., Keio Univ.)

OP02-05:
(P-067)

9:18-9:30 
Sox5 is involved in fate specification of pigment cells in medaka
メダカ色素細胞分化におけるSox5の役割

Yusuke Nagao (Grad. Sch. Sci., Nagoya Univ.)

OP02-06:
(P-084)

9:30-9:42 
In vivo collective migration requires N-Cadherin endocytosis controlled by LPA/Edg4 signalling.
生体内集団的細胞遊走にはLPA/Edg4シグナルによって制御されるN-cadherinのエンドサイトーシスが必要である

Sei Kuriyama (Akita University, UCL, Cell and Developmental Biology Department, UK)

OP02-07:
(P-069)

9:42-9:54 
TGF-β・ signals regulate the dorsoventral patterning of neurogenic ectoderm of the sea urchin embryo.
TGF-β・シグナルによるウニ胚神経外胚葉の背腹軸方向のパターニング

Shunsuke Yaguchi (SMRC, Univ. Tsukuba)

OP02-08:
(P-071)

9:54-10:25 
Identification of novel maternal neurogenic genes that are potential components of Notch signaling in Drosophila
ショウジョウバエを用いたNotch情報伝達系における新規構成因子の探索

Takuma Gushiken (Osaka University, Dept of Biol. / Tec., Tokyo Univ of Sci.)
▲ Go to top

DATE: May 29 (Wed) 10:25-11:50 Room 2
OP03: Neural development and function 2
Chairpersons:  Carina Hanashima (RIKEN CDB)
Takaki Miyata (Nagoya Univ.)

OP03-01:
(P-192)

10:25-10:37 
Generation of the 3-Dimentional Multi-gene Expression Map for the Zebrafish Developing Habenular Nuclei
Yung-Shu Kuan (IBS, NTU, TW, IBC-AS, Taiwan, NCSC, NTU, Taiwan, NPAS-AS, Taiwan)

OP03-02:
(P-193)

10:37-10:49 
SeeDB: an aqueous optical clearing agent for imaging intact fluorescence and morphology in the mouse brain.
新奇透明化試薬SeeDBの開発とマウス脳の蛍光イメージング

Takeshi Imai (RIKEN CDB, Grad Sch of Biostudies, Kyoto Univ, PRESTO, JST)

OP03-03:
(P-194)

10:49-11:01 
Role of early intracortical activity in the maturation of neocortical circuits
初期神経活動による大脳皮質神経回路形成の制御

Torsten Bullmann (RIKEN CDB)

OP03-04:
(P-196)

11:01-11:13 
How have human brains been evolved? :
comparative gene expression analysis among rodents, new world monkeys and old world monkeys
齧歯類、新世界ザル、旧世界ザル間の遺伝子発現比較からヒト脳へと至る大脳皮質進化の機構を探る試み

Eiji Matsunaga (Lab for Symbolic Cognitive Development, RIKEN BSI)

OP03-05:
(P-197)

11:13-11:25 
Functional analysis of RP58 transcriptional repressor in neuronal migration during corticogenesis
大脳皮質形成時の神経細胞移動におけるRP58転写抑制因子の機能解析

Chiaki OHTAKA-MARUYAMA (TMIMS)

OP03-06:
(P-198)

11:25-11:37 
Neural-specific elimination of Mab21l2 results in respiratory failure in mouse neonates
Chung Man Chan (LIFS, HKUST)

OP03-07:
(P-200)

11:37-10:25 
Interkinetic nuclear migration through TAG-1-assisted progenitor elongation prevents neuroepithelial overcrowding and ensures neocortical histogenesis
Mayumi Okamoto (Dept Anat and Cell Biol, Nagoya Univ, Grad Sch of Med)
▲ Go to top

DATE: May 29 (Wed) 10:25-11:50 Room 3
OP04: Cellular behavior and differentiation 2
Chairpersons:  Masanori Taira (Univ. of Tokyo)
Kaoru Sato (Kyoto Univ.)

OP04-01:
(P-073)

10:25-10:37 
Roles of the zinc finger protein Zbtb11 and phosphorylation modification in the regulation of Otx2 activity in early Xenopus eye development
Xenopusの眼の初期形成に関わるOtx2のリン酸化修飾と活性調節におけるZnフィンガー蛋白質Zbtb11の役割

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

OP04-02:
(P-085)

10:37-10:49 
Genetic labeling and ablation of mouse Shh-expressing cells during cortical neurogenesis at late gestation
マウス胎生後期の大脳皮質内での神経発生におけるソニックヘッジホッグ発現細胞の遺伝的検出及び除去

Jun Motoyama (Brain Science, Doshisha Univ.)

OP04-03:
(P-075)

10:49-11:01 
Novel transgenic tool to live monitor the morphology and behavior of Neurogenin2-expressing cells in the developing mammalian brain
Takumi Kawaue (Cell Biology, Nagoya University, Graduate School of Medicine)

OP04-04:
(P-077)

11:01-11:13 
Investigating the roles of developmentally coordinated change of energy metabolism during mouse neural tube closure
マウス神経管閉鎖期に生じるエネルギー代謝状態変化の意義の解明

Hidenobu Miyazawa (Dept. Genetics, Grad. Sch. Pharm. Sci., Univ. Tokyo)

OP04-05:
(P-079)

11:13-11:25 
Downregulation of Etv2 promotes endothelial to hematopoietic fate transition
Makoto Kobayashi (Univ. Tsukuba, Fac. Med.)

OP04-06:
(P-080)

11:25-11:37 
Regulation of red blood cell transition from larval to adult type during anuran metamorphosis
無尾類変態期における赤血球転換機構の解析

Masahiro Yamaguchi (Dept. Chem. Biochem., Suzuka Natl. Coll. Tech., Dept. Life Sci., Coll. Sci., Rikkyo Univ.)

OP04-07:
(P-087)

11:37-13:25 
Role of Integrin β1 in endothelial cells
血管内皮細胞におけるIntegrin β1の機能解析

Kenichi Kanai (RIKEN, CDB, MPI, Münster)
▲ Go to top

DATE: May 29 (Wed) 13:25-15:50 Room 2
OP05: Early embryogenesis 1 / Morphogenesis & Organogenesis 1
Chairpersons:  Noriko Funayama (Kyoto Univ.)
Shinji Ihara (NIG)

OP05-01:
(P-107)

13:25-13:37 
Expression timing of Gdf11 reveals positional diversity of the hindlimb in tetrapods
Gdf11発現開始タイミングの種間の違いが四肢動物における後肢の位置の多様性を生み出す

Yoshiyuki Matsubara (Div of Biol Sci, Grad Sch of Sci, Nagoya Univ.)

OP05-02:
(P-109)

13:37-13:49 
Transcriptional regulation mechanisms of mesenchymal Fibroblast growth factor 10 expression in response to the AER signaling
AER由来シグナルによる肢芽間充織Fgf10の転写制御機構

YO-ICHI YAMAMOTO-SHIRAISHI (Div.of Biol.Sci., Grad.Sch.of Sci., Nagoya Univ.)

OP05-03:
(P-111)

13:49-14:01 
Hox and Wnt signaling cooperatively control Fgf10 expression in the limb field
HoxWnt シグナルは予定肢芽領域におけるFgf10発現を協調的に制御する

Atsushi Kuroiwa (Div.of Biol.Sci., Grad.Sch.of Sci., Nagoya Univ.)

OP05-04:
(P-113)

14:01-14:13 
Coordination between tubular elongation and cell epithelialization is regulated by FGFs emanating from surrounding tissues
管組織の伸長と細胞上皮化のコーディネーションは周囲組織からのFGFシグナルによって制御される

Yuji Atsuta (Grad. Sch. of Sci., Kyoto Univ., NAIST, Biol. Sci.)

OP05-05:
(P-115)

14:13-14:25 
Oriented cell division for the formation of the body midline
生体の正中線づくりにおける細胞分裂の方向付け

Tadayoshi Watanabe (CVRI, UCSF, Zoology, Kyoto Univ.)

OP05-06:
(P-117)

14:25-14:37 
Metabolic dynamics and function during somitogenesis
体節形成過程における代謝経路の役割

Masayuki Oginuma (IGBMC)

OP05-07:
(P-119)

14:37-14:49 
Lfng regulates the synchronized oscillation of the mouse segmentation clock via trans-repression of Notch signalling
Lfngは周囲の細胞のNotchシグナルをトランスに抑制することでマウス体節時計の同調機構を制御する。

Yusuke Okubo (NIHS)

OP05-08:
(P-121)

14:49-15:01 
Understanding the Role of Wnt5a in the Morphogenesis of the Vertebrate Body Plan
マウス初期胚形態形成におけるWnt5aの役割

Rieko Ajima (NIG, NCI-Frederick, NIH, Grad. School of Frontier Biosciences, Osaka Univ.)

OP05-09:
(P-013)

15:01-15:13 
Pattern of early gene expression during early marmoset development
コモンマーモセット初期胚における遺伝子発現パターンの変化

Ayako Sedohara (CIEA)

OP05-10:
(P-016)

15:13-15:25 
The spider Parasteatoda tepidariorum is a good model to study cell-cell signaling and cell movement during development
細胞間シグナルと細胞運動の実験系としてのオオヒメグモ

Yasuko Akiyama-Oda (JT Biohistory Res. Hall)

OP05-11:
(P-019)

15:25-15:37 
Zebrafish embryonic cell migration promoted by pregnenolone that changes the conformation of CLIP-170 and promoting microtubule polymerization
Bon-chu Chung (IMB, Academia Sinica)

OP05-12:
(P-022)

15:37-13:25 
Theoretical model of DV-pattern scaling in Xenopus embryo
初期Xenopus胚の背腹軸スケーリングを保証する理論モデル

Tatsuo Shibata (Lab for Physical Biology, CDB)
▲ Go to top

DATE: May 29 (Wed) 13:25-15:50 Room 3
OP06: EvoDevo
Chairpersons:  Mikiko Tanaka (Tokyo Inst. of Technol.)
Gaku Kumano (Osaka Univ.)

OP06-01:
(P-254)

13:25-13:37 
Experimental Evodevo of larval skeleton in Echinodermata
棘皮動物の幼生骨片の実験的進化発生学研究

Hiroyuki Koga (Univ. Tsukuba)

OP06-02:
(P-256)

13:37-13:49 
Regulation of Left-Right Asymmetry in Sea Urchins
Yi-Hsien Su (ICOB, Academia Sinica)

OP06-03:
(P-257)

13:49-14:01 
Nodal signalling determines biradial symmetry in the cnidarian Hydra
刺胞動物ヒドラの分岐形態はNodalシグナルにより制御される

Hiroshi Watanabe (COS, Univ. Heidelberg)

OP06-04:
(P-259)

14:01-14:13 
Possible evolutionary origin of cardiac function
心臓機能の進化的起源

Hiroshi Shimizu (NIG)

OP06-05:
(P-261)

14:13-14:25 
Elastin gene subfunctionalization and formation of teleost-specific outflow tract, “bulbus arteriosus”, in fish evolution and development.
エラスチン遺伝子の機能分化と真骨魚類においてみられる動脈球(流出路)の発生と進化

Yuuta Moriyama (Cardiovascular Regeneration, IMCB, Univ. of Tokyo, Japan)

OP06-06:
(P-262)

14:25-14:37 
Expression of germline markers in three species of amphioxus supports a preformation mechanism of germ cell development in cephalochordates
Jr-Kai Yu (ICOB, Academia Sinica, Inst. Ocean., NTU)

OP06-07:
(P-264)

14:37-14:49 
Evolutionary background of pluripotency among amniotes
- FGF/ERK-independent proliferation in early embryos -
鳥類・爬虫類から見る多能性機構の進化

Shota Nakanoh (Kyoto University, Science)

OP06-08:
(P-266)

14:49-15:01 
Modification of anterior-posterior patterning systems during the fin-to-limb transformation: Insight into the origin of thumbs
対鰭から四肢への形態変化における前後軸形成機構の変更〜親指の起源への洞察〜

Koh Onimaru (Tokyo Tech.)

OP06-09:
(P-267)

15:01-15:13 
Pax1 and Segmental Development of Pharyngeal Arch
Pax1が解き明かす咽頭弓分節機構

Kazunori Okada (Univ. Tsukuba)

OP06-10:
(P-269)

15:13-15:25 
Evolutionary and functional analysis of cis-regulatory elements in mammalian Gsx1 and Gsx2 homeobox genes.
哺乳類Gsx1, Gsx2ホメオボックス遺伝子シス発現調節因子の進化的および機能的解析

Kenta Sumiyama (NIG)

OP06-11:
(P-271)

15:25-15:37 
Role of Six1 in evolution of vertebrate primary sensory system
脊椎動物体幹部一次感覚神経系の進化におけるSix1の役割

Kiyoshi Kawakami (Div. Biol., CMM, Jichi Med. Univ.)

OP06-12:
(P-273)

15:37-8:30 
Conserved genetic module for the development of dorsal flat sheet-like structures among Branchiopod crustaceans
鰓脚綱甲殻類に保存された背部平板状構造形成に関与する遺伝子モジュール

Yasuhiro Shiga (Tokyo Univ. Pham. & Life Sci., Sch.of Life Scis.)
▲ Go to top

DATE: May 30 (Thu) 08:30-10:10 Room 1
OP07: Morphogenesis & Organogenesis 2
Chairpersons:  Yasuko Akiyama-Oda (JT BRH)
Noriyuki Kinoshita (NIBB)

OP07-01:
(P-123)

8:30-8:42 
Hox gene overexpression in cranial neural crest cells is sufficient for first-to-second pharyngeal arch transformation and reveals a possible Hox/Dlx crosstalk
Hox遺伝子の過剰発現により、頭頚部神経堤細胞限定的なHox遺伝子の発現が鰓弓の領域化に十分条件であること、Hox遺伝子とDlx遺伝子の相互作用の可能性があることが明らかになった

Taro Kitazawa (Dept. Physiol. Chem. & Metab., Grad. Sc. of Med., Univ. of Tokyo)

OP07-02:
(P-125)

8:42-8:54 
Seven-pass transmembrane cadherin Celsr1 regulates cell polarity and three-dimensional morphogenesis in the mouse oviduct epithelium.
7回膜貫通型カドヘリンCelsr1はマウス卵管において上皮細胞の極性と3次元形態の形成を制御する。

Dongbo Shi (NIBB, Kyoto Univ.)

OP07-03:
(P-127)

8:54-9:06 
Dysregulation of Aqp3 and endolymphatic hydrops in a mouse model of campomelic dysplasia
Kathryn.S.E. Cheah (Department of Biochemistry, The University of Hong Kong)

OP07-04:
(P-129)

9:06-9:18 
How are the spicule hold-up points regulated? –Observed spicule hold-up process suggests the involvement of the shape of the body space in regulation of where spicules are held up
骨片を立てる位置はどの様に決まるのか? 「骨片の一端を持ち上げ立ちあげる過程」から見えてきた体内空間の関与

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

OP07-05:
(P-131)

9:18-9:30 
CXCR7 signaling modulates cell-cell adhesion in Xenopus mesendoderm cells
ツメガエルCXCR7情報伝達経路は細胞間接着を制御する

Akimasa Fukui (Transd. Life Sci., Grad. Sch. Life Sci., Hokkaido Univ.)

OP07-06:
(P-133)

9:30-9:42 
Regulation of paraxial protocadherin (PAPC) by a phosphorylation-dependent ubiquitin system is required for Xenopus early development
リン酸化依存的なユビキチン化による paraxial protocadherin(PAPC)の調節はアフリカツメガエルの初期発生に必須である

Masatake Kai (Grad. Sch. of Med., Osaka City Univ., NIBB)

OP07-07:
(P-135)

9:42-9:54 
Planar Cell Polarity directs Septin-mediated compartmentalization of cortical actomyosin
Asako Shindo (HHMI and UT Austin)

OP07-08:
(P-137)

9:54-8:30 
March2 inhibits the Wnt signaling pathways by promoting Dishevelled degradation during Xenopus development
Hyeyoon Lee (Department of Life Science, POSTECH, Republic of Korea)
▲ Go to top

DATE: May 30 (Thu) 08:30-10:10 Room 2
OP08: Cell biology
Chairpersons:  Shinichi Nakagawa (RIKEN)
Motoyuki Itoh (Chiba Univ.)

OP08-01:
(P-096)
 
Cancelled
()

OP08-02:
(P-098)

8:42-8:54 
Molecular basis of stripe pattern formation in zebrafish
ゼブラフィッシュの体表模様形成機構

Masakatsu Watanabe (FBS, Osaka Univ.)

OP08-03:
(P-099)

8:54-9:06 
Mib1 regulates cell migration via ubiquitination of p120ctn
Takamasa Mizoguchi (Grad. Sch. of Pharm. Sci., Chiba Univ., Fac. of Pharm. Sci., Chiba Univ.)

OP08-04:
(P-101)

9:06-9:18 
Identification of genetic modifiers that interact with pecanex, encoding a component of Notch signaling in Drosophila
Notch情報伝達系の構成遺伝子pecanexと遺伝的相互作用を示す遺伝子の網羅的探索

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

OP08-05:
(P-102)

9:18-9:30 
IKKε antagonizes PKC-dependent inhibitory phosphorylation of Singed/Fascin to promote paracrystalline actin bundle assembly
IKKεはアクチン束化タンパク質Singed/FascinをPKCによる抑制的リン酸化から保護することによって結晶状のアクチン束形成を促進する

Tetsuhisa Otani (RIKEN CDB, Lab for Morphogenetic Signaling)

OP08-06:
(P-104)

9:30-9:42 
Expression profile of ORC and MCM complex in the anterior and posterior to Morphogenic furrow of Drosophila eye disc.
ショウジョウバエ複眼原基の分化決定した細胞群と未分化細胞群におけるMCM, ORCの発現パターン

Hidetsugu Kohzaki (Dept. Cell Biol., IVR, Kyoto Univ.)

OP08-07:
(P-105)

9:42-9:54 
Nuclear Body Paraspeckles Are Essential for the Formation of Functional Corpus Luteum
核内構造体パラスペックルは機能的な黄体形成に必須である

Shinichi Nakagawa (RNA Biol Lab, RIKEN)

OP08-08:
(P-106)

9:54-13:25 
Cell polarity suppresses Hippo signaling through the regulation of Angiomotin distribution in preimplantation mouse embryos
細胞極性のAngiomotin分布制御によるマウス着床前胚Hippo経路の制御機構

Yoshikazu Hirate (IMEG, Kumamoto Univ.)
▲ Go to top

DATE: May 30 (Thu) 08:30-10:10 Room 3
OP09: Regulation of gene expression
Chairpersons:  Takayuki Suzuki (Nagoya Univ.)
Haruki Ochi (Yamagata Univ.)

OP09-01:
(P-242)

13:25-13:37 
Screen for modifiers of transcriptional inheritance
転写のエピジェネティック継承の解析

Tetsuya Muramoto (RIKEN QBiC)

OP09-02:
(P-243)

13:37-13:49 
Accelerating the Tempo of the Segmentation Clock by Reducing the Number of Introns in the Hes7 Gene
Hes7遺伝子のイントロン削減による分節時計の加速化

Yukiko Harima (IVR, Kyoto Univ.)

OP09-03:
(P-245)

13:49-14:01 
armadillo and orthodenticle regulate the traveling of a wave of hedgehog expression in the early spider embryo
アルマジロとオルソデンティクルは初期クモ胚においてヘッジホッグ発現波の伝播を制御する

Hiroki Oda (JT BRH)

OP09-04:
(P-246)

14:01-14:13 
Hipk2 plays essential roles in the Wnt-mediated early developmental events by inducing Dishevelled dephosphorylation and stabilization.
タンパク質リン酸化酵素Hipk2は、Dishevelledタンパク質の脱リン酸化と安定化を誘
導することにより、Wnt分子が制御する初期発生イベントにおいて必須の役割を果たす.

Nobuyuki Shimizu (Div. of Cell Reg. Sys., Dep. of Immuno. and Neurosci., M.I.B., Kyushu Univ.)

OP09-05:
(P-248)

14:13-14:25 
Nipbl and Med12 regulate limb-specific expression of genes cooperatively during vertebrate limb development
脊椎動物四肢発生期においてNipblとMed12は肢芽特異的な遺伝子発現を協同的に調節する

Akihiko Muto (Dept. Biol. Sci., Hiroshima, Univ., Dept. Dev. Cell Biol., UC Irvine, USA, CCBS, UC Irvine, USA)

OP09-06:
(P-249)

14:25-14:37 
Hypoxia reduces the toxicity of a metabolic inhibitor via activation of the HIF signalling pathway and reduction of chemical uptake
I Chen Hung (Biosciences, College of Life and Environmental Sciences, University of Exeter, Institute of Zoology, National Taiwan University)

OP09-07:
(P-251)

14:37-14:49 
Cis-acting transcriptional repression establishes a sharp boundary in chordate embryos
Admp遺伝子はPinhead遺伝子によりタンパク質レベルおよび転写レベルで二重の抑制をうけ動物胚の腹側の領域を決定する

Kaoru Imai (Kyoto Univ.)

OP09-08:
(P-253)

14:49-10:25 
Four signaling pathways cooperatively specify neural fate in ascidian embryos.
ホヤ胚において4つのシグナル経路が協調して神経運命決定をする

Naoyuki Ohta (Kyoto University)
▲ Go to top

DATE: May 30 (Thu) 10:25-11:50 Room 1
OP10: Morphogenesis & Organogenesis 3
Chairpersons:  Hiroshi Sasaki (Kumamoto Univ.)
Yoshio Wakamatsu (Tohoku Univ.)

OP10-01:
(P-139)

10:25-10:37 
Involvement of microtubule-dependent transport of Wnt signaling components in zebrafish dorsal determination
セブラフィッシュ背側決定におけるWntシグナルコンポーネントの微小管依存性輸送の関係

Hiromu Hino (DBS,Nagoya univ., BBC,Nagoya univ)

OP10-02:
(P-141)

10:37-10:49 
Locomotive activity of Xenopus primordial germ cell is regulated by extracellular signals involving SDF-1.
ゼノパス始原生殖細胞の移動能はSDF-1を含む細胞外シグナルにより制御される

Makoto Mochii (Grad. Sch. Life Sci., Univ. Hyogo)

OP10-03:
(P-142)

10:49-11:01 
Multiple origins of myeloid cells in Xenopus embryo
ゼノパス胚には3つの骨髄球の起源がある

Mitsugu Maeno (Grad. Sch. Sci. Tech., Niigata Univ.)

