APA

Kim Y., Harry G. J., Kang H. S., Goulding D., Wine R. N., Kissling G. E., Liao G. & Jetten A. M. (20110125). Altered cerebellar development in nuclear receptor TAK1/ TR4 null mice is associated with deficits in GLAST(+) glia, alterations in social behavior, motor learning, startle reactivity, and microglia. : Cerebellum (London, England).

Chicago

Kim Yong-Sik, Harry G Jean, Kang Hong Soon, Goulding David, Wine Rob N, Kissling Grace E, Liao Grace and Jetten Anton M. 20110125. Altered cerebellar development in nuclear receptor TAK1/ TR4 null mice is associated with deficits in GLAST(+) glia, alterations in social behavior, motor learning, startle reactivity, and microglia. : Cerebellum (London, England).

Harvard

Kim Y., Harry G. J., Kang H. S., Goulding D., Wine R. N., Kissling G. E., Liao G. and Jetten A. M. (20110125). Altered cerebellar development in nuclear receptor TAK1/ TR4 null mice is associated with deficits in GLAST(+) glia, alterations in social behavior, motor learning, startle reactivity, and microglia. : Cerebellum (London, England).

MLA

Kim Yong-Sik, Harry G Jean, Kang Hong Soon, Goulding David, Wine Rob N, Kissling Grace E, Liao Grace and Jetten Anton M. Altered cerebellar development in nuclear receptor TAK1/ TR4 null mice is associated with deficits in GLAST(+) glia, alterations in social behavior, motor learning, startle reactivity, and microglia. : Cerebellum (London, England). 20110125.