APA
Bian Z., Wang Q., Zhou X., Tan T., Park K. H., Kramer H. F., McDougal A., Laping N. J., Kumar S., Adesanya T. M. A., Sermersheim M., Yi F., Wang X., Wu J., Gumpper K., Jiang Q., He D., Lin P., Li H., Guan F., Zhou J., Kohr M. J., Zeng C., Zhu H. & Ma J. (20200204). Sustained elevation of MG53 in the bloodstream increases tissue regenerative capacity without compromising metabolic function. : Nature communications.
Chicago
Bian Zehua, Wang Qiang, Zhou Xinyu, Tan Tao, Park Ki Ho, Kramer H Fritz, McDougal Alan, Laping Nicholas J, Kumar Sanjay, Adesanya T M Ayodele, Sermersheim Matthew, Yi Frank, Wang Xinxin, Wu Junwei, Gumpper Kristyn, Jiang Qiwei, He Duofen, Lin Pei-Hui, Li Haichang, Guan Fangxia, Zhou Jingsong, Kohr Mark J, Zeng Chunyu, Zhu Hua and Ma Jianjie. 20200204. Sustained elevation of MG53 in the bloodstream increases tissue regenerative capacity without compromising metabolic function. : Nature communications.
Harvard
Bian Z., Wang Q., Zhou X., Tan T., Park K. H., Kramer H. F., McDougal A., Laping N. J., Kumar S., Adesanya T. M. A., Sermersheim M., Yi F., Wang X., Wu J., Gumpper K., Jiang Q., He D., Lin P., Li H., Guan F., Zhou J., Kohr M. J., Zeng C., Zhu H. and Ma J. (20200204). Sustained elevation of MG53 in the bloodstream increases tissue regenerative capacity without compromising metabolic function. : Nature communications.
MLA
Bian Zehua, Wang Qiang, Zhou Xinyu, Tan Tao, Park Ki Ho, Kramer H Fritz, McDougal Alan, Laping Nicholas J, Kumar Sanjay, Adesanya T M Ayodele, Sermersheim Matthew, Yi Frank, Wang Xinxin, Wu Junwei, Gumpper Kristyn, Jiang Qiwei, He Duofen, Lin Pei-Hui, Li Haichang, Guan Fangxia, Zhou Jingsong, Kohr Mark J, Zeng Chunyu, Zhu Hua and Ma Jianjie. Sustained elevation of MG53 in the bloodstream increases tissue regenerative capacity without compromising metabolic function. : Nature communications. 20200204.