OP10-04:
(P-144)

11:01-11:13 
Spatio-temporal activation of ERK1/2 through VEGFRs regulates establishment and formation of segmental artery in zebrafish
VEGFRを介した時間的空間的ERKの活性化はゼブラフィッシュにおける体節間動脈の確立と形成維持に重要な働きを示す

Masahiro Shin (UMASSMED)

OP10-05:
(P-146)

11:13-11:25 
Klf8 is required for cardiac Left-Right patterning through regulation of spaw expression in zebrafish embryos
Sheng-Ping Hwang (ICOB, Academia Sinica, Taipei, Taiwan, Institute of Bioscience and Biotechnology, National Taiwan Ocean University, Keelung, Taiwan)

OP10-06:
(P-148)

11:25-11:37 
Analysis of mutant stöpseldt128d(stp) indicating the vertebral form abnormality
椎骨の形態異常を示す変異体stöpseldtl28d(stp)の解析

Akihiro Misu (Kondo S lab. FBS Osaka uni)

OP10-07:
(P-150)

11:37-10:25 
Cadherin-mediated physical barrier regulates cell geometry in zebrafish lens epithelium
ゼブラフィッシュ水晶体上皮細胞においてカドヘリンの細胞接着による細胞領域間の堅さの違いが細胞形態、方向性を制御する

Toshiaki Mochizuki (OIST)
▲ Go to top

DATE: May 30 (Thu) 10:25-11:50 Room 2
OP11: Neural development and function 3 / Aging / Technology, Theoretical approach
Chairpersons:  Takashi Shimizu (Nagoya Univ.)
Yoshihiro Morishita (RIKEN CDB)

OP11-01:
(P-201)

10:25-10:37 
Basement membrane integrity is required for axogenesis of cerebellar granule cells.
小脳顆粒細胞の軸索伸長には正常な基底膜形成が必要である

Miki Takeuchi (Bioscience and Biotechnology Center, Nagoya Univ.)

OP11-02:
(P-203)

10:37-10:49 
Highly efficient transplantation into the embryonic mouse cortex reveals the acquisition of apico-basal polarity by neural progenitors derived from pluripotent stem cells
胚性幹細胞から誘導された神経前駆細胞は胎生期脳の上皮極性に従い細胞突起を形成する

Yoichi Kosodo (Dept. Anatomy, Kawasaki Med.)

OP11-03:
(P-204)

10:49-11:01 
Sufu controls the number and cell fate of hindbrain progenitors
Hong Huan Hor (Dept of Biochemistry, LKS Faculty of Medicine, HKU)

OP11-04:
(P-206)

11:01-11:13 
Nemo-like kinase blocks Hedgehog signaling by phosphorylating Gli1 transcription factor in neural progenitor cells and brain tumor.
神経前駆細胞及び脳腫瘍においてNemo-like kinaseは転写因子Gli1をリン酸化してヘッジホッグシグナルを抑制する

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

OP11-05:
(P-275)

11:13-11:25 
Age-dependent apoptosis of select olfactory neurons impairs innate attraction behavior in Drosophila
特定の嗅覚受容体神経における加齢依存的なアポトーシスが、老化に伴う個体行動変化を引き起こす

Takahiro Chihara (Dept. Genetics, Grad. Sch. Pharm. Sci., Univ. Tokyo, CREST, JST, Japan)

OP11-06:
(P-279)

11:25-11:37 
A theoretical study of the developmental properties that determine floral organ number
花器官の数はどのような発生過程から決まるのか

Miho Kitazawa (Dept. of Biol. Sci., Grad. Sch. of Sci., Osaka Univ.)

OP11-07:
(P-282)

11:37-10:25 
Targeted genome modifications using ZFNs and TALENs in the cricket Gryllus bimaculatus
フタホシコオロギにおけるZFN, TALENを用いた標的遺伝子改変

Takahito Watanabe (Dept. of Life Systems, Inst. of Tec. and Sci., Univ. of Tokushima)
▲ Go to top

DATE: May 30 (Thu) 10:25-11:50 Room 3
OP12: Early embryogenesis 2
Chairpersons:  Michihiko Sugimoto (RIKEN BRC)
Hiroki Oda (JT BRH)

OP12-01:
(P-025)

10:25-10:37 
Zebrafish TSC22D3 Plays Critical Roles in Bmp dependent Dorsoventral Patterning during Early Embryogenesis
William Ka Fai Tse (Dept. of Biol, HKBU)

OP12-02:
(P-028)

10:37-10:49 
Mechanism of the “KUBIRE” formation in the neurula embryo of the ascidian, Halocynthia roretzi
マボヤ神経胚における「くびれ」形成機構の解析

Gaku Kumano (Osaka University)

OP12-03:
(P-031)

10:49-11:01 
The cilia-dependency of hedgehog signaling in fish
魚類におけるヘッジホッグシグナル伝達経路の繊毛依存性

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

OP12-04:
(P-034)

11:01-11:13 
Molecular identification of tw5: Vps52 promotes pluripotential cell differentiation through cell interactions
マウスt-complex致死変異より同定されたVps52の発生制御遺伝子としての役割

Michihiko Sugimoto (MCD, BRC, RIKEN)

OP12-05:
(P-037)

11:13-11:25 
Epigenetic regulation of Hox gene expression by PcG genes in a primitive mode of insect embryogenesis in the cricket Gryllus bimaculatus
原始的発生様式をとる昆虫の胚発生過程におけるポリコーム遺伝子群によるホメオティック遺伝子発現のエピジェネティックな制御

Yuji Matsuoka (Dept. of Bio. Sci. and Tech., Fact. of Eng., Tokushima Univ.)

OP12-06:
(P-040)

11:25-8:30 
The Role of Foxc1 in Telencephalic Vascular Development
Thanit Prasitsak (Mol. Cra. Emb., TMDU)
▲ Go to top

DATE: May 31 (Fri) 08:30-10:10 Room 1
OP13: Morphogenesis & Organogenesis 4
Chairpersons:  Shin Takagi (Nagoya Univ.)
Yumi Izutsu (Niigata Univ.)

OP13-01:
(P-152)

8:30-8:42 
The H3K27 demethylase, Jmjd3, regulates pax6 expression for eye development
ヒストン脱メチル化因子Jmjd3は、眼の発生においてPax6の発現を制御する

Akane Kawaguchi (NAIST)

OP13-02:
(P-154)

8:42-8:54 
GON-1/ADAMTS and fibulin-1 act through collagen IV to control C.elegans organogenesis
GON-1/ADAMTS と fibulin-1はIV型コラーゲンを通じて線虫の器官形成を制御する

Tomomi Takano (Dep. of Bisci. Sch. of Sci. and Tech., Kwansei Gakuin Univ.)

OP13-03:
(P-156)

8:54-9:06 
Nuclear membrane proteins act in transport of the Netrin receptor, UNC-5 in cell migration in C. elegans.
細胞移動における核膜タンパク質の新たな役割

Hon-Song Kim (Dep. of Biosci. Kwansei-Gakuin Univ.)

OP13-04:
(P-158)

9:06-9:18 
The origin of stem and progenitor cells in the
zebrafish lateral line primordium.
ゼブラフィッシュ側線における幹細胞と前駆細胞の発生上の起源

Masataka Nikaido (Stowers Inst.)

OP13-05:
(P-160)

9:18-9:30 
Collective unidirectional motion of epithelial cells supported by planar cell dynamics during Drosophila organogenesis (part I): Experimental approach
ショウジョウバエ雄性生殖器の形態形成に見られる上皮細胞の集団的一方向性運動(part I): 実験からのアプローチ

Erina Kuranaga (Lab. Histogenetic Dynamics, RIKEN CDB)

OP13-06:
(P-162)

9:30-9:42 
Collective unidirectional motion of epithelial cells induced by planar cell dynamics
during Drosophila organogenesis (part II): Theoretical approach
ショウジョウバエ雄性生殖器の形態形成に見られる上皮細胞の集団的一方向性運動(part II): 理
論からのアプローチ

Katsuhiko Sato (Lab. Physical biology, RIKEN CDB)

OP13-07:
(P-164)

9:42-9:54 
Mathematical analysis of vascular and spot patterns by auxin and PIN dynamics in plant development
オーキシン-PINダイナミクスによる葉脈とスポットパターン形成の数理モデル

Yoshinori Hayakawa (Dept Comput. Intelligence & Sys. Science, Tokyo Institute of Technology, Theoretical Biology Laboratory, RIKEN)

OP13-08:
(P-166)

9:54-8:30 
Analysis of pattern formation in multicellular cyanobacteria by Cellular Automaton model
セルオートマトンモデルによる多細胞性シアノバクテリアの形態形成現象の解析

JUN-ICHI Ishihara (Dept. of Electr. Engin. and Biosci., Waseda Univ., Theoretical Biology Lab., RIKEN)
▲ Go to top

DATE: May 31 (Fri) 08:30-10:10 Room 2
OP14: Regeneration
Chairpersons:  Akira Sato (Okayama Univ.)
Takeshi Inoue (Kyoto Univ.)

OP14-01:
(P-211)

8:30-8:42 
Wnt activation in nail epithelium couples nail growth to digit regeneration
マウスにおいて爪表皮でのWntの活性化が爪の成長と指の再生に必要である

Makoto Takeo (Dermatology and Cell Biology, NYU)

OP14-02:
(P-214)

8:42-8:54 
Epidermal Wnt/beta-catenin signalling promotes dermal adipocyte differentiation during hair follicle morphogenesis and regeneration
表皮性のWnt/beta-cateninシグナルが毛包発生と再生時の皮下脂肪の分化を促進する

Hironobu Fujiwara (RIKEN CDB, Cancer Research UK Cambridge Resesarch Institute)

OP14-03:
(P-217)

8:54-9:06 
Vascular regeneration in zebrafish caudal fin.
ゼブラフィッシュにおける血管再生機構

Yoshiko Kametani (OIIB, UCSF)

OP14-04:
(P-220)

9:06-9:18 
Cyclooxygenase-2 signaling regulates osteoclast differentiation during fracture healing in medaka.
Cyclooxygenase-2シグナルがメダカの骨折修復における破骨細胞分化を制御する

Kazuhiro Takeyama (Dept. of Biological Information, TokyoTech, JSPS Reseach Fellow)

OP14-05:
(P-223)

9:18-9:30 
Different cellular contribution of somite-derived tissues to limb regeneration in larval and adult Xenopus
ツメガエルの四肢再生において体節由来組織は幼生期と成体期では異なる細胞寄与を示す

Hitoshi Yokoyama (Dept. of Dev. Biol., Grad. School of Life Sci., Tohoku Univ.)

OP14-06:
(P-226)

9:30-9:42 
The molecular logic for head regenerative and head non-regenerative ability among different planarian species
頭部再生能の異なるプラナリア種の分子基盤

Yoshihiko Umesono (RIKEN CDB, Kyoto Univ. Department of Biophysics)

OP14-07:
(P-229)

9:42-9:54 
Transcriptome analysis to search for genes involved in anteriorization during regeneration of the planarian Dugesia japonica
トランスクリプトーム解析によるプラナリアの再生過程における前方化に関わる遺伝子の探索

Kazutaka Hosoda (Dept. of Biophys., Kyoto Univ.)

OP14-08:
(P-232)

9:54-8:30 
Brain regeneration in Aeolosoma viride
Jiun-Hong Chen (DLF/IZ, NTU)
▲ Go to top

DATE: May 31 (Fri) 08:30-10:10 Room 3
OP15: Stem cell
Chairpersons:  Norito Shibata (Kyoto Univ.)
Shosei Yoshida (NIBB)

OP15-01:
(P-044)

8:30-8:42 
LIF Responsiveness in Embryonic Stem Cells from different mouse strains.
ES細胞でのLIF応答性(マウス系統間での比較)

Satoshi Ohtsuka (Laboratory for Pluripotent Stem cell studies, CDB RIKEN)

OP15-02:
(P-046)

8:42-8:54 
Lactic Acid Bacteria Convert Human Fibroblasts to Multipotent Cells
ヒト皮膚細胞は乳酸菌を取り込むと多能性を持つようになる

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

OP15-03:
(P-048)

8:54-9:06 
A molecular mechanism controlling proliferation of planarian pluripotent stem cells
プラナリア全能性幹細胞の増殖制御機構

Hayoung Lee (Dept of Biophys, Kyoto univ.)

OP15-04:
(P-051)

9:06-9:18 
The microRNA mir-235 suspends growth and development during starvation
microRNA mir-235は飢餓時に発育を抑制する

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

OP15-05:
(P-053)

9:18-9:30 
Knockdown planarians of the nuclear-type Piwi gene give new insights into planarian stem cell system
核局在型Piwiの遺伝子機能阻害から得られたプラナリア幹細胞システムの新たな知見

Makoto Kashima (DB, Kyoto Uni.)

OP15-06:
(P-055)

9:30-9:42 
Differential response to Retinoic acid achieves balanced self-renewal and differentiation of the stem cell compartment in mouse spermatogenesis
マウス精子幹細胞において、レチノイン酸応答性の異なる細胞集団が幹細胞の自己複製能と分化能を両立させている

Kanako Ikami (DGCB, NIBB)

OP15-07:
(P-057)

9:42-9:54 
Neural Crest-Derived Cells sustain the multipotency even after intrusion into the tissues.
組織内に存在する神経堤由来細胞の多分化能の解析

Tsutomu Motohashi (RAMS, Gifu Univ)

OP15-08:
(P-059)

9:54-10:25 
Possible roles of regulatory T cells on the hair cycle regulation of pelage hair follicles in mice
マウス体毛毛包の毛周期調節における制御性T細胞の機能について

Takashi Matsuzaki (Fac. Life & Environ. Sci., Shimane Univ.)
▲ Go to top

DATE: May 31 (Fri) 10:25-11:50 Room 1
OP16: Morphogenesis & Organogenesis 5 / Myogenesis
Chairpersons:  Hajime Ogino (NAIST)
Atsuko Sehara (Kyoto Univ.)

OP16-01:
(P-168)

10:25-10:37 
Regulation of Wnt and BMP signaling pathways in the regional specification of early blastoderm in the cricket Gryllus bimaculatus
Taro Nakamura (Dept of Life Systems, Institute of Tech. and Sci., The University of Tokushima)

OP16-02:
(P-170)

10:37-10:49 
Mechanical coupling of apical membrane and luminal matrix shapes tracheal tube geometry in Drosophila
Bo Dong (CDB)

OP16-03:
(P-172)

10:49-11:01 
Cell intercalation and cell junctional length fluctuation during airway tube elongation in Drosophila
elongation in Drosophila

ショウジョウバエ気管伸長における細胞境界の組みかえと細胞境界長のゆらぎの役割について

Shigeo Hayashi (RIKEN CDB)

OP16-04:
(P-174)

11:01-11:13 
The HOX gene Antp in the visceral mesoderm Drosophila regulates size balance between 1st and 2nd midgut chambers
ショウジョウバエの内臓中胚葉で発現するHOX遺伝子Antpは中腸第1/第2チェンバー間の大きさのバランスを制御する

Ryutaro Murakami (Grad. Sch. Med., Yamaguchi Univ.)

OP16-05:
(P-176)

11:13-11:25 
A secreted decoy of insulin-like receptor antagonizes insulin/IGF signaling to restrict body growth in Drosophila
ショウジョウバエ分泌型‘おとり’インスリン様受容体は、体の成長を抑制する

Naoki Okamoto (RIKEN, CDB)

OP16-06:
(P-177)

11:25-11:37 
Developmental evolution of the hypaxial muscles of vertebrates
脊椎動物の軸下筋発生機構の進化

Rie Kusakabe (Dept. Biol., Grad. Sch. Sci., Kobe Univ.)

OP16-07:
(P-179)

11:37-10:25 
The investigation of post-transcriptional process to form adult skeletal muscle stem cells
骨格筋幹細胞の形成に関与する転写後調節機構探求

Takahiko Sato (IFMS, Kyoto Univ.)
▲ Go to top

DATE: May 31 (Fri) 10:25-11:50 Room 2
OP17: Gametogenesis, fertilization and reproduction / Sex determination / Chronobiology
Chairpersons:  Hiroko Sano (Kurume Univ.)
Kazuya Kobayashi (Hirosaki Univ.)

OP17-01:
(P-002)

10:25-10:37 
Characterization of mammalian spermatogenic stem cell niche
精子幹細胞ニッチの探索

Yu Kitadate (Germ Cell Biology, NIBB)

OP17-02:
(P-004)

10:37-10:49 
Reconstruction of seminiferous tubule-like structure in 3-D culture system of re-aggregated mouse testicular cells
Jidong Zhang (GSST,Kumamoto University)

OP17-03:
(P-006)

10:49-11:01 
Role of Glycolysis in Primordial-Germ-Cell Development in Drosophila embryos
ショウジョウバエ始原生殖細胞の発生過程における解糖系の新規役割

Yoshiki Hayashi (Okazaki Institute for Integrative Bioscience, NIBB)

OP17-04:
(P-008)

11:01-11:13 
Identification of a Nanos target in the mouse
マウスにおけるNanos標的RNAの同定

Yuzuru Kato (NIG)

OP17-05:
(P-010)

11:13-11:25 
Identification of the interactive regions of Xenopus dicalcin for its target glycoprotein, gp41
受精調節タンパク質ダイカルシンにおけるgp41結合部位の同定

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

OP17-06:
(P-208)

11:25-11:37 
BMP Signaling Determines XX Germ Cell Fate independently of Retinoic Acid-induced Meiotic Initiation
Quan Wu (SOKENDAI)

OP17-07:
(P-276)

11:37-10:25 
The role of circadian clock gene per1b in attention deficit/hyperactvity behaviors
Han Wang (SUCCC, Soochow Univ.)
▲ Go to top

DATE: May 31 (Fri) 10:25-11:50 Room 3
OP18: Regenerative medicine / Epigenetics and Genomics / Cell death
Chairpersons:  Jun Takeuchi (Univ. of Tokyo)
Kentaro Yomogida (Mukogawa Women’s Univ.)

OP18-01:
(P-235)

10:25-10:37 
Finding of molecular triggers of axolotl limb regeneration.
ウーパールーパー四肢再生における再生惹起因子

Akira Satoh (RCIS, JST PRESTO)

OP18-02:
(P-237)

10:37-10:49 
Wnt and Notch signals guide embryonic stem cell differentiation into the intestinal lineages
WntシグナルとNotchシグナルが腸上皮細胞への分化を導く

Soichiro Ogaki (Kumamoto Univ IMEG Dept. of Stem Cell Biol.)

OP18-03:
(P-239)

10:49-11:01 
Antagonistic relationship between H3K27me3 and DNA methylation in the regulation of developmental genes
発生関連遺伝子の発現制御におけるDNAメチル化とH3K27me3のアンタゴニズム

Ryohei Nakamura (Dept. Bio. Sci., Grad. Sch. Sci., Univ. Tokyo)

OP18-04:
(P-089)

11:01-11:13 
Stress response to DNA damage
and control of apoptosis in germinal stem cell
生殖幹細胞におけるDNA損傷応答とアポトーシスについて

Natsuko Iyoda (Mukogawa Women's Univ Human Env Sci)

OP18-05:
(P-091)

11:13-11:25 
Syntaxin18 cis-SNARE complex is a novel alarm factor that detects vesicular transport defects
Syntaxin18複合体は小胞輸送の異常を監視する役割を果たす

Yuko Nishiwaki (OIST)

OP18-06:
(P-093)

11:25-11:37 
Characterization of Integrins function in specific cells for cell-corpses engulfment in Caenorhabditis elegans
TSUNG-YUAN Hsu (IMCB, Taiwan Univ)

OP18-07:
(P-095)

11:37-11:49 
Protogenin Prevents Premature Apoptosis of Rostral Cephalic Neural Crest
Cells by Activating the α5β1 Integrin

Yu-Chiuan Wang (Institute of Neuroscience, NYMU)
▲ Go to top


  Flash Talks  

DATE: May 29 (Wed) 16:25-17:35 Room 2
FT1: Systems biology / Technology, Theoretical approach / Regulation of gene expression / EvoDevo
Chairpersons:  Hitoshi Yokoyama (Tohoku Univ.)
Daisuke Kurokawa (Univ. of Tokyo)

FT1-01:
(P-277)

16:25-16:29 
Cellular sensory mechanisms for detecting specific fold-changes in extracellular cues
細胞外シグナルの特定倍変化を検出する細胞センサーのメカニズム

Ken-ichi Hironaka (Kyushu Univ., RIKEN CDB)

FT1-02:
(P-278)
 
Cancelled
()

FT1-03:
(P-280)

16:33-16:37 
Numerical analyses for behaviors of auxin transport pattern on growing fields
オーキシン極性輸送に基づくパターンの成長場における数値解析

Akiko Nakamasu (Dep.Biores. Env. Sci. KSU., JSPS Reserch Fellow)

FT1-04:
(P-281)

16:37-16:41 
A theoretical study of mechanical force and cell shape dynamics during cell competition
細胞競合における機械的な力の役割

Arisu Tsuboi (Osaka Univ.)

FT1-05:
(P-283)

16:41-16:45 
A theory on the timing of cell fate decision in developing organs
成長組織における細胞運命の決定タイミングに関する理論

Yoshihiro Morishita (RIKEN CDB)

FT1-06:
(P-244)

16:45-16:49 
Identification of a novel regulatory element for Shh expression in the mouse lung and gut
Shh遺伝子の肺と消化管の発現に関与する新規エンハンサーエレメントの同定

Takanori Amano (NIG)

FT1-07:
(P-247)

16:49-16:53 
Estrogen-related receptor beta is necessary to induce Cdx2 gene activation after repression of Oct3/4.
EsrrbはOct3/4発現減少に伴って生じるCdx2の発現上昇の制御に必要である。

Mariko Yamane (RIKEN CDB)

FT1-08:
(P-250)

16:53-16:57 
Identification of novel zinc finger genes suppressing precocious specification of the brain fate in brain/palp precursor cells in the Ciona intestinalis embryo
カタユウレイボヤ胚の脳―付着突起前駆細胞において、適切な時間まで脳への分化プログラムの開始を抑制するジンクフィンガー遺伝子の同定と解析

Tatsuro Ikeda (Dept. of Zool., Grad. Sch. of Sci., Kyoto Univ.)

FT1-09:
(P-252)

16:57-17:01 
Defining the sequence for nuclear localization of C. elegans muscleblind proteins
Po-Hsuan Chen (DLS,NCC Univ.)

FT1-10:
(P-255)

17:01-17:05 
Hox gene cluster structure in the genome of Halocynthia roretzi.
マボヤのHox遺伝子のクラスター構造

Yuka Sekigami (TMU)

FT1-11:
(P-258)

17:05-17:09 
Anterior-Posterior Axis formation in Non-rodent Mammals
非齧歯類哺乳動物における前後軸形成機構の解析

Michio Yoshida (Body plan, CDB, RIKEN)

FT1-12:
(P-260)

17:09-17:13 
Molecular mechanisms regulating heterochronic development of marsupial cranial neural crest
有袋類における頭部神経堤発生の異時性の分子制御機構

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

FT1-13:
(P-263)

17:13-17:17 
Evolutionary divergence of an epithelial linings-specific Shh enhancer
上皮特異的なShh エンハンサーの進化的分岐

Tomoko Sagai (Mammal. Genet., NIG)

FT1-14:
(P-265)

17:17-17:21 
A conserved molecular and cellular mechanism of lung-bud formation between tetrapods and Polypterus senegalus
四肢動物と古代魚ポリプテルス間で保存されている肺芽形成の分子細胞生物学的メカニズム

Ritsuko Kobayashi (Dept. of Anat., Jikei Univ. School of Med.)

