Okabe, M.; Miyamoto, Y.; Ikoma, Y.; Takahashi, M.; Shirai, R.; Kukimoto-Niino, M.; Shirouzu, M.; Yamauchi, J.
RhoG-Binding Domain of Elmo1 Ameliorates Excessive Process Elongation Induced by Autism Spectrum Disorder-Associated Sema5A. Pathophysiology 2023, 30, 548-566.
https://doi.org/10.3390/pathophysiology30040040
AMA Style
Okabe M, Miyamoto Y, Ikoma Y, Takahashi M, Shirai R, Kukimoto-Niino M, Shirouzu M, Yamauchi J.
RhoG-Binding Domain of Elmo1 Ameliorates Excessive Process Elongation Induced by Autism Spectrum Disorder-Associated Sema5A. Pathophysiology. 2023; 30(4):548-566.
https://doi.org/10.3390/pathophysiology30040040
Chicago/Turabian Style
Okabe, Miyu, Yuki Miyamoto, Yuta Ikoma, Mikito Takahashi, Remina Shirai, Mutsuko Kukimoto-Niino, Mikako Shirouzu, and Junji Yamauchi.
2023. "RhoG-Binding Domain of Elmo1 Ameliorates Excessive Process Elongation Induced by Autism Spectrum Disorder-Associated Sema5A" Pathophysiology 30, no. 4: 548-566.
https://doi.org/10.3390/pathophysiology30040040
APA Style
Okabe, M., Miyamoto, Y., Ikoma, Y., Takahashi, M., Shirai, R., Kukimoto-Niino, M., Shirouzu, M., & Yamauchi, J.
(2023). RhoG-Binding Domain of Elmo1 Ameliorates Excessive Process Elongation Induced by Autism Spectrum Disorder-Associated Sema5A. Pathophysiology, 30(4), 548-566.
https://doi.org/10.3390/pathophysiology30040040
