APA
Lee A. Y., Lee J. W., Kim J., Mock H. J., Park S., Kim S., Hong S., Kim J., Park E., Kang K., Kim K. P. & Cho M. (20171122). Dihydroceramide is a key metabolite that regulates autophagy and promotes fibrosis in hepatic steatosis model. : Biochemical and biophysical research communications.
Chicago
Lee Ah Young, Lee Jae Won, Kim Ji-Eun, Mock Hyuck Jun, Park Sungjin, Kim Sanghwa, Hong Seong-Ho, Kim Ji-Young, Park Eun-Jung, Kang Kyung-Sun, Kim Kwang Pyo and Cho Myung-Haing. 20171122. Dihydroceramide is a key metabolite that regulates autophagy and promotes fibrosis in hepatic steatosis model. : Biochemical and biophysical research communications.
Harvard
Lee A. Y., Lee J. W., Kim J., Mock H. J., Park S., Kim S., Hong S., Kim J., Park E., Kang K., Kim K. P. and Cho M. (20171122). Dihydroceramide is a key metabolite that regulates autophagy and promotes fibrosis in hepatic steatosis model. : Biochemical and biophysical research communications.
MLA
Lee Ah Young, Lee Jae Won, Kim Ji-Eun, Mock Hyuck Jun, Park Sungjin, Kim Sanghwa, Hong Seong-Ho, Kim Ji-Young, Park Eun-Jung, Kang Kyung-Sun, Kim Kwang Pyo and Cho Myung-Haing. Dihydroceramide is a key metabolite that regulates autophagy and promotes fibrosis in hepatic steatosis model. : Biochemical and biophysical research communications. 20171122.