FT1-15:
(P-268)

17:21-17:25 
Developmental roles of siamois-related Gene in a basal Actinopterygian: functional and evolutionary implications
原始的条鰭類ポリプテルスの初期発生における新規siamois関連遺伝子の役割

Masaki Takeuchi (Dep.Med.Eng. Kawasaki Univ.Med.Welf., CDB, RIKEN)

FT1-16:
(P-270)

17:25-17:29 
Medaka miR-124 is involved in post-transcriptional regulation of polypyrimidine tract binding protein 1 (PTBP1) in neural development
メダカmiR-124は神経系発生でPTBP1の転写調節に関与する

Yumiko Kato (Dept. Nat. His. Sci., Grad. Sch. Sci., Hokkaido Univ.)

FT1-17:
(P-272)

17:29-16:25 
Characterization of Zebrafish internexin neuronal intermediate filament protein, alpha a (inaa), in the developing nervous system
Meng-Lin Liao (DACB, NTU)
▲ Go to top

DATE: May 29 (Wed) 16:25-17:35 Room 3
FT2: Cell proliferation / Cell biology / Cell death / Cell-Cell/-Matrix interaction / Cell differentiation / Regenerative medicine
Chairpersons:  Kota Y. Miyasaka (Tohoku Univ.)
Satoshi Yoshitome (Iwaki Meisei Univ.)

FT2-01:
(P-088)

16:25-16:29 
The subcellular localization of cyclin B2 is required for bipolar spindle formation in meiosis I during Xenopus oocyte maturation
サイクリンB2の細胞内局在はアフリカツメガエル卵成熟過程の二極性紡錘体形成に必要である

Satoshi Yoshitome (Fac. Pharm., Iwaki Meisei Univ.)

FT2-02:
(P-097)

16:29-16:33 
The acto-myosin system and TGF-β signaling were involved in the cell sorting process in Xenopus laevis embryonic cells
アクトミオシン系とTGF-βシグナリングは,アフリカツメガエル胚の胚細胞における細胞選別過程に関与する

Ayano Harata (Dep. Bio. Sci. Fac. Life and Environ. Sci., Shimane Uni.)

FT2-03:
(P-100)

16:33-16:37 
The involvement of ubiquitin carboxy-terminal hydrolase 37 (UCH37) in
Wnt/b-catenin signaling pathway during xenopus development

Wonhee Han (Department of Life Science, POSTECH, Republic of Korea)

FT2-04:
(P-103)
 
Cancelled
()

FT2-05:
(P-081)

16:41-16:45 
Extracellular syntaxin4 triggers the differentiation program in teratocarcinoma F9 cells with impacts on cell adhesion properties.
テラトカルシノーマF9細胞における細胞外シンタキシン4の細胞接着と分化への影響

Natsumi Hagiwara (Dep. Bioscience, Grad. Sch. Sci. Technol., Kwansei Gakuin Univ.)

FT2-06:
(P-083)

16:45-16:49 
Spatial distribution of Wnt protein in the mouse neural tube
マウス神経管発生におけるWntタンパク質の空間分布の解析

Takuma Shinozuka (Dept. Basic Biology, SOKENDAI, Okazaki Institute for Integrative Biosciences, National Institutes of Natural Sciences)

FT2-07:
(P-086)

16:49-16:53 
Optimal cellular mobility for synchronization arising from the gradual recovery of intercellular interactions
遺伝子発現の同期を達成するための最適な細胞移動率

Koichiro Uriu (Theoretical Biology Laboratory, RIKEN ASI, Japan)

FT2-08:
(P-062)

16:53-16:57 
Oct60 is involved in the PGC formation as a germplasm component.
Oct60は生殖細胞質の構成因子であり、始原生殖細胞形成に関与する。

Keisuke Morichika (Dept. Life.Sci., Sch. Sci. Rikkyo Univ.)

FT2-09:
(P-064)

16:57-17:01 
Combinatorial expression of defined transcription factors induces ectopic neurons in C. elegans larvae
C. elegans幼虫における複数転写因子の異所発現による異所的な神経細胞の形成

Masaki Shimojou (Div. of biol. sci., Grad. Sch. of Sci., Nagoya Univ.)

FT2-10:
(P-066)

17:01-17:05 
The phosphoinositide kinase is necessary for polarity determination of epithelial stem cells in C. elegans
イノシトールリン脂質合成酵素はC. elegansの表皮系幹細胞の極性決定に必要である

Naoki Yoshida (SOKENDAI, Multicellular Organization Lab., NIG)

FT2-11:
(P-068)

17:05-17:09 
PCP component VANG-1 functions in asymmetric divisions of C. elegans seam cell.
線虫表皮幹細胞の非対称分裂におけるVANG-1の役割

Masako Yokoo (Multicellular Organization Lab. NIG)

FT2-12:
(P-070)

17:09-17:13 
Investigation of role of a novel pancreatic beta cell gene
β細胞特異的に発現する新規遺伝子の解析

Hisayoshi Omori (IMEG,Kumamoto Univ)

FT2-13:
(P-072)

17:13-17:17 
Identification of novel genes involved with mesoderm formation by the analysis of nanog-responsive genes in Xenopus
アフリカツメガエルにおけるNanog応答性遺伝子の解析による、中胚葉形成に関与する新規遺伝子の同定

Kentaro Ishii (Graduate School of Arts and Sciences, the University of Tokyo)

FT2-14:
(P-074)

17:17-17:21 
LGR4 is required for development and maintenance of mammary gland
LGR4は乳腺組織の発達と維持に必要である

Kazunori Oyama (Lab. Mol. Biol., Grad. Sch. of Agr. Sci., Univ. of Tohoku)

FT2-15:
(P-076)

17:21-17:25 
MECHANICAL STRESS INDUCES MUSCLE CELL DIFFERENTIATION AND ADAPTS LIPID METABOLISM TO ENERGY DEMAND
メカニカルストレスは細胞内の代謝変化を誘導し細胞分化を制御する

Kota Miyasaka (IDAC)

FT2-16:
(P-078)

17:25-17:29 
Transcription factor Blimp-1 controls the fat body remodeling in Drosophila
Abdelrahman Sultan (Okayama Univ.)

FT2-17:
(P-236)

17:29-17:45 
Specific isolation of HCN4 positive cardiac pace-making cells derived from embryonic stem cells
ES細胞由来HCN4陽性心臓ペースメーカ細胞の分取と解析

Kumi Morikawa (Dept. of Regenerat. Med. & Therapeut., Grad. Sch. of Med. Sci., Tottori Univ.)
▲ Go to top

DATE: May 29 (Wed) 17:45-19:00 Room 2
FT3: Neural development and function / Organogenesis
Chairpersons:  Jun Motoyama (Doshisya Univ.)
Kunimasa Ohta (Kumamoto Univ.)

FT3-01:
(P-181)

17:45-17:49 
Tag1-mediated early interaction between neural crest cells and motor axons in zebrafish.
神経冠細胞と運動神経軸索との相互作用におけるTag1の機能

Mika SATO-MAEDA (CIR, Tohoku Univ., Grad Sci, Tohoku Univ.)

FT3-02:
(P-184)

17:49-17:53 
Stochastic Ca2+ waves that propagate through the neuroepithelium in various distance of the brain and retina imaged with GCaMP3 in zebrafish embryos
ゼブラフィッシュ初期胚の神経上皮でみられる特徴的なCa2+濃度変化のイメージング

Shin-ichi Okamoto (Univ. of Hyogo)

FT3-03:
(P-187)

17:53-17:57 
Unveiling the role of Ephrin for dendrite targeting of Drosophila olfactory projection neurons
ショウジョウバエ嗅覚投射神経の樹状突起領域形成におけるエフリンの機能解析

Shirin Makihara (Genetics, Grad Sch Pharm Sci, Univ Tokyo)

FT3-04:
(P-191)

17:57-18:01 
Development of cerebellar granule cell axons in zebrafish
ゼブラフィッシュにおける小脳顆粒細胞の軸索形成機構

Shingo Yamaguchi (Bioscience and Biotechnology Center, Nagoya Univ., Graduate School of Science, Nagoya Univ.)

FT3-05:
(P-195)

18:01-18:05 
Dmbx1 can compensate the down-regulation of Otx2 activity
Dmbx1はOtx2活性の下方調節を補償できる

Isato Araki (Iwate Univ, Fac Eng, Dept Chem Bioeng)

FT3-06:
(P-199)

18:05-18:09 
Cell death inducing mechanisms by maternal separation stress in the postnatal mouse hippocampus
隔離ストレスが仔マウスの海馬に細胞死を誘導するメカニズムの解析

Tatsuya Katahira (Laboratory of Developmental Neurobiology, Graduate School of Brain Science, Doshisha University)

FT3-07:
(P-202)

18:09-18:13 
Aromatic L-amino acid decarboxylase deficiency affects neuronal development in zebrafish
De-fen Shih (Institute of Zoology, Department of Life Science,NTU)

FT3-08:
(P-205)

18:13-18:17 
HDAC6 mutations rescue human tau-induced microtubule defects in Drosophila
Kai Zhao (IGDB, CAS)

FT3-09:
(P-155)

18:17-18:21 
BMP/ Smad Signaling in Mouse Sternum Development
BMP / Smadでマウス胸骨開発におけるシグナリング

Ka Kui Tong (SLS, CUHK)

FT3-10:
(P-157)
 
Cancelled
()

FT3-11:
(P-159)

18:25-18:29 
Fibronectin mediates correct positioning of the interrenal organ in zebrafish
Chih-Wei Chou (Department of Life Science, Tunghai Univ., Taiwan)

FT3-12:
(P-175)

18:29-18:33 
Cloning of FoxN1 and its expression in Xenopus laevis.
アフリカツメガエル転写因子FoxN1のクローニングと発現解析

Naoya Iimura (Grad. Sch. of Nanobiosciences, Yokohama City Univ.)

FT3-13:
(P-163)

18:33-18:37 
Expression of Eph/ephrin family genes in smooth muscle of the embryonic chick digestive organs
ニワトリ胚期消化器官平滑筋組織におけるEph/ephrin遺伝子の発現

Yasuo Ishii (Fac. Life Sci., Kyoto Sangyo Univ.)

FT3-14:
(P-165)

18:37-18:41 
Cadherin-7 enhances sonic hedgehog signaling by inhibiting the movement of full-length Gli3 to the primary cilium
カドヘリン−7は転写因子Gli3の移動制限によりソニックヘッジホッグシグナルを調節する。

Rie Kawano (Dev. Neurobio. Kumamoto University)

FT3-15:
(P-167)

18:41-18:45 
Study of secondary neurulation: stem cell-like behavior of neural tube precursors implicated by transplantation of EGFP-labeled tail bud
Secondary Neurulation研究: EGFP標識tail budの移植から浮かび上がった神経管前駆細胞の幹細胞様の挙動

Teruaki Kawachi (Department of Zoology, Kyoto University.)

FT3-16:
(P-169)

18:45-18:49 
Long-distance cell migrations during larval development in an appendicularian, Oikopleura dioica.
ワカレオタマボヤ Oikopleura dioica 後期発生のライブイメージングによって見出された長距離移動を示す細胞群

Kanae Kishi (Dept. Biol. Sci., Osaka Univ.)

FT3-17:
(P-171)

18:49-18:53 
Role of motile cilia in development and function of renal tubes in fish
魚類の腎臓発生における運動性繊毛の役割

Atsuko Shimada (Dep. Biol. Sci., Grad. Sch. Sci., Univ. Tokyo)

FT3-18:
(P-173)

18:53-17:45 
A novel defined factor specifies cardiac-vascular cell fate and promotes heart regeneration
新規転写因子による心臓ー血管運命決定と心臓再生

Yuika Morita (Cardiovas. Reg, IMCB, the Univ. of Tokyo, Graduate School of Sciences, the Univ. of Tokyo)
▲ Go to top

DATE: May 29 (Wed) 17:45-19:00 Room 3
FT4: Stem cell / Epigenetics and Genomics / Others / Cell death / Aging
Chairpersons:  Kohei Hatta (Univ. of Hyogo)
Shin-ichiro Nishimatsu (Kawasaki Medical School)

FT4-01:
(P-045)

17:45-17:49 
Function of EflMsiA in the active stem cells (archeocytes) in freshwater sponge, Ephydatia fluviatilis
カワカイメン全能性体性幹細胞におけるEflMsiAの機能

Kazuko Okamoto (Dept.Biophys.Grad.Sch.Sci., Kyoto Univ.)

FT4-02:
(P-047)

17:49-17:53 
Akhirin is involved in the neural stem cell regulation in the central canal of a mouse spinal cord
Athary Felemban (Dep. Dev. Neurobiol., Grad. Sch. Life Sci., Kumamoto Univ., Global COE, Kumamoto Univ., Ministry of H. Edu., Saudi Arabia)

FT4-03:
(P-049)

17:53-17:57 
The roles of chromatin remodelers in the maintenance of multipotency of mouse trunk neural crest cells in the relationship with the formation mechanisms of neural crest-derived stem cells
マウス体幹神経冠細胞の多分化能維持におけるクロマチンリモデラーの役割と神経冠細胞由来幹細胞の形成メカニズムとの関連

Kyohei Fujita (Dept. Biol. Sci., Osaka Univ.)

FT4-04:
(P-050)
 
Cancelled
()

FT4-05:
(P-052)

18:01-18:05 
Notch signal play a role in the multipotency of melanoblast.
色素芽細胞のもつ多分化能にNotchシグナルが重要である

Natsuki Watanabe (Regeneration & Adv.Med.Sci., Gifu Univ.Grad.Sch.of Med.)

FT4-06:
(P-054)

18:05-18:09 
Ddx46 is required for multi-lineage differentiation of hematopoietic stem cells in zebrafish
ゼブラフィッシュにおいてDdx46は造血幹細胞の多系列分化に必要である

Ryo Hirabayashi (Dep. of Bio. Sci., Grad. Sch. of Sci., Hiroshima Univ.)

FT4-07:
(P-056)

18:09-18:13 
The regulation analyses of Jagged1 expression in Sertoli cells of mouse testis
マウス精巣のセルトリ細胞におけるJagged1発現制御解析

Ryu Okada (Grad of Nanobiosci, Yokohama City Univ.)

FT4-09:
(P-060)

18:17-18:21 
Clinical study on stem cells transplantation for treating diabetic foots through improving blood supply
Kun Lu (Tongji University School of Medicine)

FT4-10:
(P-238)

18:21-18:25 
Functional Analysis of Drosophila Histone Methyltransferase G9a
ショウジョウバエヒストンメチル基転移酵素G9aの機能解析

Kohei Shimaji (Kyoto Inst. of Tech. Univ.)

FT4-11:
(P-240)

18:25-18:29 
The histone demethylase jmjd3 stimulates ectopic eye formation by increasing the access of pax6 protein to its target gene
ヒストン脱メチル化因子jmjd3はpax6が標的遺伝子にアクセスするのを助けて異所的な眼形成を促進する

Norihiro Sudou (NAIST)

FT4-12:
(P-241)

18:29-18:33 
The cis-regulatory evolution for developmental robustness and stress response
Haruki Ochi (Fac. of Med., Yamagata Univ.)

FT4-13:
(P-284)

18:33-18:37 
Functional characterization of miR-375 and miR-200a of downstream regulation in development of hepatocellular carcinoma
Cheng-Maw Ho (GICM, NTU, DS, NTUH)

FT4-14:
(P-090)

18:37-18:41 
Differentiation and cell death in the Xenopus ectodermal cell mass treated with bFGF protein
bFGFタンパクで処理したXenopus外胚葉細胞における分化と細胞死

Hirotaka Kato (Chemistry and BioScience, Graduate School of Science and Engineering, Kagoshima University)

FT4-15:
(P-092)

18:41-18:45 
Klf8 Is Essential for the Survival of Purkinje and Eurydendroid Cells in the Cerebellum of Zebrafish
Ming-Yuan Tsai (GILS, NDMC, Taiwan)

FT4-16:
(P-094)

18:45-18:49 
Wallenda regulates JNK-mediated cell death and migration in Drosophila
Xianjue Ma (SLST, Tongji Univ.)

FT4-17:
(P-274)

18:49-15:10 
Gr33a modulates mate choice based on age in Drosophila
Yujia Hu (SLST, Tongji Univ.)
▲ Go to top

DATE: May 30 (Thu) 15:10-16:50 Room 1
FT5: Myogenesis / Early embryogenesis
Chairpersons:  Katsuyoshi Takaoka (Osaka Univ.)
Go Shioi (RIKEN CDB)

FT5-01:
(P-178)

15:10-15:14 
Roles of microRNAs in medaka myogenesis
メダカ胚筋形成におけるmicroRNAの役割

Saori Tani (Dept. Biol., Grad. Sch. Sci., Kobe Univ.)

FT5-02:
(P-011)

15:14-15:18 
Promoter Assay of Granzyme g Specific Expression in mouse embryo 2-cell stage
Huan Ou-Yang (DAST, NTU., DLS, NCHU.)

FT5-03:
(P-012)

15:18-15:22 
Do Wnts function as global cues for asymmetric cell divisions in C. elegans embryos?
WntsはC. elegans胚における非対称細胞分裂のためのグローバルな手がかりとして機能するか?

Sohei Nakayama (Multicellular Organization Lab., NIG)

FT5-04:
(P-014)

15:22-15:26 
Participation of Human X-linked intellectual disability (XLID) gene in the cell cycle regulation of early embryo development
Chun-Yu Chen (CLSMB, NTUCM)

FT5-05:
(P-015)

15:26-15:30 
Lhx1 is widely implicated in the differentiation of epiblasts to germ layer.
Lhx1はエピブラストから胚葉への分化に広く関係する。

Akira Hasegawa (DRMT, Tottori Univ.)

FT5-06:
(P-017)

15:30-15:34 
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)

FT5-07:
(P-018)

15:34-15:38 
Live Imaging Analysis of Mouse Postimplantation Development
前後軸形成期におけるマウス胚発生のライブイメージング解析

Go Shioi (LARGE, CDB, RIKEN)

FT5-08:
(P-020)

15:38-15:42 
OTX2 and DKK1 Exhibit the Earliest Asymmetric Expression in Distal Visceral Endoderm.
OTX2とDKK1はDistal Visceral Endodermで最初に非対称な発現を示す遺伝子である

Hideharu Hoshino (VBP, RIKEN CDB)

FT5-09:
(P-021)

15:42-15:46 
The Comparative Analysis of Early Development in Reptiles
爬虫類初期発生の比較解析

Eriko Kajikawa (RIKEN CDB)

FT5-10:
(P-023)

15:46-15:50 
Molecular mechanisms of deep cell reaggregation during early development of an annual killifish Nothobranchius korthausae.
一年魚Nothobranchius korthausaeの初期発生における深層細胞再集合の分子メカニズムの解析

Daisuke Kurokawa (MMBS, Tokyo Univ., CDB, RIKEN Kobe.)

FT5-11:
(P-024)

15:50-15:54 
Establishment of vertebrate body plan via coordinated regulation of dorsal-ventral and anterior-posterior patterning and developmental canalization
Atsushi Suzuki (Inst.for Amphibian Biol., Hiroshima Univ.Grad.Sch.of Sci.)

FT5-12:
(P-026)

15:54-15:58 
Scaling of Dorsal-Ventral Patterning by Embryo Size-Dependent Degradation of Spemann’s Organizer Signals
オーガナイザー因子の分解を介した背腹軸スケーリングの保証機構

Hidehiko Inomata (Organogenesis and Neurogenesis Group, CDB, PRESTO)

FT5-13:
(P-027)

15:58-16:02 
Mechanical force that drives expansion of the amniotic cavity supports antero-posterior extension of the notochord in mouse embryos.
マウス胚では羊膜腔の膨張による機械的な力の作用が脊索の伸長を支持してる。

Yu Imuta (IMEG, Kumamoto Univ, RIKEN CDB, Osaka University, Graduate School of Medicine,)

FT5-14:
(P-029)

16:02-16:06 
P2Y nucleotide receptors are necessary for head structure formation during Xenopus leavis development
アフリカツメガエルの頭部形成においてヌクレオチド受容体P2Yは重要な機能をもつ

Haruka Nishida (Osaka Univ., Gra. Sch. of Sci., Dept. Biol)

FT5-15:
(P-030)

16:06-16:10 
Efficient induction of cranial neural crest stem cells from mouse ES cells
マウスES細胞からの頭部神経冠幹細胞の効率的誘導

Masami Nozaki (Res. Inst. for Microbial Dis., Osaka Univ.)

FT5-16:
(P-032)

16:10-16:14 
The specification of the developing telencephalon along dorsal-ventral axis
ニワトリ終脳の背腹領域の特異性獲得機構

Akari Karaiwa (Dev.Neurobiol.Lab.,Dept.of.Biol.Sci.,NWU)

FT5-17:
(P-033)

16:14-16:18 
PRDM12 is required for the regionalization of the Xenopus trigemital placode
ツメガエルの三叉神経プラコードの領域化にはPRDM12が必要である

Shinya Matsukawa (Grad. School of Arts and Sciences, The University of Tokyo)

FT5-18:
(P-035)

16:18-16:22 
MPDZ is involved in maintenance and formation of the developing optic cup
眼杯形成におけるMPDZの役割

Lanying Zhao (Grad Sch Med, Kyoto Univ)

FT5-19:
(P-036)

16:22-16:26 
Expression patterns of Dnmt4, Dnmt6, and Dnmt8 in zebrafish development
発生過程におけるゼブラフィッシュDnmt4, Dnmt6, Dnmt8の発現解析

Kazuya Takayama (Dep. of Bio. Sci., Grad. Sch. of Sci., Hiroshima Univ.)

