Masashi Fujitani

Osaka University, Toyonaka-shi, Ōsaka-fu, Japan 
Cortical development
"Masashi Fujitani"
Mean distance: 16.68 (cluster 32)
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Abe Y, Honsho M, Kawaguchi R, et al. (2020) A peroxisome deficiency-induced reductive cytosol state up-regulates the brain-derived neurotrophic factor pathway. The Journal of Biological Chemistry
Abe Y, Honsho M, Itoh R, et al. (2018) Peroxisome biogenesis deficiency attenuates the BDNF-TrkB pathway-mediated development of the cerebellum. Life Science Alliance. 1: e201800062
Fujitani M, Sato R, Yamashita T. (2017) Loss of p73 in ependymal cells during the perinatal period leads to aqueductal stenosis. Scientific Reports. 7: 12007
Kanemitsu Y, Fujitani M, Fujita Y, et al. (2017) The RNA-binding protein MARF1 promotes cortical neurogenesis through its RNase activity domain. Scientific Reports. 7: 1155
Fujitani M, Zhang S, Fujiki R, et al. (2016) A chromosome 16p13.11 microduplication causes hyperactivity through dysregulation of miR-484/protocadherin-19 signaling. Molecular Psychiatry
Hamasaki H, Fujitani M, Yamashita T. (2016) NME2 associates with PTPσ to transduce signals from chondroitin sulfate proteoglycans. Biochemical and Biophysical Research Communications
Adachi K, Takahashi K, Nakamura K, et al. (2016) Postoperative administration of dienogest for suppressing recurrence of disease and relieving pain in subjects with ovarian endometriomas. Gynecological Endocrinology : the Official Journal of the International Society of Gynecological Endocrinology. 1-4
Fujiki R, Sato A, Hata K, et al. (2016) Corrigendum to "Improvement in protocol to generate homogeneous glutamatergic neurons from mouse embryonic stem cells reduced apoptosis" [Biochem. Biophys. Res. Commun. 430 (2) (2012) 604-609] Biochemical and Biophysical Research Communications
Zhang S, Kanemitsu Y, Fujitani M, et al. (2014) The newly identified migration inhibitory protein regulates the radial migration in the developing neocortex. Scientific Reports. 4: 5984
Gallagher D, Norman AA, Woodard CL, et al. (2013) Transient maternal IL-6 mediates long-lasting changes in neural stem cell pools by deregulating an endogenous self-renewal pathway. Cell Stem Cell. 13: 564-76
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