Extremely low-frequency electromagnetic field induces neural differentiation of hBM-MSCs through regulation of (Zn)-metallothionein-3.

MLA

Aikins, Anastasia Rosebud, et al. “Extremely Low-Frequency Electromagnetic Field Induces Neural Differentiation of HBM-MSCs through Regulation of (Zn)-Metallothionein-3.” Bioelectromagnetics, vol. 38, no. 5, July 2017, pp. 364–73. EBSCOhost, https://doi.org/10.1002/bem.22046.

APA

Aikins, A. R., Hong, S.-W., Kim, H.-J., Yoon, C.-H., Chung, J.-H., Kim, M., & Kim, C.-W. (2017). Extremely low-frequency electromagnetic field induces neural differentiation of hBM-MSCs through regulation of (Zn)-metallothionein-3. Bioelectromagnetics, 38(5), 364–373. https://doi.org/10.1002/bem.22046

Chicago

Aikins, Anastasia Rosebud, Sung-Won Hong, Hyun-Jung Kim, Cheol-Ho Yoon, Joo-Hee Chung, MiJung Kim, and Chan-Wha Kim. 2017. “Extremely Low-Frequency Electromagnetic Field Induces Neural Differentiation of HBM-MSCs through Regulation of (Zn)-Metallothionein-3.” Bioelectromagnetics 38 (5): 364–73. doi:10.1002/bem.22046.