FT5-20:
(P-038)

16:26-16:30 
Molecular mechanisms underlying segmentation border formation in zebrafish somitogenesis
Chimwar Wanglar (NIBB, SOKENDAI UNIVERSITY)

FT5-21:
(P-039)

16:30-16:34 
The role of thyroid hormone in developing heart
甲状腺ホルモンの心臓形成における役割

Kazuhiro Maeda (TWMU)

FT5-22:
(P-041)

16:34-16:38 
Lineage tracing analysis of genes contributing to the formation of cardiac conduction system in early heart development.
初期心臓発生における刺激伝導系の細胞系譜の解析

Akane Sakaguchi (NIG)

FT5-23:
(P-042)

16:38-16:42 
Protogenin participates in mouse vertebral patterning by regulating Hox gene expression
Wei-Chih Kuo (Department of Life Sciences and Institute of Genome Sciences, NYMU)

FT5-24:
(P-043)

16:42-16:46 
Development of an RNA interference method using microinjection in the water flea Daphnia pulex
ミジンコ(Daphnia pulex)初期胚へのマイクロインジェクションによるRNAi法の確立

Chizue Hiruta (NIBB)
▲ Go to top

DATE: May 30 (Thu) 15:10-16:50 Room 2
FT6: Morphogenesis
Chairpersons:  Yasuhiro Shiga (Tokyo Univ. of Pharmacy and Life Sciences)
Yohei Hirai (Kwansei Gakuin Univ.)

FT6-01:
(P-108)

15:10-15:14 
Innovative photomicroscopy and inhibitor approaches to understanding the mechanisms of building up the spiculous skeleton of the freshwater sponge
カイメンの体を成長させる骨片骨格はどの様に組み上げられるのかー骨片を立ち上げる機構の解析―

Kotoe Kawai (Dept.of Biophysics, Graduate school of Science, Kyoto Univ.)

FT6-02:
(P-110)

15:14-15:18 
Positive feedback mechanism in the simultaneous cell differentiation in Dictyostelium discoideum
Positive feedback を介した細胞性粘菌における同調的な細胞分化機構

Toru Uchikawa (Grad. Sch. of Sci., Osaka Univ.)

FT6-03:
(P-112)

15:18-15:22 
Efficient EGL-17/FGF secretion by epidermal cells in C. elegans requires components of the synaptic vesicle recycling machinery
C. elegans 表皮細胞における効率的なEGL-17/FGFに分泌にはシナプス小胞リサイクリング機構で機能する因子を必要とする

Hiroki Tanaka (Div. of Bio. Sci., Grad. Sch. of Sci., Nagoya Univ.)

FT6-04:
(P-114)

15:22-15:26 
Analysis of Heparan Sulfate function during C. elegans anchor cell invasion
C. elegansのアンカー細胞浸潤時におけるヘパラン硫酸の機能解析

Shinji Ihara (Multicellular Lab, NIG.)

FT6-05:
(P-116)

15:26-15:30 
Single-minded regulates specification of ventral cell fates in Daphnia magna
オオミジンコ single-minded ホモログは腹部特異化を制御している

Shinichi Morita (LEMB at TUPS)

FT6-06:
(P-118)

15:30-15:34 
Gene expression of twinning formation in Xenopus laevis embryo-#2
アフリカツメガエル2次胚形成における遺伝子発現ーその2

Eiji Sato (Dept.of Biochem., Hamamatsu Univ.Sch.of Med.)

FT6-07:
(P-120)

15:34-15:38 
Differential expression patterns of two types of medaka periostin during development and adulthood
発生期と成体における2種類のメダカペリオスチンの発現解析

Kohei Ito (Dept.Biol.Info., Tokyo Inst. Tech.)

FT6-08:
(P-122)

15:38-15:42 
A transmembrane metalloprotease ADAM10a regulates behaviors of primitive erythroblasts and vascular formation in zebrafish development.
ゼブラフィッシュの発生において膜型メタロプロテアーゼADAM10aは赤芽球の移動および脈管形成に関与する

Atsuo Iida (Ins. for Front. Med. Sci., Kyoto University)

FT6-09:
(P-124)

15:42-15:46 
Irxl1 is regulated by Mef2ca in pharyngeal arch morphogenesis of zebrafish
Han-Ni Chuang (Department of life Science, Institute of Molecular Biology, NCCU, Department of Biomedical Sciences, CSMU)

FT6-10:
(P-126)

15:46-15:50 
Low temperature mitigates cardia bifida in zebrafish embryos
Che-Yi Lin (IBB, NTOU, Taiwan)

FT6-11:
(P-128)
 
Cancelled
()

FT6-12:
(P-130)

15:54-15:58 
Quantification of mechanical force driving the left-handed twisting of the gut epithelial tube in Drosophila
ショウジョウバエにおける消化管上皮の反時計回りの捻転を引き起こす機械的な力の定量化

Mai Adachi (Dept. of Biol. Sci., Osaka Univ)

FT6-13:
(P-132)

15:58-16:02 
Formation of fin-specific structures (fin-ray) in zebrafish development
ゼブラフィッシュの発生における鰭条構造の形成機構

Tohru Yano (Dept. Dev. Biol. and Neurosci., Grad. Sch. Sci., Tohoku Univ.)

FT6-14:
(P-134)

16:02-16:06 
Cux2 refines the position of limbs along the rostral-caudal axis during chick development
Shogo Ueda (Tokyo Tech.)

FT6-15:
(P-136)

16:06-16:10 
Analysis of the function of Fgf10 chromosomal enhancers that control limb specific expression
Fgf10の発現を肢芽特異的に制御するエンハンサーの機能解析

Chisa Ando (Div. of Biol. Sci., Grad. Sch. of Sci., Nagoya Univ.)

FT6-16:
(P-138)

16:10-16:14 
Transcriptome analyses of flounder metamorphosis left-right asymmetric differentiation
ヒラメ変態の左右非対称化プロセスのトランスクリプトーム解析

Hayato Yokoi (Grad Schl Agricul Sci, Tohoku Univ)

FT6-17:
(P-140)

16:14-16:18 
Reduced cell number in the hindgut epithelium disrupts hindgut left-right asymmetry in a mutant of pebble, encoding a RhoGEF, in Drosophila embryos
RhoGEFをコードするpebbleの突然変異体におけるショウジョウバエ胚後腸上皮の細胞数の減少が後腸の左右非対称性を乱す

Mitsutoshi Nakamura (Dept of Biol. Sci, Osaka Univ)

FT6-18:
(P-161)

16:18-16:22 
The role of cell-ECM interactions in collective cellular movement during the looping morphogenesis of Drosophila male terminalia
細胞-ECM相互作用がショウジョウバエ雄性生殖器の形態形成に与える影響

Emi Maekawa (Lab. Histogenetic Dynamics, RIKEN CDB)

FT6-19:
(P-143)
 
Cancelled
()

FT6-20:
(P-145)

16:26-16:30 
Temporal observation of the influence of the Fgf signal about somite formation
体節形成におけるFgfシグナルの影響の経時的な観察

Kenji Maekubo (Grad. Sch. of Sci. and Tech., Kwanseigakuin Univ.)

FT6-21:
(P-147)

16:30-16:34 
Ripply2-dependent negative regulation of Tbx6 is required for somitogenesis
Wei Zhao (NIG, Graduated School of Science, university of Tokyo)

FT6-22:
(P-149)

16:34-16:38 
Formation of the digestive tract in Ciona intestinalis includes two distinct morphogenic processes between its anterior and posterior parts
カタユウレイボヤにおける消化管形成:前方と後方で異なる管のでき方と細胞の由来

Keiichi Nakazawa (Dept. Biol. Sci., Tokyo Metro Univ.)

FT6-23:
(P-151)

16:38-16:42 
Exploring the role of atypical cadherins in collective cell migration
集団的細胞移動における非典型的カドヘリンの機能解析

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

FT6-24:
(P-153)

16:42-16:46 
Knockdown of ouro genes represses tadpole tail regression during Xenopus metamorphosis
オウロ遺伝子のノックダウンは変態期のツメガエル幼生の尾部退縮を抑制する

Erisa Maruyama (Dept. Biol., Faulty of Sci., Niigata Univ., Japan)
▲ Go to top

DATE: May 30 (Thu) 15:10-16:50 Room 3
FT7: Gametogenesis, fertilization and reproduction / Sex determination / Regeneration
Chairpersons:  Taro Mito (Univ. of Tokushima)
Yoshihiko Umesono (Univ. of Tokushima)

FT7-01:
(P-001)

15:10-15:14 
The mechanism of the establishment of murine spermatogonial stem cells
HAN PIN Pui (NIG, SOKENDAI)

FT7-02:
(P-003)

15:14-15:18 
In vitro Reconstruction of Mouse Seminiferous Tubules Supporting Germ Cell Differentiation
マウス未熟精巣を用いたin vitroにおける精細管再構成と精子形成

Tetsuhiro Yokonishi (Dep. of Urol. Yokohama City Univ. School of Med.)

FT7-03:
(P-005)

15:18-15:22 
Possible involvement of a novel RNA-binding protein, MGC83235, in the promotion of Xenopus oocyte maturation
アフリカツメガエル卵成熟誘起への新奇RNA結合タンパク質MGC83235の関与

Kazuki Takahashi (Grad. Sch. of Life Sci., Hokkaido Univ.)

FT7-04:
(P-007)

15:22-15:26 
Pronuclear chromatin binding of Orc6 in mouse fertilized eggs
マウス受精卵におけるOrc6の前核クロマチンへの結合

Shin Murai (Dept of Biochem, Toho Univ, Sch of Med)

FT7-05:
(P-009)

15:26-15:30 
Meiotic chromosome behavior in the triploid planarian
3倍体プラナリアの減数分裂における染色体挙動

Ayako Chinone (Dept. of Bioscis. & Informatics, Fac. of Sci. & Tech., Keio Univ.)

FT7-06:
(P-207)

15:30-15:34 
Lgr4 knockout mice show female hermaphroditism
雌Lgr4ノックアウトマウスは仮性半陰陽を示す

Masae Koizumi (Lab. Mol. Biol.,Grad. Sh. of univ. of Tohoku)

FT7-07:
(P-209)

15:34-15:38 
Identification of a genetic cause of non-regenerative head tissues in the planarian Phagocata kawakatsui
コガタウズムシにおける頭部構造再生条件の探索

Yui Nishimura (Dept. of Biophysics Grad. School of Science, Kyoto Univ.)

FT7-08:
(P-210)

15:38-15:42 
In vivo model system to study the genetic program of tissue regeneration
組織再生の遺伝プログラム研究に向けた in vivo モデルシステムの確立

Soshiro Kashio (Genetics, Grad Sch Pharm Sci, Univ Tokyo)

FT7-09:
(P-212)

15:42-15:46 
JAK/STAT signaling promotes blastemal cell proliferation during leg regeneration in the cricket Gryllus bimaculatus
脚再生過程においてJAK/STATシグナルは再生芽細胞の増殖を制御する

Tetsuya Bando (Okayama Univ.)

FT7-10:
(P-213)

15:46-15:50 
Analysis of the source of ‘blastema survival factor’ and its downstream signaling during the zebrafish fin fold regeneration
ゼブラフィッシュの膜ヒレ再生時における再生芽生存因子の起源とその下流シグナルの解析

Tomoya Hasegawa (Tokyo tech)

FT7-11:
(P-215)

15:50-15:54 
Imaging and characterization of mmp9-expressing cells during zebrafish fin regeneration using the Tol2 BAC transgenic
Tol2 BACトランスジェニックを用いた、ゼブラフィッシュのひれ再生におけるmmp9発現細胞の解析

Kazunori Ando (Tokyo Tech)

FT7-12:
(P-216)

15:54-15:58 
Critical role of fibronectin 1b during zebrafish fin regeneration
ゼブラフィッシュひれ再生におけるfibronectin 1bの機能解析

Eri Shibata (Tokyo tech)

FT7-13:
(P-218)

15:58-16:02 
Transient reduction of 5-methylcytosine and 5-hydroxymethylcytosine is caused by active DNA demethylation during regeneration of zebrafish fin
ゼブラフィッシュの尾びれ再生過程では能動的DNA脱メチル化による
5-メチルシトシンと5-ヒドロキシメチルシトシンの一時的な減少が生じる

Kentaro Hirose (Dep. of Biol. Sci., Grad. Sch, of Sci., Hiroshima Univ.)

FT7-14:
(P-219)

16:02-16:06 
The analysis on pattern formation of the joint during newt limb regeneration
イモリの四肢再生における関節のパターン形成の解析

Rio Tsutsumi (Dept. of Biophys., Grad. Sch. of Sci, Kyoto Univ.)

FT7-15:
(P-221)

16:06-16:10 
Comprehensive Analysis of Time-course of Gene Expression Pattern during Forelimb Regeneration in Newt Cynops pyrrhogaster
アカハライモリの前肢再生過程における遺伝子発現変化の網羅的解析

Shota Takemura (Dept. of Biophys., Grad. of Sci., Kyoto Univ.)

FT7-16:
(P-222)

16:10-16:14 
Hippo signaling is important for Xenopus limb regeneration
アフリカツメガエルの四肢再生におけるHippo系路の重要性

Shinichi Hayashi (Laboratory of Organ Morphogenesis, Tohoku University)

FT7-17:
(P-224)

16:14-16:18 
A new regeneration study system in Xenopus laevis; Ectopic blastema induction by nerve deviation and skin wounding
アフリカツメガエル(Xenopus laevis)における新規再生研究系;神経遊走と皮膚損傷による異所再生芽の誘導

Kazumasa Mitogawa (RCIS,Okayama Univ)

FT7-18:
(P-225)

16:18-16:22 
Comparative study of limb regeneration between amphibians and mammals
両生類との比較から探るマウスの四肢再生能

Shinichirou Miura (Lab.of Biol., Aichi Gakuin Univ.)

FT7-19:
(P-227)

16:22-16:26 
Amphibian retinal regeneration is triggered by matrix metalloproteinases
両生類網膜再生初期過程を制御するmatrix metalloproteinasesの解析

Hanako Naito (Dev. Neurobiol. Lab., Dept. of Biol. Sci., Nara Women’s Univ.)

FT7-20:
(P-228)

16:26-16:30 
Rax and Pax6 expressions are related to the localization of cell adhesion molecules during retinal regeneration in Xenopus
成体ツメガエル網膜再生におけるRax・Pax6遺伝子の発現パターンと細胞接着分子の動態の解析

Yoko Ueda (Graduate school of humanities and science, NWU)

FT7-21:
(P-230)

16:30-16:34 
Studies on regeneration of the dopaminergic neuron in newts, Cynops pyrrhogaster
アカハライモリを用いたドーパミン神経細胞再生の解析

Yuko Urata (Dept. of Biophys. Grad. Sch. of Sci., Kyoto Univ.)

FT7-22:
(P-231)

16:34-16:38 
In vitro analysis of the neural stem cells in newt Cynops phyrrhogaster
アカハライモリ神経幹細胞のIn vitro解析

Wataru Yamashita (Dept. of Biophys. Grad. Sci., Kyoto Univ.)

FT7-23:
(P-233)

16:38-16:42 
Lineage tracing analysis of cardiomyocytes in the newt cardiac regeneration by tamoxifen-inducible Cre loxP system.
タモキシフェン誘導型Cre loxPシステムを用いたイモリの心臓再生過程における細胞系譜の追跡。

Ayumi Myouga (Scl of Life Science, Tottori Univ.)

FT7-24:
(P-234)

16:42-16:46 
What Molecule Triggers Proliferation of Cardiomyocytes during Newt Heart Regeneration?
イモリ心臓再生過程において、心筋細胞の増殖を開始させるトリガーは何か?

Toshinori Hayashi (Scl. of Life Science, Tottori Univ.)
▲ Go to top

  Satellite Workshops (in Japanese)  

DATE: May 28 (Tue) 15:00-17:00 Room 2
SW01: Gametogenesis, fertilization and reproduction/Early embryogenesis/ Cell differentiation/Cell-Cell/-Matrix interaction/Cell proliferation/ Organogenesis
Chairpersons:  Atsushi Kawakami (Tokyo Inst. of Technol.)
Takahiro Chihara (Univ. of Tokyo)

SW1-01:
(FT7-04)
(P-007)

15:00-15:10 
Pronuclear chromatin binding of Orc6 in mouse fertilized eggs
マウス受精卵におけるOrc6の前核クロマチンへの結合

Shin Murai (Dept of Biochem, Toho Univ, Sch of Med)

SW1-02:
(FT7-05)
(P-009)

15:10-15:20 
Meiotic chromosome behavior in the triploid planarian
3倍体プラナリアの減数分裂における染色体挙動

Ayako Chinone (Dept. of Bioscis. & Informatics, Fac. of Sci. & Tech., Keio Univ.)

SW1-03:
(FT5-18)
(P-035)

15:20-15:30 
MPDZ is involved in maintenance and formation of the developing optic cup
眼杯形成におけるMPDZの役割

Lanying Zhao (Grad Sch Med, Kyoto Univ)

SW1-04:
(FT5-12)
(P-026)

15:30-15:40 
Scaling of Dorsal-Ventral Patterning by Embryo Size-Dependent Degradation of Spemann’s Organizer Signals
オーガナイザー因子の分解を介した背腹軸スケーリングの保証機構

Hidehiko Inomata (Organogenesis and Neurogenesis Group, CDB, PRESTO)

SW1-05:
(FT2-14)
(P-074)

15:40-15:50 
LGR4 is required for development and maintenance of mammary gland
LGR4は乳腺組織の発達と維持に必要である

Kazunori Oyama (Lab. Mol. Biol., Grad. Sch. of Agr. Sci., Univ. of Tohoku)

SW1-06:
(FT2-05)
(P-081)

15:50-16:00 
Extracellular syntaxin4 triggers the differentiation program in teratocarcinoma F9 cells with impacts on cell adhesion properties.
テラトカルシノーマF9細胞における細胞外シンタキシン4の細胞接着と分化への影響

Natsumi Hagiwara (Dep. Bioscience, Grad. Sch. Sci. Technol., Kwansei Gakuin Univ.)

SW1-07:
(FT2-07)
(P-086)

16:00-16:10 
Optimal cellular mobility for synchronization arising from the gradual recovery of intercellular interactions
遺伝子発現の同期を達成するための最適な細胞移動率

Koichiro Uriu (Theoretical Biology Laboratory, RIKEN ASI, Japan)

SW1-08:
(FT2-01)
(P-088)

16:10-16:20 
The subcellular localization of cyclin B2 is required for bipolar spindle formation in meiosis I during Xenopus oocyte maturation
サイクリンB2の細胞内局在はアフリカツメガエル卵成熟過程の二極性紡錘体形成に必要である

Satoshi Yoshitome (Fac. Pharm., Iwaki Meisei Univ.)

SW1-09:
(FT3-14)
(P-165)

16:20-16:30 
Cadherin-7 enhances sonic hedgehog signaling by inhibiting the movement of full-length Gli3 to the primary cilium
カドヘリン−7は転写因子Gli3の移動制限によりソニックヘッジホッグシグナルを調節する。

Rie Kawano (Dev. Neurobio. Kumamoto University)

SW1-10:
(FT3-15)
(P-167)

16:30-16:40 
Study of secondary neurulation: stem cell-like behavior of neural tube precursors implicated by transplantation of EGFP-labeled tail bud
Secondary Neurulation研究: EGFP標識tail budの移植から浮かび上がった神経管前駆細胞の幹細胞様の挙動

Teruaki Kawachi (Department of Zoology, Kyoto University.)

SW1-11:
(FT3-16)
(P-169)

16:40-16:50 
Long-distance cell migrations during larval development in an appendicularian, Oikopleura dioica.
ワカレオタマボヤ Oikopleura dioica 後期発生のライブイメージングによって見出された長距離移動を示す細胞群

Kanae Kishi (Dept. Biol. Sci., Osaka Univ.)

SW1-12:
(FT3-17)
(P-171)

16:50-17:00 
Role of motile cilia in development and function of renal tubes in fish
魚類の腎臓発生における運動性繊毛の役割

Atsuko Shimada (Dep. Biol. Sci., Grad. Sch. Sci., Univ. Tokyo)
▲ Go to top

DATE: May 28 (Tue) 17:10-19:00 Room 2
SW02: Morphogenesis/Neural development and function/Regeneration/Technology, Theoretical approach
Chairpersons:  Hidehiko Inomata (RIKEN CDB)
Midori Matsumoto (Keiko Univ.)

SW2-01:
(FT6-20)
(P-145)

17:10-17:20 
Temporal observation of the influence of the Fgf signal about somite formation
体節形成におけるFgfシグナルの影響の経時的な観察

Kenji Maekubo (Grad. Sch. of Sci. and Tech., Kwanseigakuin Univ.)

SW2-02:
(FT6-22)
(P-149)

17:20-17:30 
Formation of the digestive tract in Ciona intestinalis includes two distinct morphogenic processes between its anterior and posterior parts
カタユウレイボヤにおける消化管形成:前方と後方で異なる管のでき方と細胞の由来

Keiichi Nakazawa (Dept. Biol. Sci., Tokyo Metro Univ.)

SW2-03:
(FT6-15)
(P-136)

17:30-17:40 
Analysis of the function of Fgf10 chromosomal enhancers that control limb specific expression
Fgf10の発現を肢芽特異的に制御するエンハンサーの機能解析

Chisa Ando (Div. of Biol. Sci., Grad. Sch. of Sci., Nagoya Univ.)

SW2-04:
(FT3-03)
(P-187)

17:40-17:50 
Unveiling the role of Ephrin for dendrite targeting of Drosophila olfactory projection neurons
ショウジョウバエ嗅覚投射神経の樹状突起領域形成におけるエフリンの機能解析

Shirin Makihara (Genetics, Grad Sch Pharm Sci, Univ Tokyo)

SW2-05:
(FT7-13)
(P-218)

17:50-18:00 
Transient reduction of 5-methylcytosine and 5-hydroxymethylcytosine is caused by active DNA demethylation during regeneration of zebrafish fin
ゼブラフィッシュの尾びれ再生過程では能動的DNA脱メチル化による
5-メチルシトシンと5-ヒドロキシメチルシトシンの一時的な減少が生じる

Kentaro Hirose (Dep. of Biol. Sci., Grad. Sch, of Sci., Hiroshima Univ.)

