APA
Lu N., Liu J., Tian Y., Liao M., Wang H., Lu Y., Tao R., Hong L., Liu S., Fukunaga K., Du Y. & Han F. (20150715). Atg5 deficit exaggerates the lysosome formation and cathepsin B activation in mice brain after lipid nanoparticles injection. : Nanomedicine : nanotechnology, biology, and medicine.
Chicago
Lu Nan-nan, Liu Jun, Tian Yun, Liao Mei-hua, Wang Huan, Lu Ying-mei, Tao Rong-rong, Hong Ling-Juan, Liu Shuang-shuang, Fukunaga Kohji, Du Yong-zhong and Han Feng. 20150715. Atg5 deficit exaggerates the lysosome formation and cathepsin B activation in mice brain after lipid nanoparticles injection. : Nanomedicine : nanotechnology, biology, and medicine.
Harvard
Lu N., Liu J., Tian Y., Liao M., Wang H., Lu Y., Tao R., Hong L., Liu S., Fukunaga K., Du Y. and Han F. (20150715). Atg5 deficit exaggerates the lysosome formation and cathepsin B activation in mice brain after lipid nanoparticles injection. : Nanomedicine : nanotechnology, biology, and medicine.
MLA
Lu Nan-nan, Liu Jun, Tian Yun, Liao Mei-hua, Wang Huan, Lu Ying-mei, Tao Rong-rong, Hong Ling-Juan, Liu Shuang-shuang, Fukunaga Kohji, Du Yong-zhong and Han Feng. Atg5 deficit exaggerates the lysosome formation and cathepsin B activation in mice brain after lipid nanoparticles injection. : Nanomedicine : nanotechnology, biology, and medicine. 20150715.