D
Dan Hirose
Researcher at Tokyo Metropolitan University
Publications - 3
Citations - 491
Dan Hirose is an academic researcher from Tokyo Metropolitan University. The author has contributed to research in topics: Neurula & Transcription factor. The author has an hindex of 2, co-authored 3 publications receiving 468 citations.
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Journal ArticleDOI
The amphioxus genome illuminates vertebrate origins and cephalochordate biology
Linda Z. Holland,Ricard Albalat,Kaoru Azumi,Èlia Benito-Gutiérrez,Matthew J. Blow,Marianne Bronner-Fraser,Frédéric Brunet,Thomas Butts,Simona Candiani,Larry J. Dishaw,Larry J. Dishaw,David E. K. Ferrier,David E. K. Ferrier,Jordi Garcia-Fernàndez,Jeremy J. Gibson-Brown,Carmela Gissi,Adam Godzik,Finn Hallböök,Dan Hirose,Kazuyoshi Hosomichi,Tetsuro Ikuta,Hidetoshi Inoko,Masanori Kasahara,Jun Kasamatsu,Takeshi Kawashima,Takeshi Kawashima,Ayuko Kimura,Masaaki Kobayashi,Zbynek Kozmik,Kaoru Kubokawa,Vincent Laudet,Gary W. Litman,Gary W. Litman,Alice C. McHardy,Alice C. McHardy,Daniel Meulemans,Masaru Nonaka,Robert Piotr Olinski,Zeev Pancer,Len A. Pennacchio,Mario Pestarino,Jonathan P. Rast,Isidore Rigoutsos,Marc Robinson-Rechavi,Graeme J. Roch,Hidetoshi Saiga,Yasunori Sasakura,Masanobu Satake,Yutaka Satou,Michael Schubert,Nancy M. Sherwood,Takashi Shiina,Naohito Takatori,Naohito Takatori,Javier Tello,Pavel Vopalensky,Shuichi Wada,Anlong Xu,Yuzhen Ye,Keita Yoshida,Fumiko Yoshizaki,Jr-Kai Yu,Qing Zhang,Christian M. Zmasek,Pieter J. de Jong,Kazutoyo Osoegawa,Nicholas H. Putnam,Daniel S. Rokhsar,Daniel S. Rokhsar,Noriyuki Satoh,Noriyuki Satoh,Peter W. H. Holland +71 more
TL;DR: The results indicate that the amphioxus genome is elemental to an understanding of the biology and evolution of nonchordate deuterostomes, invertebrate chordates, and vertebrates.
Journal ArticleDOI
Analysis of the Transcription Regulatory Mechanism of Otx During the Development of the Sensory Vesicle in Ciona intestinalis
TL;DR: Insight is provided into the evolution of transcriptional regulatory mechanism of Otx using embryos of the ascidian from the gastrula to tailbud stages and two genomic regions capable of mimicking the Otx expression pattern are identified.
Journal ArticleDOI
Continuous expression of Otx in the anterior neural lineage is supported by different transcriptional regulatory mechanisms during the development of Halocynthia roretzi.
TL;DR: The present results provide the first overview of the mechanism that sustains Otx expression in the anterior neural lineage during ascidian embryogenesis and demonstrate the complexity of a developmental mechanism that maintains Otx transcription.