SW2-06:
(FT7-08)
(P-210)

18:00-18:10 
In vivo model system to study the genetic program of tissue regeneration
組織再生の遺伝プログラム研究に向けた in vivo モデルシステムの確立

Soshiro Kashio (Genetics, Grad Sch Pharm Sci, Univ Tokyo)

SW2-07:
(FT7-11)
(P-215)

18:10-18:20 
Imaging and characterization of mmp9-expressing cells during zebrafish fin regeneration using the Tol2 BAC transgenic
Tol2 BACトランスジェニックを用いた、ゼブラフィッシュのひれ再生におけるmmp9発現細胞の解析

Kazunori Ando (Tokyo Tech)

SW2-08:
(FT6-24)
(P-153)

18:20-18:30 
Knockdown of ouro genes represses tadpole tail regression during Xenopus metamorphosis
オウロ遺伝子のノックダウンは変態期のツメガエル幼生の尾部退縮を抑制する

Erisa Maruyama (Dept. Biol., Faulty of Sci., Niigata Univ., Japan)

SW2-09:
(FT7-12)
(P-216)

18:30-18:40 
Critical role of fibronectin 1b during zebrafish fin regeneration
ゼブラフィッシュひれ再生におけるfibronectin 1bの機能解析

Eri Shibata (Tokyo tech)

SW2-10:
(FT1-03)
(P-280)

18:40-18:50 
Numerical analyses for behaviors of auxin transport pattern on growing fields
オーキシン極性輸送に基づくパターンの成長場における数値解析

Akiko Nakamasu (Dep.Biores. Env. Sci. KSU., JSPS Reserch Fellow)

SW2-11:
(FT1-05)
(P-283)

18:50-19:00 
A theory on the timing of cell fate decision in developing organs
成長組織における細胞運命の決定タイミングに関する理論

Yoshihiro Morishita (RIKEN CDB)
▲ Go to top

  Technical Workshop  

DATE: May 28 (Tue) 15:30-18:30 Room 3
Technical Workshop: Technical tips
Chairpersons:  Ken-ichi Suzuki (Hiroshima Univ.)
Toshinori Hayashi (Tottori Univ.)

The NGS sequencing, quantitative/3D imaging, and genome editing by TALEN, these techniques are becoming an integral part of development biology. In order to aim at sharing the new and advanced technologies, we planned this workshop. The speakers talk about principles, applications and technical tips regarding these techniques. We hope that our technical tips would be “exciting” and “helpful” for participants from senior scientists to students.

TW01-1:
15:30-15:55 
Next-generation sequencing for developmental biology
発生生物学のための次世代シーケンス

Shigehiro Kuraku (RIKEN CDB GRAS)

TW01-2:
15:55-16:20 
What is the best microscope for developmental biologists?
Shigenori Nonaka (NIBB)

TW01-3:
16:30-16:55 
Quantitative approach to understand whole organ morphogenesis
器官全体の形態形成を理解するための定量的アプローチの方法

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

TW01-4:
16:55-17:20 
Platinum Gate TALEN: Establishment of highly-active TALEN construction system
プラチナゲートTALEN: 高活性型TALENの作製システムの確立

Tetsushi Sakuma (Dept. of Math. and Life Sci., Grad. Sch. of Sci., Hiroshima Univ.)

TW01-5:
17:25-17:50 
Molecular Genetic System for Regenerative Studies Using Newts
イモリを使った分子遺伝学実験系の構築

Toshinori Hayashi (Scl. of Life Science, Tottori Univ.)
▲ Go to top

  Satellite symposium (in Japanese)  

DATE: May 28 (Tue) 18:30-20:35 Room 3
植物の逆襲 ─ 植物の形づくりの理論モデルと実験:
Chairpersons:  Koichi Fujimoto (Osaka Univ.)
Takashi Miura (Kyusyu Univ.)

本シンポジウムでは、植物パターン形成の理論モデルとその応用を紹介する。発生生物学会で は、もともと植物と動物の境は無く、お互いの研究対象について忌憚なく議論をしていた。近 年の分子生物学の発達によって、細胞間相互作用を司る分子は植物と動物で大きく異なること が明らかになって来て、バベルの塔が崩れ、植物の研究者は学会から姿を消してしまった。し かし、実はパターン形成の背後にある数理や物理には共通性があり、意外なところで接点が見 つかることが多い。当シンポジウムではそのような例をいくつか紹介することで、動植物の研 究領域の間に新たな関連を生むことを目的とする。
Co-organized by「植物細胞壁の情報処理システム」(http://www.plantcellwall.jp)

SS-01:
18:35-19:05 
Cell wall and skull bone - understanidng pattern formation dynamics using mathematical model
細胞壁と頭蓋骨 - パターン形成ダイナミクスの数理モデルによる統合的理解

Takumi Higaki (Dept Integratet Biosci, Univ Tokyo)

SS-02:
19:05-19:35 
Image clustering of plant cells and pattern recognition
植物細胞の画像クラスタリングとパターン認識

Natsumaro Kutsuna (Dept Integrated Biosci, Univ Tokyo)

SS-03:
19:35-20:05 
葉原基におけるタンパク質拡散係数の非一様性と細胞増殖活性の時空間分布
Kensuke Kawade (RIKEN Plant Science Center)

SS-04:
20:05-20:35 
Initiation of Cell Wall Pattern by a Rho GTPase- and Microtubule-Driven Symmetry Breaking
Rho GTPaseと表層微小管による自発的な細胞壁パターンの構築

Yoshihisa Oda (Dep. Biol, Tokyo Univ., PRESTO, JST)
▲ Go to top

  Poster Sessions  

DATE: May 29 (Wed)-May 31 (Fri)

P-001:
(FT7-01)

15:10-15:14 
The mechanism of the establishment of murine spermatogonial stem cells
HAN PIN Pui (NIG, SOKENDAI)

P-002:
(OP17-01)

10:25-10:37 
Characterization of mammalian spermatogenic stem cell niche
精子幹細胞ニッチの探索

Yu Kitadate (Germ Cell Biology, NIBB)

P-003:
(FT7-02)

15:14-15:18 
In vitro Reconstruction of Mouse Seminiferous Tubules Supporting Germ Cell Differentiation
マウス未熟精巣を用いたin vitroにおける精細管再構成と精子形成

Tetsuhiro Yokonishi (Dep. of Urol. Yokohama City Univ. School of Med.)

P-004:
(OP17-02)

10:37-10:49 
Reconstruction of seminiferous tubule-like structure in 3-D culture system of re-aggregated mouse testicular cells
Jidong Zhang (GSST,Kumamoto University)

P-005:
(FT7-03)

15:18-15:22 
Possible involvement of a novel RNA-binding protein, MGC83235, in the promotion of Xenopus oocyte maturation
アフリカツメガエル卵成熟誘起への新奇RNA結合タンパク質MGC83235の関与

Kazuki Takahashi (Grad. Sch. of Life Sci., Hokkaido Univ.)

P-006:
(OP17-03)

10:49-11:01 
Role of Glycolysis in Primordial-Germ-Cell Development in Drosophila embryos
ショウジョウバエ始原生殖細胞の発生過程における解糖系の新規役割

Yoshiki Hayashi (Okazaki Institute for Integrative Bioscience, NIBB)

P-007:
(FT7-04)

15:22-15:26 
Pronuclear chromatin binding of Orc6 in mouse fertilized eggs
マウス受精卵におけるOrc6の前核クロマチンへの結合

Shin Murai (Dept of Biochem, Toho Univ, Sch of Med)

P-008:
(OP17-04)

11:01-11:13 
Identification of a Nanos target in the mouse
マウスにおけるNanos標的RNAの同定

Yuzuru Kato (NIG)

P-009:
(FT7-05)

15:26-15:30 
Meiotic chromosome behavior in the triploid planarian
3倍体プラナリアの減数分裂における染色体挙動

Ayako Chinone (Dept. of Bioscis. & Informatics, Fac. of Sci. & Tech., Keio Univ.)

P-010:
(OP17-05)

11:13-11:25 
Identification of the interactive regions of Xenopus dicalcin for its target glycoprotein, gp41
受精調節タンパク質ダイカルシンにおけるgp41結合部位の同定

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

P-011:
(FT5-02)

15:14-15:18 
Promoter Assay of Granzyme g Specific Expression in mouse embryo 2-cell stage
Huan Ou-Yang (DAST, NTU., DLS, NCHU.)

P-012:
(FT5-03)

15:18-15:22 
Do Wnts function as global cues for asymmetric cell divisions in C. elegans embryos?
WntsはC. elegans胚における非対称細胞分裂のためのグローバルな手がかりとして機能するか?

Sohei Nakayama (Multicellular Organization Lab., NIG)

P-013:
(OP05-09)

15:01-15:13 
Pattern of early gene expression during early marmoset development
コモンマーモセット初期胚における遺伝子発現パターンの変化

Ayako Sedohara (CIEA)

P-014:
(FT5-04)

15:22-15:26 
Participation of Human X-linked intellectual disability (XLID) gene in the cell cycle regulation of early embryo development
Chun-Yu Chen (CLSMB, NTUCM)

P-015:
(FT5-05)

15:26-15:30 
Lhx1 is widely implicated in the differentiation of epiblasts to germ layer.
Lhx1はエピブラストから胚葉への分化に広く関係する。

Akira Hasegawa (DRMT, Tottori Univ.)

P-016:
(OP05-10)

15:13-15:25 
The spider Parasteatoda tepidariorum is a good model to study cell-cell signaling and cell movement during development
細胞間シグナルと細胞運動の実験系としてのオオヒメグモ

Yasuko Akiyama-Oda (JT Biohistory Res. Hall)

P-017:
(FT5-06)

15:30-15:34 
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-018:
(FT5-07)

15:34-15:38 
Live Imaging Analysis of Mouse Postimplantation Development
前後軸形成期におけるマウス胚発生のライブイメージング解析

Go Shioi (LARGE, CDB, RIKEN)

P-019:
(OP05-11)

15:25-15:37 
Zebrafish embryonic cell migration promoted by pregnenolone that changes the conformation of CLIP-170 and promoting microtubule polymerization
Bon-chu Chung (IMB, Academia Sinica)

P-020:
(FT5-08)

15:38-15:42 
OTX2 and DKK1 Exhibit the Earliest Asymmetric Expression in Distal Visceral Endoderm.
OTX2とDKK1はDistal Visceral Endodermで最初に非対称な発現を示す遺伝子である

Hideharu Hoshino (VBP, RIKEN CDB)

P-021:
(FT5-09)

15:42-15:46 
The Comparative Analysis of Early Development in Reptiles
爬虫類初期発生の比較解析

Eriko Kajikawa (RIKEN CDB)

P-022:
(OP05-12)

15:37-13:25 
Theoretical model of DV-pattern scaling in Xenopus embryo
初期Xenopus胚の背腹軸スケーリングを保証する理論モデル

Tatsuo Shibata (Lab for Physical Biology, CDB)

P-023:
(FT5-10)

15:46-15:50 
Molecular mechanisms of deep cell reaggregation during early development of an annual killifish Nothobranchius korthausae.
一年魚Nothobranchius korthausaeの初期発生における深層細胞再集合の分子メカニズムの解析

Daisuke Kurokawa (MMBS, Tokyo Univ., CDB, RIKEN Kobe.)

P-024:
(FT5-11)

15:50-15:54 
Establishment of vertebrate body plan via coordinated regulation of dorsal-ventral and anterior-posterior patterning and developmental canalization
Atsushi Suzuki (Inst.for Amphibian Biol., Hiroshima Univ.Grad.Sch.of Sci.)

P-025:
(OP12-01)

10:25-10:37 
Zebrafish TSC22D3 Plays Critical Roles in Bmp dependent Dorsoventral Patterning during Early Embryogenesis
William Ka Fai Tse (Dept. of Biol, HKBU)

P-026:
(FT5-12)

15:54-15:58 
Scaling of Dorsal-Ventral Patterning by Embryo Size-Dependent Degradation of Spemann’s Organizer Signals
オーガナイザー因子の分解を介した背腹軸スケーリングの保証機構

Hidehiko Inomata (Organogenesis and Neurogenesis Group, CDB, PRESTO)

P-027:
(FT5-13)

15:58-16:02 
Mechanical force that drives expansion of the amniotic cavity supports antero-posterior extension of the notochord in mouse embryos.
マウス胚では羊膜腔の膨張による機械的な力の作用が脊索の伸長を支持してる。

Yu Imuta (IMEG, Kumamoto Univ, RIKEN CDB, Osaka University, Graduate School of Medicine,)

P-028:
(OP12-02)

10:37-10:49 
Mechanism of the “KUBIRE” formation in the neurula embryo of the ascidian, Halocynthia roretzi
マボヤ神経胚における「くびれ」形成機構の解析

Gaku Kumano (Osaka University)

P-029:
(FT5-14)

16:02-16:06 
P2Y nucleotide receptors are necessary for head structure formation during Xenopus leavis development
アフリカツメガエルの頭部形成においてヌクレオチド受容体P2Yは重要な機能をもつ

Haruka Nishida (Osaka Univ., Gra. Sch. of Sci., Dept. Biol)

P-030:
(FT5-15)

16:06-16:10 
Efficient induction of cranial neural crest stem cells from mouse ES cells
マウスES細胞からの頭部神経冠幹細胞の効率的誘導

Masami Nozaki (Res. Inst. for Microbial Dis., Osaka Univ.)

P-031:
(OP12-03)

10:49-11:01 
The cilia-dependency of hedgehog signaling in fish
魚類におけるヘッジホッグシグナル伝達経路の繊毛依存性

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

P-032:
(FT5-16)

16:10-16:14 
The specification of the developing telencephalon along dorsal-ventral axis
ニワトリ終脳の背腹領域の特異性獲得機構

Akari Karaiwa (Dev.Neurobiol.Lab.,Dept.of.Biol.Sci.,NWU)

P-033:
(FT5-17)

16:14-16:18 
PRDM12 is required for the regionalization of the Xenopus trigemital placode
ツメガエルの三叉神経プラコードの領域化にはPRDM12が必要である

Shinya Matsukawa (Grad. School of Arts and Sciences, The University of Tokyo)

P-034:
(OP12-04)

11:01-11:13 
Molecular identification of tw5: Vps52 promotes pluripotential cell differentiation through cell interactions
マウスt-complex致死変異より同定されたVps52の発生制御遺伝子としての役割

Michihiko Sugimoto (MCD, BRC, RIKEN)

P-035:
(FT5-18)

16:18-16:22 
MPDZ is involved in maintenance and formation of the developing optic cup
眼杯形成におけるMPDZの役割

Lanying Zhao (Grad Sch Med, Kyoto Univ)

P-036:
(FT5-19)

16:22-16:26 
Expression patterns of Dnmt4, Dnmt6, and Dnmt8 in zebrafish development
発生過程におけるゼブラフィッシュDnmt4, Dnmt6, Dnmt8の発現解析

Kazuya Takayama (Dep. of Bio. Sci., Grad. Sch. of Sci., Hiroshima Univ.)

P-037:
(OP12-05)

11:13-11:25 
Epigenetic regulation of Hox gene expression by PcG genes in a primitive mode of insect embryogenesis in the cricket Gryllus bimaculatus
原始的発生様式をとる昆虫の胚発生過程におけるポリコーム遺伝子群によるホメオティック遺伝子発現のエピジェネティックな制御

Yuji Matsuoka (Dept. of Bio. Sci. and Tech., Fact. of Eng., Tokushima Univ.)

P-038:
(FT5-20)

16:26-16:30 
Molecular mechanisms underlying segmentation border formation in zebrafish somitogenesis
Chimwar Wanglar (NIBB, SOKENDAI UNIVERSITY)

P-039:
(FT5-21)

16:30-16:34 
The role of thyroid hormone in developing heart
甲状腺ホルモンの心臓形成における役割

Kazuhiro Maeda (TWMU)

P-040:
(OP12-06)

11:25-8:30 
The Role of Foxc1 in Telencephalic Vascular Development
Thanit Prasitsak (Mol. Cra. Emb., TMDU)

P-041:
(FT5-22)

16:34-16:38 
Lineage tracing analysis of genes contributing to the formation of cardiac conduction system in early heart development.
初期心臓発生における刺激伝導系の細胞系譜の解析

Akane Sakaguchi (NIG)

P-042:
(FT5-23)

16:38-16:42 
Protogenin participates in mouse vertebral patterning by regulating Hox gene expression
Wei-Chih Kuo (Department of Life Sciences and Institute of Genome Sciences, NYMU)

P-043:
(FT5-24)

16:42-16:46 
Development of an RNA interference method using microinjection in the water flea Daphnia pulex
ミジンコ(Daphnia pulex)初期胚へのマイクロインジェクションによるRNAi法の確立

Chizue Hiruta (NIBB)

P-044:
(OP15-01)

8:30-8:42 
LIF Responsiveness in Embryonic Stem Cells from different mouse strains.
ES細胞でのLIF応答性(マウス系統間での比較)

Satoshi Ohtsuka (Laboratory for Pluripotent Stem cell studies, CDB RIKEN)

P-045:
(FT4-01)

17:45-17:49 
Function of EflMsiA in the active stem cells (archeocytes) in freshwater sponge, Ephydatia fluviatilis
カワカイメン全能性体性幹細胞におけるEflMsiAの機能

Kazuko Okamoto (Dept.Biophys.Grad.Sch.Sci., Kyoto Univ.)

P-046:
(OP15-02)

8:42-8:54 
Lactic Acid Bacteria Convert Human Fibroblasts to Multipotent Cells
ヒト皮膚細胞は乳酸菌を取り込むと多能性を持つようになる

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

P-047:
(FT4-02)

17:49-17:53 
Akhirin is involved in the neural stem cell regulation in the central canal of a mouse spinal cord
Athary Felemban (Dep. Dev. Neurobiol., Grad. Sch. Life Sci., Kumamoto Univ., Global COE, Kumamoto Univ., Ministry of H. Edu., Saudi Arabia)

P-048:
(OP15-03)

8:54-9:06 
A molecular mechanism controlling proliferation of planarian pluripotent stem cells
プラナリア全能性幹細胞の増殖制御機構

Hayoung Lee (Dept of Biophys, Kyoto univ.)

P-049:
(FT4-03)

17:53-17:57 
The roles of chromatin remodelers in the maintenance of multipotency of mouse trunk neural crest cells in the relationship with the formation mechanisms of neural crest-derived stem cells
マウス体幹神経冠細胞の多分化能維持におけるクロマチンリモデラーの役割と神経冠細胞由来幹細胞の形成メカニズムとの関連

Kyohei Fujita (Dept. Biol. Sci., Osaka Univ.)

P-050:
(FT4-04)
 
Cancelled
()

P-051:
(OP15-04)

9:06-9:18 
The microRNA mir-235 suspends growth and development during starvation
microRNA mir-235は飢餓時に発育を抑制する

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

P-052:
(FT4-05)

18:01-18:05 
Notch signal play a role in the multipotency of melanoblast.
色素芽細胞のもつ多分化能にNotchシグナルが重要である

Natsuki Watanabe (Regeneration & Adv.Med.Sci., Gifu Univ.Grad.Sch.of Med.)

P-053:
(OP15-05)

9:18-9:30 
Knockdown planarians of the nuclear-type Piwi gene give new insights into planarian stem cell system
核局在型Piwiの遺伝子機能阻害から得られたプラナリア幹細胞システムの新たな知見

Makoto Kashima (DB, Kyoto Uni.)

P-054:
(FT4-06)

18:05-18:09 
Ddx46 is required for multi-lineage differentiation of hematopoietic stem cells in zebrafish
ゼブラフィッシュにおいてDdx46は造血幹細胞の多系列分化に必要である

Ryo Hirabayashi (Dep. of Bio. Sci., Grad. Sch. of Sci., Hiroshima Univ.)

P-055:
(OP15-06)

9:30-9:42 
Differential response to Retinoic acid achieves balanced self-renewal and differentiation of the stem cell compartment in mouse spermatogenesis
マウス精子幹細胞において、レチノイン酸応答性の異なる細胞集団が幹細胞の自己複製能と分化能を両立させている

Kanako Ikami (DGCB, NIBB)

P-056:
(FT4-07)

18:09-18:13 
The regulation analyses of Jagged1 expression in Sertoli cells of mouse testis
マウス精巣のセルトリ細胞におけるJagged1発現制御解析

Ryu Okada (Grad of Nanobiosci, Yokohama City Univ.)

P-057:
(OP15-07)

9:42-9:54 
Neural Crest-Derived Cells sustain the multipotency even after intrusion into the tissues.
組織内に存在する神経堤由来細胞の多分化能の解析

Tsutomu Motohashi (RAMS, Gifu Univ)

P-059:
(OP15-08)

9:54-10:25 
Possible roles of regulatory T cells on the hair cycle regulation of pelage hair follicles in mice
マウス体毛毛包の毛周期調節における制御性T細胞の機能について

Takashi Matsuzaki (Fac. Life & Environ. Sci., Shimane Univ.)

P-060:
(FT4-09)

18:17-18:21 
Clinical study on stem cells transplantation for treating diabetic foots through improving blood supply
Kun Lu (Tongji University School of Medicine)

P-061:
(OP02-02)

8:42-8:54 
Null mutation of Nolz-1/Zfp503 in mesenchymal cells acts non-cell autonomously to influence differentiation of epithelial cells in developing mouse lung
Shih-Yun Chen (INS, National Yang-Ming Univ.)

P-062:
(FT2-08)

16:53-16:57 
Oct60 is involved in the PGC formation as a germplasm component.
Oct60は生殖細胞質の構成因子であり、始原生殖細胞形成に関与する。

Keisuke Morichika (Dept. Life.Sci., Sch. Sci. Rikkyo Univ.)

P-063:
(OP02-03)

8:54-9:06 
Sequential expression of Lgr5 and Col22a1 in developing synovial joints mark the progressive differentiation of progenitor cells to articular chondrocytes
Danny Chan (HKU)

P-064:
(FT2-09)

16:57-17:01 
Combinatorial expression of defined transcription factors induces ectopic neurons in C. elegans larvae
C. elegans幼虫における複数転写因子の異所発現による異所的な神経細胞の形成

Masaki Shimojou (Div. of biol. sci., Grad. Sch. of Sci., Nagoya Univ.)

P-065:
(OP02-04)

9:06-9:18 
Functional analysis of EDNRB2 in the melanocyte development and differentiation using EDNRB2-mutated chickens
突然変異鶏を用いたメラノサイトの発生と分化におけるエンドセリン受容体B2の機能解析

Toyoko Akiyama (Dept. Biol., Keio Univ.)

P-066:
(FT2-10)

17:01-17:05 
The phosphoinositide kinase is necessary for polarity determination of epithelial stem cells in C. elegans
イノシトールリン脂質合成酵素はC. elegansの表皮系幹細胞の極性決定に必要である

Naoki Yoshida (SOKENDAI, Multicellular Organization Lab., NIG)

P-067:
(OP02-05)

9:18-9:30 
Sox5 is involved in fate specification of pigment cells in medaka
メダカ色素細胞分化におけるSox5の役割

Yusuke Nagao (Grad. Sch. Sci., Nagoya Univ.)

P-068:
(FT2-11)

17:05-17:09 
PCP component VANG-1 functions in asymmetric divisions of C. elegans seam cell.
線虫表皮幹細胞の非対称分裂におけるVANG-1の役割

Masako Yokoo (Multicellular Organization Lab. NIG)

P-069:
(OP02-07)

9:42-9:54 
TGF-β・ signals regulate the dorsoventral patterning of neurogenic ectoderm of the sea urchin embryo.
TGF-β・シグナルによるウニ胚神経外胚葉の背腹軸方向のパターニング

Shunsuke Yaguchi (SMRC, Univ. Tsukuba)

P-070:
(FT2-12)

17:09-17:13 
Investigation of role of a novel pancreatic beta cell gene
β細胞特異的に発現する新規遺伝子の解析

Hisayoshi Omori (IMEG,Kumamoto Univ)

P-071:
(OP02-08)

9:54-10:25 
Identification of novel maternal neurogenic genes that are potential components of Notch signaling in Drosophila
ショウジョウバエを用いたNotch情報伝達系における新規構成因子の探索

Takuma Gushiken (Osaka University, Dept of Biol. / Tec., Tokyo Univ of Sci.)

