| P01-A |
How to make twins – Novel insights into axis formation in amniotes |
| Cantas Alev (RIKEN Center for Developmental Biology, Japan) |
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| P02-A |
Steroid hormone-dependent control of mating-induced germline stem cell proliferation in female Drosophila melanogaster |
Tomotsune Ameku (University of Tsukuba, Japan) |
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| P03-B |
| Understanding timing mechanisms for orderly neuronal connectivity in development and regeneration decline in aging |
Chieh Chang (University of Illinois at Chicago, USA) |
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| P04-B |
| A new model for Drosophila segmentation incorporating temporal regulation |
Erik Clark (University of Cambridge, UK) |
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| P05-A |
Mechanics of leaf vein development |
Jonathan E. Dawson (Max Planck Institute for Dynamics and Self-Organization, Göttingen, Germany) |
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| P06-A |
| Robo1 regulates dendritic development of neocortical pyramidal neurons |
Yuko Gonda (RIKEN Center for Developmental Biology, Japan) |
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| P07-B |
Madagascar ground gecko, a newly established animal for elucidation of morphological diversification in amniotes |
Yuichiro Hara (RIKEN Center for Life Science Technologies, Japan) |
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| P08-B |
| Comparative systems biology of dietary responses among Drosophila species |
| Yukako Hattori (Kyoto University, Japan) |
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| P09-A |
Timing of skeletal muscle development during primary body wall transformation in amniote embryos |
Tatsuya Hirasawa (RIKEN, Japan) |
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| P10-A |
| Optimal growth schedule of holometabolous insects |
Ken-ichi Hironaka (RIKEN Quantitative Biology Center, Japan) |
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| P11-B |
| Single-cell robustness of mammalian genetic oscillators revealed by optogenetic perturbation |
Akihiro Isomura (Kyoto University, Japan) |
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| P12-B |
Nasal airflow entrains glomerulus-specific theta oscillations for phase odor coding |
Ryo Iwata (RIKEN Center for Developmental Biology, Japan) |
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| P13-A |
Deubiquitinating enzymes regulate Hes1 stability and neuronal differentiation |
Taeko Kobayashi (Kyoto University, Japan) |
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| P14-A |
Statistical constrains in micro-evolution |
Tetsuya J. Kobayashi (The University of Tokyo, Japan) |
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| P15-B |
Spatial and temporal regulation of neural stem cell identity in the mammalian cerebral cortex by Dmrt family transcription factors |
Daijiro Konno (RIKEN Center for Developmental Biology, Japan) |
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| P16-B |
Development and evolutionary origin of the neocortex |
Takuma Kumamoto (RIKEN Center for Developmental Biology, Japan) |
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| P17-A |
Sequence informatics for evolution-aware molecular zoology |
Shigehiro Kuraku (RIKEN Center for Life Science Technologies, Japan) |
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| P18-A |
| Generation of a ciliary margin-like stem cell niche from self-organizing human retinal tissue |
Atsushi Kuwahara (RIKEN Center for Developmental Biology, Japan) |
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| P19-B |
Chemical Mechanism of Cell Transmembrane Signal Transduction |
Baoquan Liu (Dalian Nationalities University, China) |
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| P20-B |
| Investigating the error correction mechanisms that enable precise developmental patterning |
Zairan Liu (University of California, San Francisco, USA) |
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| P21-A |
Genesis of asymmetry through reconstituted lateral inhibition |
Mitsuhiro Matsuda (RIKEN Quantitative Biology Center, Japan) |
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| P22-A |
Multiple roles of reelin in neuronal migration and layer formation:
beyond the simplistic view |
Nieves Mingo-Moreno (University Medicine Göttingen, Germany) |
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| P23-B |
A theory on the timing of cell fate decision in developing organs |
Yoshihiro Morishita (RIKEN Quantitative Biology Center, Japan) |
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| P24-B |
A metabolic profile of fasted mice |
Eri Muta-Minamino (Kyoto University, Japan) |
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| P25-A |
| miR-29: A molecular timer that accelerates the aging program |
Ayumi Nakamura (University of North Carolina at Chapel Hill, USA) |
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| P26-A |
| Novel mechanism for regulating BAF complex composition during neural development: unexpected roles of an E3 ubiquitin ligase |
| Ramanathan Narayanan (Universitätsmedizin Göttingen, Germany) |
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| P27-B |
Apcdd1 for epithelial rearrangements in molar development |
Sanjiv Neupane (Kyungpook National University, Korea) |
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| P28-B |
| Determination of pupation timing by biological timer in fat body during prepupal period in Drosophila melanogaster |
Haruka Nishida (Okayama University, Japan) |
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| P29-A |
A catalytic step-specific transcriptional regulation of steroid hormone biosynthesis is essential for developmental timing in Drosophila melanogaster |
Ryusuke Niwa (University of Tsukuba, Japan) |
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| P30-A |
