Yao, X., Zhang, K., Na, T., Wang, Y., Guo, Y., Xi, J., . . . Xu, M. Human iPSC-derived spinal neural progenitors enhance sensorimotor recovery in spinal cord-injured NOD-SCID mice via differentiation and microenvironment regulation. Nature Publishing Group.
Chicago Style (17th ed.) CitationYao, Xuanbao, Kehua Zhang, Tao Na, Yuchun Wang, Yuhan Guo, Jiajie Xi, Xiang Li, Shufang Meng, and Miao Xu. Human IPSC-derived Spinal Neural Progenitors Enhance Sensorimotor Recovery in Spinal Cord-injured NOD-SCID Mice via Differentiation and Microenvironment Regulation. Nature Publishing Group.
MLA (9th ed.) CitationYao, Xuanbao, et al. Human IPSC-derived Spinal Neural Progenitors Enhance Sensorimotor Recovery in Spinal Cord-injured NOD-SCID Mice via Differentiation and Microenvironment Regulation. Nature Publishing Group.