P-072:
(FT2-13)

17:13-17:17 
Identification of novel genes involved with mesoderm formation by the analysis of nanog-responsive genes in Xenopus
アフリカツメガエルにおけるNanog応答性遺伝子の解析による、中胚葉形成に関与する新規遺伝子の同定

Kentaro Ishii (Graduate School of Arts and Sciences, the University of Tokyo)

P-073:
(OP04-01)

10:25-10:37 
Roles of the zinc finger protein Zbtb11 and phosphorylation modification in the regulation of Otx2 activity in early Xenopus eye development
Xenopusの眼の初期形成に関わるOtx2のリン酸化修飾と活性調節におけるZnフィンガー蛋白質Zbtb11の役割

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

P-074:
(FT2-14)

17:17-17:21 
LGR4 is required for development and maintenance of mammary gland
LGR4は乳腺組織の発達と維持に必要である

Kazunori Oyama (Lab. Mol. Biol., Grad. Sch. of Agr. Sci., Univ. of Tohoku)

P-075:
(OP04-03)

10:49-11:01 
Novel transgenic tool to live monitor the morphology and behavior of Neurogenin2-expressing cells in the developing mammalian brain
Takumi Kawaue (Cell Biology, Nagoya University, Graduate School of Medicine)

P-076:
(FT2-15)

17:21-17:25 
MECHANICAL STRESS INDUCES MUSCLE CELL DIFFERENTIATION AND ADAPTS LIPID METABOLISM TO ENERGY DEMAND
メカニカルストレスは細胞内の代謝変化を誘導し細胞分化を制御する

Kota Miyasaka (IDAC)

P-077:
(OP04-04)

11:01-11:13 
Investigating the roles of developmentally coordinated change of energy metabolism during mouse neural tube closure
マウス神経管閉鎖期に生じるエネルギー代謝状態変化の意義の解明

Hidenobu Miyazawa (Dept. Genetics, Grad. Sch. Pharm. Sci., Univ. Tokyo)

P-078:
(FT2-16)

17:25-17:29 
Transcription factor Blimp-1 controls the fat body remodeling in Drosophila
Abdelrahman Sultan (Okayama Univ.)

P-079:
(OP04-05)

11:13-11:25 
Downregulation of Etv2 promotes endothelial to hematopoietic fate transition
Makoto Kobayashi (Univ. Tsukuba, Fac. Med.)

P-080:
(OP04-06)

11:25-11:37 
Regulation of red blood cell transition from larval to adult type during anuran metamorphosis
無尾類変態期における赤血球転換機構の解析

Masahiro Yamaguchi (Dept. Chem. Biochem., Suzuka Natl. Coll. Tech., Dept. Life Sci., Coll. Sci., Rikkyo Univ.)

P-081:
(FT2-05)

16:41-16:45 
Extracellular syntaxin4 triggers the differentiation program in teratocarcinoma F9 cells with impacts on cell adhesion properties.
テラトカルシノーマF9細胞における細胞外シンタキシン4の細胞接着と分化への影響

Natsumi Hagiwara (Dep. Bioscience, Grad. Sch. Sci. Technol., Kwansei Gakuin Univ.)

P-082:
(OP02-01)

8:30-8:42 
IRSp53 family of I-BAR domain proteins regulates microvillus morphogenesis by sculpting the apical plasma membrane.
IRSp53ファミリータンパク質はI-BARドメインの膜変形活性により微絨毛の形態形成を制御する

Shusaku Kurisu (ICMS, Kobe Univ. Grad. Schl. of Med.)

P-083:
(FT2-06)

16:45-16:49 
Spatial distribution of Wnt protein in the mouse neural tube
マウス神経管発生におけるWntタンパク質の空間分布の解析

Takuma Shinozuka (Dept. Basic Biology, SOKENDAI, Okazaki Institute for Integrative Biosciences, National Institutes of Natural Sciences)

P-084:
(OP02-06)

9:30-9:42 
In vivo collective migration requires N-Cadherin endocytosis controlled by LPA/Edg4 signalling.
生体内集団的細胞遊走にはLPA/Edg4シグナルによって制御されるN-cadherinのエンドサイトーシスが必要である

Sei Kuriyama (Akita University, UCL, Cell and Developmental Biology Department, UK)

P-085:
(OP04-02)

10:37-10:49 
Genetic labeling and ablation of mouse Shh-expressing cells during cortical neurogenesis at late gestation
マウス胎生後期の大脳皮質内での神経発生におけるソニックヘッジホッグ発現細胞の遺伝的検出及び除去

Jun Motoyama (Brain Science, Doshisha Univ.)

P-086:
(FT2-07)

16:49-16:53 
Optimal cellular mobility for synchronization arising from the gradual recovery of intercellular interactions
遺伝子発現の同期を達成するための最適な細胞移動率

Koichiro Uriu (Theoretical Biology Laboratory, RIKEN ASI, Japan)

P-087:
(OP04-07)

11:37-13:25 
Role of Integrin β1 in endothelial cells
血管内皮細胞におけるIntegrin β1の機能解析

Kenichi Kanai (RIKEN, CDB, MPI, Münster)

P-088:
(FT2-01)

16:25-16:29 
The subcellular localization of cyclin B2 is required for bipolar spindle formation in meiosis I during Xenopus oocyte maturation
サイクリンB2の細胞内局在はアフリカツメガエル卵成熟過程の二極性紡錘体形成に必要である

Satoshi Yoshitome (Fac. Pharm., Iwaki Meisei Univ.)

P-089:
(OP18-04)

11:01-11:13 
Stress response to DNA damage
and control of apoptosis in germinal stem cell
生殖幹細胞におけるDNA損傷応答とアポトーシスについて

Natsuko Iyoda (Mukogawa Women's Univ Human Env Sci)

P-090:
(FT4-14)

18:37-18:41 
Differentiation and cell death in the Xenopus ectodermal cell mass treated with bFGF protein
bFGFタンパクで処理したXenopus外胚葉細胞における分化と細胞死

Hirotaka Kato (Chemistry and BioScience, Graduate School of Science and Engineering, Kagoshima University)

P-091:
(OP18-05)

11:13-11:25 
Syntaxin18 cis-SNARE complex is a novel alarm factor that detects vesicular transport defects
Syntaxin18複合体は小胞輸送の異常を監視する役割を果たす

Yuko Nishiwaki (OIST)

P-092:
(FT4-15)

18:41-18:45 
Klf8 Is Essential for the Survival of Purkinje and Eurydendroid Cells in the Cerebellum of Zebrafish
Ming-Yuan Tsai (GILS, NDMC, Taiwan)

P-093:
(OP18-06)

11:25-11:37 
Characterization of Integrins function in specific cells for cell-corpses engulfment in Caenorhabditis elegans
TSUNG-YUAN Hsu (IMCB, Taiwan Univ)

P-094:
(FT4-16)

18:45-18:49 
Wallenda regulates JNK-mediated cell death and migration in Drosophila
Xianjue Ma (SLST, Tongji Univ.)

P-095:
(OP18-07)

11:37-11:49 
Protogenin Prevents Premature Apoptosis of Rostral Cephalic Neural Crest
Cells by Activating the α5β1 Integrin

Yu-Chiuan Wang (Institute of Neuroscience, NYMU)

P-096:
(OP08-01)
 
Cancelled
()

P-097:
(FT2-02)

16:29-16:33 
The acto-myosin system and TGF-β signaling were involved in the cell sorting process in Xenopus laevis embryonic cells
アクトミオシン系とTGF-βシグナリングは,アフリカツメガエル胚の胚細胞における細胞選別過程に関与する

Ayano Harata (Dep. Bio. Sci. Fac. Life and Environ. Sci., Shimane Uni.)

P-098:
(OP08-02)

8:42-8:54 
Molecular basis of stripe pattern formation in zebrafish
ゼブラフィッシュの体表模様形成機構

Masakatsu Watanabe (FBS, Osaka Univ.)

P-099:
(OP08-03)

8:54-9:06 
Mib1 regulates cell migration via ubiquitination of p120ctn
Takamasa Mizoguchi (Grad. Sch. of Pharm. Sci., Chiba Univ., Fac. of Pharm. Sci., Chiba Univ.)

P-100:
(FT2-03)

16:33-16:37 
The involvement of ubiquitin carboxy-terminal hydrolase 37 (UCH37) in
Wnt/b-catenin signaling pathway during xenopus development

Wonhee Han (Department of Life Science, POSTECH, Republic of Korea)

P-101:
(OP08-04)

9:06-9:18 
Identification of genetic modifiers that interact with pecanex, encoding a component of Notch signaling in Drosophila
Notch情報伝達系の構成遺伝子pecanexと遺伝的相互作用を示す遺伝子の網羅的探索

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

P-102:
(OP08-05)

9:18-9:30 
IKKε antagonizes PKC-dependent inhibitory phosphorylation of Singed/Fascin to promote paracrystalline actin bundle assembly
IKKεはアクチン束化タンパク質Singed/FascinをPKCによる抑制的リン酸化から保護することによって結晶状のアクチン束形成を促進する

Tetsuhisa Otani (RIKEN CDB, Lab for Morphogenetic Signaling)

P-103:
(FT2-04)
 
Cancelled
()

P-104:
(OP08-06)

9:30-9:42 
Expression profile of ORC and MCM complex in the anterior and posterior to Morphogenic furrow of Drosophila eye disc.
ショウジョウバエ複眼原基の分化決定した細胞群と未分化細胞群におけるMCM, ORCの発現パターン

Hidetsugu Kohzaki (Dept. Cell Biol., IVR, Kyoto Univ.)

P-105:
(OP08-07)

9:42-9:54 
Nuclear Body Paraspeckles Are Essential for the Formation of Functional Corpus Luteum
核内構造体パラスペックルは機能的な黄体形成に必須である

Shinichi Nakagawa (RNA Biol Lab, RIKEN)

P-106:
(OP08-08)

9:54-13:25 
Cell polarity suppresses Hippo signaling through the regulation of Angiomotin distribution in preimplantation mouse embryos
細胞極性のAngiomotin分布制御によるマウス着床前胚Hippo経路の制御機構

Yoshikazu Hirate (IMEG, Kumamoto Univ.)

P-107:
(OP05-01)

13:25-13:37 
Expression timing of Gdf11 reveals positional diversity of the hindlimb in tetrapods
Gdf11発現開始タイミングの種間の違いが四肢動物における後肢の位置の多様性を生み出す

Yoshiyuki Matsubara (Div of Biol Sci, Grad Sch of Sci, Nagoya Univ.)

P-108:
(FT6-01)

15:10-15:14 
Innovative photomicroscopy and inhibitor approaches to understanding the mechanisms of building up the spiculous skeleton of the freshwater sponge
カイメンの体を成長させる骨片骨格はどの様に組み上げられるのかー骨片を立ち上げる機構の解析―

Kotoe Kawai (Dept.of Biophysics, Graduate school of Science, Kyoto Univ.)

P-109:
(OP05-02)

13:37-13:49 
Transcriptional regulation mechanisms of mesenchymal Fibroblast growth factor 10 expression in response to the AER signaling
AER由来シグナルによる肢芽間充織Fgf10の転写制御機構

YO-ICHI YAMAMOTO-SHIRAISHI (Div.of Biol.Sci., Grad.Sch.of Sci., Nagoya Univ.)

P-110:
(FT6-02)

15:14-15:18 
Positive feedback mechanism in the simultaneous cell differentiation in Dictyostelium discoideum
Positive feedback を介した細胞性粘菌における同調的な細胞分化機構

Toru Uchikawa (Grad. Sch. of Sci., Osaka Univ.)

P-111:
(OP05-03)

13:49-14:01 
Hox and Wnt signaling cooperatively control Fgf10 expression in the limb field
HoxWnt シグナルは予定肢芽領域におけるFgf10発現を協調的に制御する

Atsushi Kuroiwa (Div.of Biol.Sci., Grad.Sch.of Sci., Nagoya Univ.)

P-112:
(FT6-03)

15:18-15:22 
Efficient EGL-17/FGF secretion by epidermal cells in C. elegans requires components of the synaptic vesicle recycling machinery
C. elegans 表皮細胞における効率的なEGL-17/FGFに分泌にはシナプス小胞リサイクリング機構で機能する因子を必要とする

Hiroki Tanaka (Div. of Bio. Sci., Grad. Sch. of Sci., Nagoya Univ.)

P-113:
(OP05-04)

14:01-14:13 
Coordination between tubular elongation and cell epithelialization is regulated by FGFs emanating from surrounding tissues
管組織の伸長と細胞上皮化のコーディネーションは周囲組織からのFGFシグナルによって制御される

Yuji Atsuta (Grad. Sch. of Sci., Kyoto Univ., NAIST, Biol. Sci.)

P-114:
(FT6-04)

15:22-15:26 
Analysis of Heparan Sulfate function during C. elegans anchor cell invasion
C. elegansのアンカー細胞浸潤時におけるヘパラン硫酸の機能解析

Shinji Ihara (Multicellular Lab, NIG.)

P-115:
(OP05-05)

14:13-14:25 
Oriented cell division for the formation of the body midline
生体の正中線づくりにおける細胞分裂の方向付け

Tadayoshi Watanabe (CVRI, UCSF, Zoology, Kyoto Univ.)

P-116:
(FT6-05)

15:26-15:30 
Single-minded regulates specification of ventral cell fates in Daphnia magna
オオミジンコ single-minded ホモログは腹部特異化を制御している

Shinichi Morita (LEMB at TUPS)

P-117:
(OP05-06)

14:25-14:37 
Metabolic dynamics and function during somitogenesis
体節形成過程における代謝経路の役割

Masayuki Oginuma (IGBMC)

P-118:
(FT6-06)

15:30-15:34 
Gene expression of twinning formation in Xenopus laevis embryo-#2
アフリカツメガエル2次胚形成における遺伝子発現ーその2

Eiji Sato (Dept.of Biochem., Hamamatsu Univ.Sch.of Med.)

P-119:
(OP05-07)

14:37-14:49 
Lfng regulates the synchronized oscillation of the mouse segmentation clock via trans-repression of Notch signalling
Lfngは周囲の細胞のNotchシグナルをトランスに抑制することでマウス体節時計の同調機構を制御する。

Yusuke Okubo (NIHS)

P-120:
(FT6-07)

15:34-15:38 
Differential expression patterns of two types of medaka periostin during development and adulthood
発生期と成体における2種類のメダカペリオスチンの発現解析

Kohei Ito (Dept.Biol.Info., Tokyo Inst. Tech.)

P-121:
(OP05-08)

14:49-15:01 
Understanding the Role of Wnt5a in the Morphogenesis of the Vertebrate Body Plan
マウス初期胚形態形成におけるWnt5aの役割

Rieko Ajima (NIG, NCI-Frederick, NIH, Grad. School of Frontier Biosciences, Osaka Univ.)

P-122:
(FT6-08)

15:38-15:42 
A transmembrane metalloprotease ADAM10a regulates behaviors of primitive erythroblasts and vascular formation in zebrafish development.
ゼブラフィッシュの発生において膜型メタロプロテアーゼADAM10aは赤芽球の移動および脈管形成に関与する

Atsuo Iida (Ins. for Front. Med. Sci., Kyoto University)

P-123:
(OP07-01)

8:30-8:42 
Hox gene overexpression in cranial neural crest cells is sufficient for first-to-second pharyngeal arch transformation and reveals a possible Hox/Dlx crosstalk
Hox遺伝子の過剰発現により、頭頚部神経堤細胞限定的なHox遺伝子の発現が鰓弓の領域化に十分条件であること、Hox遺伝子とDlx遺伝子の相互作用の可能性があることが明らかになった

Taro Kitazawa (Dept. Physiol. Chem. & Metab., Grad. Sc. of Med., Univ. of Tokyo)

P-124:
(FT6-09)

15:42-15:46 
Irxl1 is regulated by Mef2ca in pharyngeal arch morphogenesis of zebrafish
Han-Ni Chuang (Department of life Science, Institute of Molecular Biology, NCCU, Department of Biomedical Sciences, CSMU)

P-125:
(OP07-02)

8:42-8:54 
Seven-pass transmembrane cadherin Celsr1 regulates cell polarity and three-dimensional morphogenesis in the mouse oviduct epithelium.
7回膜貫通型カドヘリンCelsr1はマウス卵管において上皮細胞の極性と3次元形態の形成を制御する。

Dongbo Shi (NIBB, Kyoto Univ.)

P-126:
(FT6-10)

15:46-15:50 
Low temperature mitigates cardia bifida in zebrafish embryos
Che-Yi Lin (IBB, NTOU, Taiwan)

P-127:
(OP07-03)

8:54-9:06 
Dysregulation of Aqp3 and endolymphatic hydrops in a mouse model of campomelic dysplasia
Kathryn.S.E. Cheah (Department of Biochemistry, The University of Hong Kong)

P-128:
(FT6-11)
 
Cancelled
()

P-129:
(OP07-04)

9:06-9:18 
How are the spicule hold-up points regulated? –Observed spicule hold-up process suggests the involvement of the shape of the body space in regulation of where spicules are held up
骨片を立てる位置はどの様に決まるのか? 「骨片の一端を持ち上げ立ちあげる過程」から見えてきた体内空間の関与

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

P-130:
(FT6-12)

15:54-15:58 
Quantification of mechanical force driving the left-handed twisting of the gut epithelial tube in Drosophila
ショウジョウバエにおける消化管上皮の反時計回りの捻転を引き起こす機械的な力の定量化

Mai Adachi (Dept. of Biol. Sci., Osaka Univ)

P-131:
(OP07-05)

9:18-9:30 
CXCR7 signaling modulates cell-cell adhesion in Xenopus mesendoderm cells
ツメガエルCXCR7情報伝達経路は細胞間接着を制御する

Akimasa Fukui (Transd. Life Sci., Grad. Sch. Life Sci., Hokkaido Univ.)

P-132:
(FT6-13)

15:58-16:02 
Formation of fin-specific structures (fin-ray) in zebrafish development
ゼブラフィッシュの発生における鰭条構造の形成機構

Tohru Yano (Dept. Dev. Biol. and Neurosci., Grad. Sch. Sci., Tohoku Univ.)

P-133:
(OP07-06)

9:30-9:42 
Regulation of paraxial protocadherin (PAPC) by a phosphorylation-dependent ubiquitin system is required for Xenopus early development
リン酸化依存的なユビキチン化による paraxial protocadherin(PAPC)の調節はアフリカツメガエルの初期発生に必須である

Masatake Kai (Grad. Sch. of Med., Osaka City Univ., NIBB)

P-134:
(FT6-14)

16:02-16:06 
Cux2 refines the position of limbs along the rostral-caudal axis during chick development
Shogo Ueda (Tokyo Tech.)

P-135:
(OP07-07)

9:42-9:54 
Planar Cell Polarity directs Septin-mediated compartmentalization of cortical actomyosin
Asako Shindo (HHMI and UT Austin)

P-136:
(FT6-15)

16:06-16:10 
Analysis of the function of Fgf10 chromosomal enhancers that control limb specific expression
Fgf10の発現を肢芽特異的に制御するエンハンサーの機能解析

Chisa Ando (Div. of Biol. Sci., Grad. Sch. of Sci., Nagoya Univ.)

P-137:
(OP07-08)

9:54-8:30 
March2 inhibits the Wnt signaling pathways by promoting Dishevelled degradation during Xenopus development
Hyeyoon Lee (Department of Life Science, POSTECH, Republic of Korea)

P-138:
(FT6-16)

16:10-16:14 
Transcriptome analyses of flounder metamorphosis left-right asymmetric differentiation
ヒラメ変態の左右非対称化プロセスのトランスクリプトーム解析

Hayato Yokoi (Grad Schl Agricul Sci, Tohoku Univ)

P-139:
(OP10-01)

10:25-10:37 
Involvement of microtubule-dependent transport of Wnt signaling components in zebrafish dorsal determination
セブラフィッシュ背側決定におけるWntシグナルコンポーネントの微小管依存性輸送の関係

Hiromu Hino (DBS,Nagoya univ., BBC,Nagoya univ)

P-140:
(FT6-17)

16:14-16:18 
Reduced cell number in the hindgut epithelium disrupts hindgut left-right asymmetry in a mutant of pebble, encoding a RhoGEF, in Drosophila embryos
RhoGEFをコードするpebbleの突然変異体におけるショウジョウバエ胚後腸上皮の細胞数の減少が後腸の左右非対称性を乱す

Mitsutoshi Nakamura (Dept of Biol. Sci, Osaka Univ)

P-141:
(OP10-02)

10:37-10:49 
Locomotive activity of Xenopus primordial germ cell is regulated by extracellular signals involving SDF-1.
ゼノパス始原生殖細胞の移動能はSDF-1を含む細胞外シグナルにより制御される

Makoto Mochii (Grad. Sch. Life Sci., Univ. Hyogo)

P-142:
(OP10-03)

10:49-11:01 
Multiple origins of myeloid cells in Xenopus embryo
ゼノパス胚には3つの骨髄球の起源がある

Mitsugu Maeno (Grad. Sch. Sci. Tech., Niigata Univ.)

P-143:
(FT6-19)

16:22-16:26 
Wnt signaling regulates the left-right axis formation in the node of mouse embryos
マウス左右軸形成におけるWntシグナルの役割

Keiko Kitajima (Kyushu Univ.)

P-144:
(OP10-04)

11:01-11:13 
Spatio-temporal activation of ERK1/2 through VEGFRs regulates establishment and formation of segmental artery in zebrafish
VEGFRを介した時間的空間的ERKの活性化はゼブラフィッシュにおける体節間動脈の確立と形成維持に重要な働きを示す

Masahiro Shin (UMASSMED)

P-145:
(FT6-20)

16:26-16:30 
Temporal observation of the influence of the Fgf signal about somite formation
体節形成におけるFgfシグナルの影響の経時的な観察

Kenji Maekubo (Grad. Sch. of Sci. and Tech., Kwanseigakuin Univ.)