| Evolution of transcriptional regulations underlying species-specific neuronal diversities in amniote brains |
Tadashi Nomura (Kyoto Prefectural University of Medicine, Japan) |
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| P31-B |
Multiple developmental pathways to the wingless aphids: adaptive significance of the timing for histolysis and developmental suppression |
Kota Ogawa (National Institute for Basic Biology, Japan) |
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| P32-B |
Signaling relay and feedback mechanisms control the nutrient-dependent production of
insulin-like peptides |
Naoki Okamoto (RIKEN Center for Developmental Biology, Japan) |
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| P33-A |
Evolution of the vertebrate head through a heterotopic shift in ancestral mesodermal patterning |
Takayuki Onai (RIKEN, Japan) |
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| P34-A |
An event during metamorphic process is triggered by steroid hormone independently from developmental timeline in Drosophila melanogaster |
Hajime Ono (Kyoto University, Japan) |
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| P35-B |
| Exploring the development and evolution of the crustacean eye |
Ana Patricia Ramos (Institut de Génomique Fonctionnelle de Lyon, École Normale Supérieure de Lyon, France) |
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| P36-B |
Periodic regulation of embryonic body axis elongation revealed by quantitative live imaging and mathematical modeling |
Takashi Saitou (Ehime University Hospital, Japan) |
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| P37-A |
Bivalent separation into univalents is the major cause of age-related meiosis I errors in oocytes |
Yogo Sakakibara (RIKEN Center for Developmental Biology, Japan) |
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| P38-B |
Trancriptome profiling of a key morphological innovation: the propelling fan of the water walking bug Rhagovelia obesa |
M. Emília Santos (Institut de Génomique Fonctionnelle de Lyon, France) |
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| P39-B |
| Neural Tube Pattern Formation by the Timing of Inductive Signals |
Noriaki Sasai (MRC, National Institute for Medical Research, UK) |
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| P40-A |
The endoplasmic reticulum chaperones control canalization of animal development under environmental stress |
Atsuko Sato (Ochanomizu University, Japan) |
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| P41-A |
Mathematical modeling and genetic analysis of the wave of differentiation in the Drosophila visual center |
Makoto Sato (Kanazawa University, Japan) |
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| P42-B |
Serotonergic neurons respond to nutrients and regulate the timing of steroid hormone biosynthesis in Drosophila melanogaster |
Yuko Shimada-Niwa (University of Tsukuba, Japan) |
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| P43-B |
Pace control of neurogenesis regulated by transient retention of the apical endfoot of differentiating cells via Notch signaling |
Kenji Shimamura (Kumamoto University, Japan) |
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| P44-A |
Dynamic expression of Notch ligand Dll1 during development |
Hiromi Shimojo (Kyoto University, Japan) |
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| P45-B |
How leaf mimicry in butterfly wing patterns evolved? |
Takao K Suzuki (National Institute of Agrobiological Sciences, Japan) |
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| P46-B |
miR-29 is essential for brain maintenance but not its development |
Vijay Swahari (University of North Carolina at Chapel Hill, USA) |
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| P47-A |
Conversion of temporal periodicity into spatial pattern during somitegenesis |
Shinji Takada (National Institute for Basic Biology, Japan) |
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| P48-A |
A two-step regulatory mechanism determines the timing of upper-layer neurogenesis in the cerebral cortex |
Kenichi Toma (RIKEN Center for Developmental Biology, Japan) |
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| P49-B |
Interorgan communication controlling size of neuronal dendritic arbors in response to nutritional restriction |
Tadashi Uemura (Kyoto University, Japan) |
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| P50-B |
Sp1/3 sustain self-renewal of Embryonic stem cell through regulating core Klf circuitry |
Hiroki Ura (RIKEN Center for Developmental Biology, Japan) |
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| P51-A |
Synchronization of coupled genetic oscillators promoted by collective cell movement |
Koichiro Uriu (RIKEN, Japan) |
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| P52-A |
A damped oscillator governs posterior gap gene patterning in Drosophila melanogaster |
Berta Verd (Centre for Genomic Regulation, Spain) |
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| P53-B |
Dynamics of Shh interpretation and response by single neural progenitors in vivo |
Fengzhu Xiong (Harvard Medical School, USA) |
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| P54-B |
How fish clock makes somite |
Taijiro Yabe (National Institute for Basic Biology, Japan) |
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| P55-A |
Random matrix theory analysis of time development of macromolecule |
Masanori Yamanaka (Nihon University, Japan) |
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| P56-A |
Complex evolutionary trajectories of sex chromosomes across bird taxa |
Qi Zhou (University of California, Berkeley, USA) |
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| P57-B |
Programs for Junior Scientists at RIKEN |
Yunike Shimizu (RIKEN Global Relations and Research Coordination Office, Japan) |
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