Ryuichi Shirasaki

Affiliations: 
Osaka University, Toyonaka-shi, Ōsaka-fu, Japan 
Area:
Development
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"Ryuichi Shirasaki"
Bio:

Postdoc in the Salk Institute (Samuel Pfaff Lab): 2000 April-2005 September

Cross-listing: Neurotree

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Parents

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Fujio Murakami grad student 1991-1996 Osaka University (Neurotree)
Samuel L. Pfaff post-doc 2000-2005 Salk Institute

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Publications

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Gotoh H, Maruyama K, Yoshii K, et al. (2022) Disruption of the anterior commissure in Olig2 deficient mice. The European Journal of Neuroscience
Kaneyama T, Shirasaki R. (2018) Post-crossing segment of dI1 commissural axons forms collateral branches to motor neurons in the developing spinal cord. The Journal of Comparative Neurology
Hara S, Kaneyama T, Inamata Y, et al. (2015) Interstitial branch formation within the red nucleus by deep cerebellar nuclei-derived commissural axons during target recognition. The Journal of Comparative Neurology
Inamata Y, Shirasaki R. (2014) Dbx1 triggers crucial molecular programs required for midline crossing by midbrain commissural axons. Development (Cambridge, England). 141: 1260-71
Zhao H, Maruyama T, Hattori Y, et al. (2011) A molecular mechanism that regulates medially oriented axonal growth of upper layer neurons in the developing neocortex. The Journal of Comparative Neurology. 519: 834-48
Inamata Y, Shirasaki R. (2011) Identification of a critical genetic determinant of midbrain commissural neurons Neuroscience Research. 71: e94
Hara S, Onodera R, Inamata Y, et al. (2011) Target recognition by commissural neurons genetically defined by Atoh1 in the mouse cerebellum Neuroscience Research. 71: e333
Zhao H, Maruyama T, Shirasaki R, et al. (2007) Molecular mechanism that regulates medially oriented axonal growth of upper layer neurons in cortical development Neuroscience Research. 58: S89
Song MR, Shirasaki R, Cai CL, et al. (2006) T-Box transcription factor Tbx20 regulates a genetic program for cranial motor neuron cell body migration. Development (Cambridge, England). 133: 4945-55
Shirasaki R, Lewcock JW, Lettieri K, et al. (2006) FGF as a target-derived chemoattractant for developing motor axons genetically programmed by the LIM code. Neuron. 50: 841-53
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