P-146:
(OP10-05)

11:13-11:25 
Klf8 is required for cardiac Left-Right patterning through regulation of spaw expression in zebrafish embryos
Sheng-Ping Hwang (ICOB, Academia Sinica, Taipei, Taiwan, Institute of Bioscience and Biotechnology, National Taiwan Ocean University, Keelung, Taiwan)

P-147:
(FT6-21)

16:30-16:34 
Ripply2-dependent negative regulation of Tbx6 is required for somitogenesis
Wei Zhao (NIG, Graduated School of Science, university of Tokyo)

P-148:
(OP10-06)

11:25-11:37 
Analysis of mutant stöpseldt128d(stp) indicating the vertebral form abnormality
椎骨の形態異常を示す変異体stöpseldtl28d(stp)の解析

Akihiro Misu (Kondo S lab. FBS Osaka uni)

P-149:
(FT6-22)

16:34-16:38 
Formation of the digestive tract in Ciona intestinalis includes two distinct morphogenic processes between its anterior and posterior parts
カタユウレイボヤにおける消化管形成:前方と後方で異なる管のでき方と細胞の由来

Keiichi Nakazawa (Dept. Biol. Sci., Tokyo Metro Univ.)

P-150:
(OP10-07)

11:37-10:25 
Cadherin-mediated physical barrier regulates cell geometry in zebrafish lens epithelium
ゼブラフィッシュ水晶体上皮細胞においてカドヘリンの細胞接着による細胞領域間の堅さの違いが細胞形態、方向性を制御する

Toshiaki Mochizuki (OIST)

P-151:
(FT6-23)

16:38-16:42 
Exploring the role of atypical cadherins in collective cell migration
集団的細胞移動における非典型的カドヘリンの機能解析

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

P-152:
(OP13-01)

8:30-8:42 
The H3K27 demethylase, Jmjd3, regulates pax6 expression for eye development
ヒストン脱メチル化因子Jmjd3は、眼の発生においてPax6の発現を制御する

Akane Kawaguchi (NAIST)

P-153:
(FT6-24)

16:42-16:46 
Knockdown of ouro genes represses tadpole tail regression during Xenopus metamorphosis
オウロ遺伝子のノックダウンは変態期のツメガエル幼生の尾部退縮を抑制する

Erisa Maruyama (Dept. Biol., Faulty of Sci., Niigata Univ., Japan)

P-154:
(OP13-02)

8:42-8:54 
GON-1/ADAMTS and fibulin-1 act through collagen IV to control C.elegans organogenesis
GON-1/ADAMTS と fibulin-1はIV型コラーゲンを通じて線虫の器官形成を制御する

Tomomi Takano (Dep. of Bisci. Sch. of Sci. and Tech., Kwansei Gakuin Univ.)

P-155:
(FT3-09)

18:17-18:21 
BMP/ Smad Signaling in Mouse Sternum Development
BMP / Smadでマウス胸骨開発におけるシグナリング

Ka Kui Tong (SLS, CUHK)

P-156:
(OP13-03)

8:54-9:06 
Nuclear membrane proteins act in transport of the Netrin receptor, UNC-5 in cell migration in C. elegans.
細胞移動における核膜タンパク質の新たな役割

Hon-Song Kim (Dep. of Biosci. Kwansei-Gakuin Univ.)

P-157:
(FT3-10)
 
Cancelled
()

P-158:
(OP13-04)

9:06-9:18 
The origin of stem and progenitor cells in the
zebrafish lateral line primordium.
ゼブラフィッシュ側線における幹細胞と前駆細胞の発生上の起源

Masataka Nikaido (Stowers Inst.)

P-159:
(FT3-11)

18:25-18:29 
Fibronectin mediates correct positioning of the interrenal organ in zebrafish
Chih-Wei Chou (Department of Life Science, Tunghai Univ., Taiwan)

P-160:
(OP13-05)

9:18-9:30 
Collective unidirectional motion of epithelial cells supported by planar cell dynamics during Drosophila organogenesis (part I): Experimental approach
ショウジョウバエ雄性生殖器の形態形成に見られる上皮細胞の集団的一方向性運動(part I): 実験からのアプローチ

Erina Kuranaga (Lab. Histogenetic Dynamics, RIKEN CDB)

P-161:
(FT6-18)

16:18-16:22 
The role of cell-ECM interactions in collective cellular movement during the looping morphogenesis of Drosophila male terminalia
細胞-ECM相互作用がショウジョウバエ雄性生殖器の形態形成に与える影響

Emi Maekawa (Lab. Histogenetic Dynamics, RIKEN CDB)

P-162:
(OP13-06)

9:30-9:42 
Collective unidirectional motion of epithelial cells induced by planar cell dynamics
during Drosophila organogenesis (part II): Theoretical approach
ショウジョウバエ雄性生殖器の形態形成に見られる上皮細胞の集団的一方向性運動(part II): 理
論からのアプローチ

Katsuhiko Sato (Lab. Physical biology, RIKEN CDB)

P-163:
(FT3-13)

18:33-18:37 
Expression of Eph/ephrin family genes in smooth muscle of the embryonic chick digestive organs
ニワトリ胚期消化器官平滑筋組織におけるEph/ephrin遺伝子の発現

Yasuo Ishii (Fac. Life Sci., Kyoto Sangyo Univ.)

P-164:
(OP13-07)

9:42-9:54 
Mathematical analysis of vascular and spot patterns by auxin and PIN dynamics in plant development
オーキシン-PINダイナミクスによる葉脈とスポットパターン形成の数理モデル

Yoshinori Hayakawa (Dept Comput. Intelligence & Sys. Science, Tokyo Institute of Technology, Theoretical Biology Laboratory, RIKEN)

P-165:
(FT3-14)

18:37-18:41 
Cadherin-7 enhances sonic hedgehog signaling by inhibiting the movement of full-length Gli3 to the primary cilium
カドヘリン−7は転写因子Gli3の移動制限によりソニックヘッジホッグシグナルを調節する。

Rie Kawano (Dev. Neurobio. Kumamoto University)

P-166:
(OP13-08)

9:54-8:30 
Analysis of pattern formation in multicellular cyanobacteria by Cellular Automaton model
セルオートマトンモデルによる多細胞性シアノバクテリアの形態形成現象の解析

JUN-ICHI Ishihara (Dept. of Electr. Engin. and Biosci., Waseda Univ., Theoretical Biology Lab., RIKEN)

P-167:
(FT3-15)

18:41-18:45 
Study of secondary neurulation: stem cell-like behavior of neural tube precursors implicated by transplantation of EGFP-labeled tail bud
Secondary Neurulation研究: EGFP標識tail budの移植から浮かび上がった神経管前駆細胞の幹細胞様の挙動

Teruaki Kawachi (Department of Zoology, Kyoto University.)

P-168:
(OP16-01)

10:25-10:37 
Regulation of Wnt and BMP signaling pathways in the regional specification of early blastoderm in the cricket Gryllus bimaculatus
Taro Nakamura (Dept of Life Systems, Institute of Tech. and Sci., The University of Tokushima)

P-169:
(FT3-16)

18:45-18:49 
Long-distance cell migrations during larval development in an appendicularian, Oikopleura dioica.
ワカレオタマボヤ Oikopleura dioica 後期発生のライブイメージングによって見出された長距離移動を示す細胞群

Kanae Kishi (Dept. Biol. Sci., Osaka Univ.)

P-170:
(OP16-02)

10:37-10:49 
Mechanical coupling of apical membrane and luminal matrix shapes tracheal tube geometry in Drosophila
Bo Dong (CDB)

P-171:
(FT3-17)

18:49-18:53 
Role of motile cilia in development and function of renal tubes in fish
魚類の腎臓発生における運動性繊毛の役割

Atsuko Shimada (Dep. Biol. Sci., Grad. Sch. Sci., Univ. Tokyo)

P-172:
(OP16-03)

10:49-11:01 
Cell intercalation and cell junctional length fluctuation during airway tube elongation in Drosophila
elongation in Drosophila

ショウジョウバエ気管伸長における細胞境界の組みかえと細胞境界長のゆらぎの役割について

Shigeo Hayashi (RIKEN CDB)

P-173:
(FT3-18)

18:53-17:45 
A novel defined factor specifies cardiac-vascular cell fate and promotes heart regeneration
新規転写因子による心臓ー血管運命決定と心臓再生

Yuika Morita (Cardiovas. Reg, IMCB, the Univ. of Tokyo, Graduate School of Sciences, the Univ. of Tokyo)

P-174:
(OP16-04)

11:01-11:13 
The HOX gene Antp in the visceral mesoderm Drosophila regulates size balance between 1st and 2nd midgut chambers
ショウジョウバエの内臓中胚葉で発現するHOX遺伝子Antpは中腸第1/第2チェンバー間の大きさのバランスを制御する

Ryutaro Murakami (Grad. Sch. Med., Yamaguchi Univ.)

P-175:
(FT3-12)

18:29-18:33 
Cloning of FoxN1 and its expression in Xenopus laevis.
アフリカツメガエル転写因子FoxN1のクローニングと発現解析

Naoya Iimura (Grad. Sch. of Nanobiosciences, Yokohama City Univ.)

P-176:
(OP16-05)

11:13-11:25 
A secreted decoy of insulin-like receptor antagonizes insulin/IGF signaling to restrict body growth in Drosophila
ショウジョウバエ分泌型‘おとり’インスリン様受容体は、体の成長を抑制する

Naoki Okamoto (RIKEN, CDB)

P-177:
(OP16-06)

11:25-11:37 
Developmental evolution of the hypaxial muscles of vertebrates
脊椎動物の軸下筋発生機構の進化

Rie Kusakabe (Dept. Biol., Grad. Sch. Sci., Kobe Univ.)

P-178:
(FT5-01)

15:10-15:14 
Roles of microRNAs in medaka myogenesis
メダカ胚筋形成におけるmicroRNAの役割

Saori Tani (Dept. Biol., Grad. Sch. Sci., Kobe Univ.)

P-179:
(OP16-07)

11:37-10:25 
The investigation of post-transcriptional process to form adult skeletal muscle stem cells
骨格筋幹細胞の形成に関与する転写後調節機構探求

Takahiko Sato (IFMS, Kyoto Univ.)

P-180:
(OP01-01)

8:30-8:42 
Role of tubulin folding pathway in neurite morphogenesis of Drosophila olfactory projection neuron
神経突起形成におけるチューブリン折りたたみ経路の役割

Misako Okumura (Grad. Sch. Pharm. Sci., Univ. Tokyo)

P-181:
(FT3-01)

17:45-17:49 
Tag1-mediated early interaction between neural crest cells and motor axons in zebrafish.
神経冠細胞と運動神経軸索との相互作用におけるTag1の機能

Mika SATO-MAEDA (CIR, Tohoku Univ., Grad Sci, Tohoku Univ.)

P-182:
(OP01-02)

8:42-8:54 
Roles of Robo endocytic trafficking in acquisition of axonal responsiveness to the repellent Slit during midline crossing
正中線交叉における交連軸索のSlit応答性の不可逆性スイッチを支える分子基盤

Junichi Kawada (OIST)

P-183:
(OP01-03)

8:54-9:06 
Genetic analysis of the leucine-rich repeat molecule Capricious in synaptic-layer specificity in the Drosophila visual system
ショウジョウバエ視覚神経系におけるLRR膜タンパク質Capricious はシナプス層の特異性を決定していない

Takashi Suzuki (Dept. Biosci, & Biotech., Titech, Max Planck Institute of Neurobiology, Martinsreid, Germany)

P-184:
(FT3-02)

17:49-17:53 
Stochastic Ca2+ waves that propagate through the neuroepithelium in various distance of the brain and retina imaged with GCaMP3 in zebrafish embryos
ゼブラフィッシュ初期胚の神経上皮でみられる特徴的なCa2+濃度変化のイメージング

Shin-ichi Okamoto (Univ. of Hyogo)

P-185:
(OP01-04)

9:06-9:18 
Formation process of individual compartments in the cerebellum of mouse embryo
マウス小脳内における、個々の区画の形成過程

Mitsuhiro Hashimoto (Dep. of Cell Biol. Nagoya Univ.)

P-186:
(OP01-05)

9:18-9:30 
MRE32 RNA is essential for mushroom body morphogenesis in Drosophila adult brain
MRE32 RNAはショウジョウバエキノコ体の形態形成に必須である

Sachi Inagaki (Res Ctr Environmental Genomics, Kobe Univ)

P-187:
(FT3-03)

17:53-17:57 
Unveiling the role of Ephrin for dendrite targeting of Drosophila olfactory projection neurons
ショウジョウバエ嗅覚投射神経の樹状突起領域形成におけるエフリンの機能解析

Shirin Makihara (Genetics, Grad Sch Pharm Sci, Univ Tokyo)

P-188:
(OP01-06)

9:30-9:42 
Evidence for involvement of apoptosis in establishing proper cerebrospinal fluid hydrodynamics
脳脊髄液動態の確立におけるアポトーシスの関与

Yoshifumi Yamaguchi (Dept. Genet. Pharma. The Univ. of Tokyo, PREST, JST)

P-189:
(OP01-07)

9:42-9:54 
Molecular and cellular dissection of axonal pruning in Drosophila sensory neurons
ショウジョウバエ感覚ニューロンにおける軸索刈り込みメカニズムの探索

Rei Morikawa (Dept. Cell Biol., Osaka Biosci. Inst.)

P-190:
(OP01-08)

9:54-8:30 
Examination of developmental processes of the ferret cerebral cortex using in utero electroporation
子宮内電気穿孔法を用いたフェレット大脳皮質の形成過程解析

Hiroshi Kawasaki (Grad Sch of Med, Kanazawa Univ)

P-191:
(FT3-04)

17:57-18:01 
Development of cerebellar granule cell axons in zebrafish
ゼブラフィッシュにおける小脳顆粒細胞の軸索形成機構

Shingo Yamaguchi (Bioscience and Biotechnology Center, Nagoya Univ., Graduate School of Science, Nagoya Univ.)

P-192:
(OP03-01)

10:25-10:37 
Generation of the 3-Dimentional Multi-gene Expression Map for the Zebrafish Developing Habenular Nuclei
Yung-Shu Kuan (IBS, NTU, TW, IBC-AS, Taiwan, NCSC, NTU, Taiwan, NPAS-AS, Taiwan)

P-193:
(OP03-02)

10:37-10:49 
SeeDB: an aqueous optical clearing agent for imaging intact fluorescence and morphology in the mouse brain.
新奇透明化試薬SeeDBの開発とマウス脳の蛍光イメージング

Takeshi Imai (RIKEN CDB, Grad Sch of Biostudies, Kyoto Univ, PRESTO, JST)

P-194:
(OP03-03)

10:49-11:01 
Role of early intracortical activity in the maturation of neocortical circuits
初期神経活動による大脳皮質神経回路形成の制御

Torsten Bullmann (RIKEN CDB)

P-195:
(FT3-05)

18:01-18:05 
Dmbx1 can compensate the down-regulation of Otx2 activity
Dmbx1はOtx2活性の下方調節を補償できる

Isato Araki (Iwate Univ, Fac Eng, Dept Chem Bioeng)

P-196:
(OP03-04)

11:01-11:13 
How have human brains been evolved? :
comparative gene expression analysis among rodents, new world monkeys and old world monkeys
齧歯類、新世界ザル、旧世界ザル間の遺伝子発現比較からヒト脳へと至る大脳皮質進化の機構を探る試み

Eiji Matsunaga (Lab for Symbolic Cognitive Development, RIKEN BSI)

P-197:
(OP03-05)

11:13-11:25 
Functional analysis of RP58 transcriptional repressor in neuronal migration during corticogenesis
大脳皮質形成時の神経細胞移動におけるRP58転写抑制因子の機能解析

Chiaki OHTAKA-MARUYAMA (TMIMS)

P-198:
(OP03-06)

11:25-11:37 
Neural-specific elimination of Mab21l2 results in respiratory failure in mouse neonates
Chung Man Chan (LIFS, HKUST)

P-199:
(FT3-06)

18:05-18:09 
Cell death inducing mechanisms by maternal separation stress in the postnatal mouse hippocampus
隔離ストレスが仔マウスの海馬に細胞死を誘導するメカニズムの解析

Tatsuya Katahira (Laboratory of Developmental Neurobiology, Graduate School of Brain Science, Doshisha University)

P-200:
(OP03-07)

11:37-10:25 
Interkinetic nuclear migration through TAG-1-assisted progenitor elongation prevents neuroepithelial overcrowding and ensures neocortical histogenesis
Mayumi Okamoto (Dept Anat and Cell Biol, Nagoya Univ, Grad Sch of Med)

P-201:
(OP11-01)

10:25-10:37 
Basement membrane integrity is required for axogenesis of cerebellar granule cells.
小脳顆粒細胞の軸索伸長には正常な基底膜形成が必要である

Miki Takeuchi (Bioscience and Biotechnology Center, Nagoya Univ.)

P-202:
(FT3-07)

18:09-18:13 
Aromatic L-amino acid decarboxylase deficiency affects neuronal development in zebrafish
De-fen Shih (Institute of Zoology, Department of Life Science,NTU)

P-203:
(OP11-02)

10:37-10:49 
Highly efficient transplantation into the embryonic mouse cortex reveals the acquisition of apico-basal polarity by neural progenitors derived from pluripotent stem cells
胚性幹細胞から誘導された神経前駆細胞は胎生期脳の上皮極性に従い細胞突起を形成する

Yoichi Kosodo (Dept. Anatomy, Kawasaki Med.)

P-204:
(OP11-03)

10:49-11:01 
Sufu controls the number and cell fate of hindbrain progenitors
Hong Huan Hor (Dept of Biochemistry, LKS Faculty of Medicine, HKU)

P-205:
(FT3-08)

18:13-18:17 
HDAC6 mutations rescue human tau-induced microtubule defects in Drosophila
Kai Zhao (IGDB, CAS)

P-206:
(OP11-04)

11:01-11:13 
Nemo-like kinase blocks Hedgehog signaling by phosphorylating Gli1 transcription factor in neural progenitor cells and brain tumor.
神経前駆細胞及び脳腫瘍においてNemo-like kinaseは転写因子Gli1をリン酸化してヘッジホッグシグナルを抑制する

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

P-207:
(FT7-06)

15:30-15:34 
Lgr4 knockout mice show female hermaphroditism
雌Lgr4ノックアウトマウスは仮性半陰陽を示す

Masae Koizumi (Lab. Mol. Biol.,Grad. Sh. of univ. of Tohoku)

P-208:
(OP17-06)

11:25-11:37 
BMP Signaling Determines XX Germ Cell Fate independently of Retinoic Acid-induced Meiotic Initiation
Quan Wu (SOKENDAI)

P-209:
(FT7-07)

15:34-15:38 
Identification of a genetic cause of non-regenerative head tissues in the planarian Phagocata kawakatsui
コガタウズムシにおける頭部構造再生条件の探索

Yui Nishimura (Dept. of Biophysics Grad. School of Science, Kyoto Univ.)

P-210:
(FT7-08)

15:38-15:42 
In vivo model system to study the genetic program of tissue regeneration
組織再生の遺伝プログラム研究に向けた in vivo モデルシステムの確立

Soshiro Kashio (Genetics, Grad Sch Pharm Sci, Univ Tokyo)

P-211:
(OP14-01)

8:30-8:42 
Wnt activation in nail epithelium couples nail growth to digit regeneration
マウスにおいて爪表皮でのWntの活性化が爪の成長と指の再生に必要である

Makoto Takeo (Dermatology and Cell Biology, NYU)

P-212:
(FT7-09)

15:42-15:46 
JAK/STAT signaling promotes blastemal cell proliferation during leg regeneration in the cricket Gryllus bimaculatus
脚再生過程においてJAK/STATシグナルは再生芽細胞の増殖を制御する

Tetsuya Bando (Okayama Univ.)

P-213:
(FT7-10)

15:46-15:50 
Analysis of the source of ‘blastema survival factor’ and its downstream signaling during the zebrafish fin fold regeneration
ゼブラフィッシュの膜ヒレ再生時における再生芽生存因子の起源とその下流シグナルの解析

Tomoya Hasegawa (Tokyo tech)

P-214:
(OP14-02)

8:42-8:54 
Epidermal Wnt/beta-catenin signalling promotes dermal adipocyte differentiation during hair follicle morphogenesis and regeneration
表皮性のWnt/beta-cateninシグナルが毛包発生と再生時の皮下脂肪の分化を促進する

Hironobu Fujiwara (RIKEN CDB, Cancer Research UK Cambridge Resesarch Institute)

P-215:
(FT7-11)

15:50-15:54 
Imaging and characterization of mmp9-expressing cells during zebrafish fin regeneration using the Tol2 BAC transgenic
Tol2 BACトランスジェニックを用いた、ゼブラフィッシュのひれ再生におけるmmp9発現細胞の解析

Kazunori Ando (Tokyo Tech)

P-216:
(FT7-12)

15:54-15:58 
Critical role of fibronectin 1b during zebrafish fin regeneration
ゼブラフィッシュひれ再生におけるfibronectin 1bの機能解析

Eri Shibata (Tokyo tech)

P-217:
(OP14-03)

8:54-9:06 
Vascular regeneration in zebrafish caudal fin.
ゼブラフィッシュにおける血管再生機構

Yoshiko Kametani (OIIB, UCSF)

P-218:
(FT7-13)

15:58-16:02 
Transient reduction of 5-methylcytosine and 5-hydroxymethylcytosine is caused by active DNA demethylation during regeneration of zebrafish fin
ゼブラフィッシュの尾びれ再生過程では能動的DNA脱メチル化による
5-メチルシトシンと5-ヒドロキシメチルシトシンの一時的な減少が生じる

Kentaro Hirose (Dep. of Biol. Sci., Grad. Sch, of Sci., Hiroshima Univ.)

P-219:
(FT7-14)

16:02-16:06 
The analysis on pattern formation of the joint during newt limb regeneration
イモリの四肢再生における関節のパターン形成の解析

Rio Tsutsumi (Dept. of Biophys., Grad. Sch. of Sci, Kyoto Univ.)

P-220:
(OP14-04)

9:06-9:18 
Cyclooxygenase-2 signaling regulates osteoclast differentiation during fracture healing in medaka.
Cyclooxygenase-2シグナルがメダカの骨折修復における破骨細胞分化を制御する

Kazuhiro Takeyama (Dept. of Biological Information, TokyoTech, JSPS Reseach Fellow)

P-221:
(FT7-15)

16:06-16:10 
Comprehensive Analysis of Time-course of Gene Expression Pattern during Forelimb Regeneration in Newt Cynops pyrrhogaster
アカハライモリの前肢再生過程における遺伝子発現変化の網羅的解析

Shota Takemura (Dept. of Biophys., Grad. of Sci., Kyoto Univ.)

P-222:
(FT7-16)

16:10-16:14 
Hippo signaling is important for Xenopus limb regeneration
アフリカツメガエルの四肢再生におけるHippo系路の重要性

Shinichi Hayashi (Laboratory of Organ Morphogenesis, Tohoku University)

P-223:
(OP14-05)

9:18-9:30 
Different cellular contribution of somite-derived tissues to limb regeneration in larval and adult Xenopus
ツメガエルの四肢再生において体節由来組織は幼生期と成体期では異なる細胞寄与を示す

Hitoshi Yokoyama (Dept. of Dev. Biol., Grad. School of Life Sci., Tohoku Univ.)

P-224:
(FT7-17)

16:14-16:18 
A new regeneration study system in Xenopus laevis; Ectopic blastema induction by nerve deviation and skin wounding
アフリカツメガエル(Xenopus laevis)における新規再生研究系;神経遊走と皮膚損傷による異所再生芽の誘導

Kazumasa Mitogawa (RCIS,Okayama Univ)

P-225:
(FT7-18)

16:18-16:22 
Comparative study of limb regeneration between amphibians and mammals
両生類との比較から探るマウスの四肢再生能

Shinichirou Miura (Lab.of Biol., Aichi Gakuin Univ.)

P-226:
(OP14-06)

9:30-9:42 
The molecular logic for head regenerative and head non-regenerative ability among different planarian species
頭部再生能の異なるプラナリア種の分子基盤

Yoshihiko Umesono (RIKEN CDB, Kyoto Univ. Department of Biophysics)

P-227:
(FT7-19)

16:22-16:26 
Amphibian retinal regeneration is triggered by matrix metalloproteinases
両生類網膜再生初期過程を制御するmatrix metalloproteinasesの解析

Hanako Naito (Dev. Neurobiol. Lab., Dept. of Biol. Sci., Nara Women’s Univ.)

P-228:
(FT7-20)

16:26-16:30 
Rax and Pax6 expressions are related to the localization of cell adhesion molecules during retinal regeneration in Xenopus
成体ツメガエル網膜再生におけるRax・Pax6遺伝子の発現パターンと細胞接着分子の動態の解析

Yoko Ueda (Graduate school of humanities and science, NWU)

P-229:
(OP14-07)

9:42-9:54 
Transcriptome analysis to search for genes involved in anteriorization during regeneration of the planarian Dugesia japonica
トランスクリプトーム解析によるプラナリアの再生過程における前方化に関わる遺伝子の探索

Kazutaka Hosoda (Dept. of Biophys., Kyoto Univ.)

P-230:
(FT7-21)

16:30-16:34 
Studies on regeneration of the dopaminergic neuron in newts, Cynops pyrrhogaster
アカハライモリを用いたドーパミン神経細胞再生の解析

Yuko Urata (Dept. of Biophys. Grad. Sch. of Sci., Kyoto Univ.)

P-231:
(FT7-22)

16:34-16:38 
In vitro analysis of the neural stem cells in newt Cynops phyrrhogaster
アカハライモリ神経幹細胞のIn vitro解析

Wataru Yamashita (Dept. of Biophys. Grad. Sci., Kyoto Univ.)

P-232:
(OP14-08)

9:54-8:30 
Brain regeneration in Aeolosoma viride
Jiun-Hong Chen (DLF/IZ, NTU)

P-233:
(FT7-23)

16:38-16:42 
Lineage tracing analysis of cardiomyocytes in the newt cardiac regeneration by tamoxifen-inducible Cre loxP system.
タモキシフェン誘導型Cre loxPシステムを用いたイモリの心臓再生過程における細胞系譜の追跡。

Ayumi Myouga (Scl of Life Science, Tottori Univ.)

P-234:
(FT7-24)

16:42-16:46 
What Molecule Triggers Proliferation of Cardiomyocytes during Newt Heart Regeneration?
イモリ心臓再生過程において、心筋細胞の増殖を開始させるトリガーは何か?

Toshinori Hayashi (Scl. of Life Science, Tottori Univ.)

P-235:
(OP18-01)

10:25-10:37 
Finding of molecular triggers of axolotl limb regeneration.
ウーパールーパー四肢再生における再生惹起因子

Akira Satoh (RCIS, JST PRESTO)

P-236:
(FT2-17)

17:29-17:45 
Specific isolation of HCN4 positive cardiac pace-making cells derived from embryonic stem cells
ES細胞由来HCN4陽性心臓ペースメーカ細胞の分取と解析

Kumi Morikawa (Dept. of Regenerat. Med. & Therapeut., Grad. Sch. of Med. Sci., Tottori Univ.)

P-237:
(OP18-02)

10:37-10:49 
Wnt and Notch signals guide embryonic stem cell differentiation into the intestinal lineages
WntシグナルとNotchシグナルが腸上皮細胞への分化を導く

Soichiro Ogaki (Kumamoto Univ IMEG Dept. of Stem Cell Biol.)

P-238:
(FT4-10)

18:21-18:25 
Functional Analysis of Drosophila Histone Methyltransferase G9a
ショウジョウバエヒストンメチル基転移酵素G9aの機能解析

Kohei Shimaji (Kyoto Inst. of Tech. Univ.)

P-239:
(OP18-03)

10:49-11:01 
Antagonistic relationship between H3K27me3 and DNA methylation in the regulation of developmental genes
発生関連遺伝子の発現制御におけるDNAメチル化とH3K27me3のアンタゴニズム

Ryohei Nakamura (Dept. Bio. Sci., Grad. Sch. Sci., Univ. Tokyo)

P-240:
(FT4-11)

18:25-18:29 
The histone demethylase jmjd3 stimulates ectopic eye formation by increasing the access of pax6 protein to its target gene
ヒストン脱メチル化因子jmjd3はpax6が標的遺伝子にアクセスするのを助けて異所的な眼形成を促進する

Norihiro Sudou (NAIST)

P-241:
(FT4-12)

18:29-18:33 
The cis-regulatory evolution for developmental robustness and stress response
Haruki Ochi (Fac. of Med., Yamagata Univ.)

P-242:
(OP09-01)

13:25-13:37 
Screen for modifiers of transcriptional inheritance
転写のエピジェネティック継承の解析

Tetsuya Muramoto (RIKEN QBiC)

P-243:
(OP09-02)

13:37-13:49 
Accelerating the Tempo of the Segmentation Clock by Reducing the Number of Introns in the Hes7 Gene
Hes7遺伝子のイントロン削減による分節時計の加速化

Yukiko Harima (IVR, Kyoto Univ.)

P-244:
(FT1-06)

16:45-16:49 
Identification of a novel regulatory element for Shh expression in the mouse lung and gut
Shh遺伝子の肺と消化管の発現に関与する新規エンハンサーエレメントの同定

Takanori Amano (NIG)

P-245:
(OP09-03)

13:49-14:01 
armadillo and orthodenticle regulate the traveling of a wave of hedgehog expression in the early spider embryo
アルマジロとオルソデンティクルは初期クモ胚においてヘッジホッグ発現波の伝播を制御する

Hiroki Oda (JT BRH)

P-246:
(OP09-04)

14:01-14:13 
Hipk2 plays essential roles in the Wnt-mediated early developmental events by inducing Dishevelled dephosphorylation and stabilization.
タンパク質リン酸化酵素Hipk2は、Dishevelledタンパク質の脱リン酸化と安定化を誘
導することにより、Wnt分子が制御する初期発生イベントにおいて必須の役割を果たす.

Nobuyuki Shimizu (Div. of Cell Reg. Sys., Dep. of Immuno. and Neurosci., M.I.B., Kyushu Univ.)

P-247:
(FT1-07)

16:49-16:53 
Estrogen-related receptor beta is necessary to induce Cdx2 gene activation after repression of Oct3/4.
EsrrbはOct3/4発現減少に伴って生じるCdx2の発現上昇の制御に必要である。

Mariko Yamane (RIKEN CDB)

P-248:
(OP09-05)

14:13-14:25 
Nipbl and Med12 regulate limb-specific expression of genes cooperatively during vertebrate limb development
脊椎動物四肢発生期においてNipblとMed12は肢芽特異的な遺伝子発現を協同的に調節する

Akihiko Muto (Dept. Biol. Sci., Hiroshima, Univ., Dept. Dev. Cell Biol., UC Irvine, USA, CCBS, UC Irvine, USA)

P-249:
(OP09-06)

14:25-14:37 
Hypoxia reduces the toxicity of a metabolic inhibitor via activation of the HIF signalling pathway and reduction of chemical uptake
I Chen Hung (Biosciences, College of Life and Environmental Sciences, University of Exeter, Institute of Zoology, National Taiwan University)

P-250:
(FT1-08)

16:53-16:57 
Identification of novel zinc finger genes suppressing precocious specification of the brain fate in brain/palp precursor cells in the Ciona intestinalis embryo
カタユウレイボヤ胚の脳―付着突起前駆細胞において、適切な時間まで脳への分化プログラムの開始を抑制するジンクフィンガー遺伝子の同定と解析

Tatsuro Ikeda (Dept. of Zool., Grad. Sch. of Sci., Kyoto Univ.)

P-251:
(OP09-07)

14:37-14:49 
Cis-acting transcriptional repression establishes a sharp boundary in chordate embryos
Admp遺伝子はPinhead遺伝子によりタンパク質レベルおよび転写レベルで二重の抑制をうけ動物胚の腹側の領域を決定する

Kaoru Imai (Kyoto Univ.)

P-252:
(FT1-09)

16:57-17:01 
Defining the sequence for nuclear localization of C. elegans muscleblind proteins
Po-Hsuan Chen (DLS,NCC Univ.)

P-253:
(OP09-08)

14:49-10:25 
Four signaling pathways cooperatively specify neural fate in ascidian embryos.
ホヤ胚において4つのシグナル経路が協調して神経運命決定をする

Naoyuki Ohta (Kyoto University)

P-254:
(OP06-01)

13:25-13:37 
Experimental Evodevo of larval skeleton in Echinodermata
棘皮動物の幼生骨片の実験的進化発生学研究

Hiroyuki Koga (Univ. Tsukuba)

P-255:
(FT1-10)

17:01-17:05 
Hox gene cluster structure in the genome of Halocynthia roretzi.
マボヤのHox遺伝子のクラスター構造

Yuka Sekigami (TMU)

P-256:
(OP06-02)

13:37-13:49 
Regulation of Left-Right Asymmetry in Sea Urchins
Yi-Hsien Su (ICOB, Academia Sinica)

P-257:
(OP06-03)

13:49-14:01 
Nodal signalling determines biradial symmetry in the cnidarian Hydra
刺胞動物ヒドラの分岐形態はNodalシグナルにより制御される

Hiroshi Watanabe (COS, Univ. Heidelberg)

P-258:
(FT1-11)

17:05-17:09 
Anterior-Posterior Axis formation in Non-rodent Mammals
非齧歯類哺乳動物における前後軸形成機構の解析

Michio Yoshida (Body plan, CDB, RIKEN)

P-259:
(OP06-04)

14:01-14:13 
Possible evolutionary origin of cardiac function
心臓機能の進化的起源

Hiroshi Shimizu (NIG)

P-260:
(FT1-12)

17:09-17:13 
Molecular mechanisms regulating heterochronic development of marsupial cranial neural crest
有袋類における頭部神経堤発生の異時性の分子制御機構

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

P-261:
(OP06-05)

14:13-14:25 
Elastin gene subfunctionalization and formation of teleost-specific outflow tract, “bulbus arteriosus”, in fish evolution and development.
エラスチン遺伝子の機能分化と真骨魚類においてみられる動脈球(流出路)の発生と進化

Yuuta Moriyama (Cardiovascular Regeneration, IMCB, Univ. of Tokyo, Japan)

P-262:
(OP06-06)

14:25-14:37 
Expression of germline markers in three species of amphioxus supports a preformation mechanism of germ cell development in cephalochordates
Jr-Kai Yu (ICOB, Academia Sinica, Inst. Ocean., NTU)

P-263:
(FT1-13)

17:13-17:17 
Evolutionary divergence of an epithelial linings-specific Shh enhancer
上皮特異的なShh エンハンサーの進化的分岐

Tomoko Sagai (Mammal. Genet., NIG)

P-264:
(OP06-07)

14:37-14:49 
Evolutionary background of pluripotency among amniotes
- FGF/ERK-independent proliferation in early embryos -
鳥類・爬虫類から見る多能性機構の進化

Shota Nakanoh (Kyoto University, Science)

P-265:
(FT1-14)

17:17-17:21 
A conserved molecular and cellular mechanism of lung-bud formation between tetrapods and Polypterus senegalus
四肢動物と古代魚ポリプテルス間で保存されている肺芽形成の分子細胞生物学的メカニズム

Ritsuko Kobayashi (Dept. of Anat., Jikei Univ. School of Med.)

P-266:
(OP06-08)

14:49-15:01 
Modification of anterior-posterior patterning systems during the fin-to-limb transformation: Insight into the origin of thumbs
対鰭から四肢への形態変化における前後軸形成機構の変更〜親指の起源への洞察〜

Koh Onimaru (Tokyo Tech.)

P-267:
(OP06-09)

15:01-15:13 
Pax1 and Segmental Development of Pharyngeal Arch
Pax1が解き明かす咽頭弓分節機構

Kazunori Okada (Univ. Tsukuba)

P-268:
(FT1-15)

17:21-17:25 
Developmental roles of siamois-related Gene in a basal Actinopterygian: functional and evolutionary implications
原始的条鰭類ポリプテルスの初期発生における新規siamois関連遺伝子の役割

Masaki Takeuchi (Dep.Med.Eng. Kawasaki Univ.Med.Welf., CDB, RIKEN)

P-269:
(OP06-10)

15:13-15:25 
Evolutionary and functional analysis of cis-regulatory elements in mammalian Gsx1 and Gsx2 homeobox genes.
哺乳類Gsx1, Gsx2ホメオボックス遺伝子シス発現調節因子の進化的および機能的解析

Kenta Sumiyama (NIG)

P-270:
(FT1-16)

17:25-17:29 
Medaka miR-124 is involved in post-transcriptional regulation of polypyrimidine tract binding protein 1 (PTBP1) in neural development
メダカmiR-124は神経系発生でPTBP1の転写調節に関与する

Yumiko Kato (Dept. Nat. His. Sci., Grad. Sch. Sci., Hokkaido Univ.)

P-271:
(OP06-11)

15:25-15:37 
Role of Six1 in evolution of vertebrate primary sensory system
脊椎動物体幹部一次感覚神経系の進化におけるSix1の役割

Kiyoshi Kawakami (Div. Biol., CMM, Jichi Med. Univ.)

P-272:
(FT1-17)

17:29-16:25 
Characterization of Zebrafish internexin neuronal intermediate filament protein, alpha a (inaa), in the developing nervous system
Meng-Lin Liao (DACB, NTU)

P-273:
(OP06-12)

15:37-8:30 
Conserved genetic module for the development of dorsal flat sheet-like structures among Branchiopod crustaceans
鰓脚綱甲殻類に保存された背部平板状構造形成に関与する遺伝子モジュール

Yasuhiro Shiga (Tokyo Univ. Pham. & Life Sci., Sch.of Life Scis.)

P-274:
(FT4-17)

18:49-15:10 
Gr33a modulates mate choice based on age in Drosophila
Yujia Hu (SLST, Tongji Univ.)

P-275:
(OP11-05)

11:13-11:25 
Age-dependent apoptosis of select olfactory neurons impairs innate attraction behavior in Drosophila
特定の嗅覚受容体神経における加齢依存的なアポトーシスが、老化に伴う個体行動変化を引き起こす

Takahiro Chihara (Dept. Genetics, Grad. Sch. Pharm. Sci., Univ. Tokyo, CREST, JST, Japan)

P-276:
(OP17-07)

11:37-10:25 
The role of circadian clock gene per1b in attention deficit/hyperactvity behaviors
Han Wang (SUCCC, Soochow Univ.)

P-277:
(FT1-01)

16:25-16:29 
Cellular sensory mechanisms for detecting specific fold-changes in extracellular cues
細胞外シグナルの特定倍変化を検出する細胞センサーのメカニズム

Ken-ichi Hironaka (Kyushu Univ., RIKEN CDB)

P-278:
(FT1-02)
 
Cancelled
()

P-279:
(OP11-06)

11:25-11:37 
A theoretical study of the developmental properties that determine floral organ number
花器官の数はどのような発生過程から決まるのか

Miho Kitazawa (Dept. of Biol. Sci., Grad. Sch. of Sci., Osaka Univ.)

P-280:
(FT1-03)

16:33-16:37 
Numerical analyses for behaviors of auxin transport pattern on growing fields
オーキシン極性輸送に基づくパターンの成長場における数値解析

Akiko Nakamasu (Dep.Biores. Env. Sci. KSU., JSPS Reserch Fellow)

P-281:
(FT1-04)

16:37-16:41 
A theoretical study of mechanical force and cell shape dynamics during cell competition
細胞競合における機械的な力の役割

Arisu Tsuboi (Osaka Univ.)

P-282:
(OP11-07)

11:37-10:25 
Targeted genome modifications using ZFNs and TALENs in the cricket Gryllus bimaculatus
フタホシコオロギにおけるZFN, TALENを用いた標的遺伝子改変

Takahito Watanabe (Dept. of Life Systems, Inst. of Tec. and Sci., Univ. of Tokushima)

P-283:
(FT1-05)

16:41-16:45 
A theory on the timing of cell fate decision in developing organs
成長組織における細胞運命の決定タイミングに関する理論

Yoshihiro Morishita (RIKEN CDB)

P-284:
(FT4-13)

18:33-18:37 
Functional characterization of miR-375 and miR-200a of downstream regulation in development of hepatocellular carcinoma
Cheng-Maw Ho (GICM, NTU, DS, NTUH)

P-300: Critical roles for hindbrain V2a neurons in providing excitation to spinal locomotor circuits during zebrafish swimming
SHIN-ICHI Higashijima (Ctr.for Integr.Biosci., Nat'l Inst.of Natural Scis.)

P-301: The primary function of Nanos2 is to maintain mitotic arrest in mouse male germ cells.
Hiroko Koike (SOKENDAI)

P-302: Comprehensive screening of sexualization-induced genes in planarian
Midori Matsumoto (Keio University, Faculty of Science and Technology)

P-303: Protein Kinase A Coordinates Dorsoventral Polarity Signals Driving Inner Ear Formation
Sho Ohta (University of Utah)

P-304: TALEN Gene Targeting: A New Frontier for Ascidian Genetics
Nicholas Treen (University of Tsukuba)

P-305: Embryonic Lethality in PKD1 and PKD2 Double Knockout Mice
Nur Atik (Cell Biology Department, Graduate School of medicine, Osaka University)

P-306: Establishment of simple culture system for the three-dimensional mammalian osteogenesis.
Eizo Masuda (kwangaku)

P-307: Genetic analysis of novel candidates involved in the self-incompatibility system of ascidian, Ciona intestinalis.
Kazunori Yamamoto (Division of Biological Science, Graduate School of Science, Nagoya University)

P-308: Development of a high-resolution Ca2+ imaging system for freely moving C. elegans
Keiko GENGYO-ANDO (BSI Saitama Univ.)

P-309: Characterization of cell status by diffusion coefficient of artificial intranuclear molecules.
Sayaka Higuchi (Laboratory for Comprehensive Bioimaging, Quantitative Biology Center (QBiC), RIKEN)

P-310: A Novel Candidate Cilia-Related Factor Involved in Left-Right Determination in Kupffer’s Vesicle
Daisuke Kobayashi (Dept. Anat. Dev. Biol. Kyoto Pref. Univ. Med. Grad. Sch. Med. Sci.)

P-311: Characterization of a zebrafish mutant showing cone photoreceptor degeneration
Maria Iribarne (OIST)

P-312: Sohlh2, a possible target of NANOS2 in spermatogonial stem cells (SSCs)
Zhi Zhou (NIG)

P-313: The formation of a new limb bud on the base of the transplanted limb bud onto tail or other surface of Xenopus tadpoles: Its discovery and basic properties
Akio Nishikawa (Dept.of Biol.Sci., Fac.of Life & Environ.Sci., Shimane Univ.)

P-314: F0 knock-out analysis of germline related genes by using transcription activator-like effecter nucleases (TALENs) in the ascidian, Ciona intestinalis.
Maki SHIRAE-KURABAYASHI (Department of Mathematical and Life Sciences, Hiroshima University)

P-315: A temporal mechanism that produces neuronal diversity in the Drosophila visual center
Makoto Sato (FSO, Kanazawa Univ)

P-316: Laminin-integrin interaction is indispensable for extraembryonic development.
Daiji Kiyozumi (IPR, Osaka Univ.)

P-317: GSE is a Maternal Factor Involved in Active DNA Demethylation in Zygotes
Yuki Hatanaka (Department of Genetic Engineering, Kinki University Graduate School)

P-318: Prickle and Spiny-legs Determine the Orientation of Cellular Asymmetry Relative to the Dachsous Gradient
Tomonori Ayukawa (Research Center for Biosignal, Akita University, Japan, Department of Cell Biology and Morphology, Akita University Graduate School of Medicine, Japan)

P-319: Self-formation of optic-cup patterning and tissue elasticity.
Nozomu Takata (RIKEN CDB)

P-320: Cancelled
()

P-321: Ectopic expression of kir4.1 channel changes the color pattern of zebrafish in a dose-dependent manner.
Masafumi Inaba (Graduate School of Medicine, Osaka University)

P-322: Spatial and temporal control of signaling pathways for neural stem cell self-renewal in the developing mammalian brain.
Atsunori Shitamukai (RIKEN CDB)

P-323: Isolation of the proliferating blastema cells from the regenerating Xenopus laevis tadpole tails
Hiroshi Tsujioka (Dept. Biol. Sci. Grad. Scl. Sci. Univ. Tokyo)

P-324: Reduced BMP signaling results in hindlimb fusion with lethal pelvic/urogenital organ aplasia: a new mouse model of sirenomelia
Kentaro Suzuki (WMU)

P-325: A role of ubiquitin-proteasome system during maternal-to-zygotic transition in early mouse embryos
Natsumi Shimizu (Division of Biological Science, Graduate School of Biology-Oriented Science and Technology, Kinki University)

P-326: Expression and Localization of GSE proteins in Primordial Germ Cells.
Kohtaro Morita (Division of Biological Science, Graduate School of Biology-Oriented Science and Technology, Kinki University)

P-327: The possible role of ubiquitin-proteasome system in mouse 2-cell embryos
Chika Higuchi (Division of Biological Science, Kinki University Graduate School of Biology-Oriented Science and Technology)

P-328: A Gal4 driver resource for developmental biology and neuroscience in zebrafish
Koichi Kawakami (Division of Molecular and Developmental Biology, National Institute of Genetics and Department of Genetics, Graduate University for Advanced Studies (SOKENDAI))

P-329: Cellular dissection of the spinal cord motor column by BAC transgenesis and gene trapping in zebrafish
Kazuhide Asakawa (NIG)

P-330: Development of the Trunk Lateral Line System through a Bone Remodeling Process in Zebrafish
Hironori Wada (Division of Molecular and Developmental Biology, National Institute of Genetics)
▲ Go to top