APA
Kim H. K., Kim Y. K., Song I., Lee S., Jeong S. H., Kim M. H., Seo D. Y., Kim N., Rhee B. D., Ko K. S., Tark K. C., Park C. G., Cho J. & Han J. (20130220). Human giant congenital melanocytic nevus exhibits potential proteomic alterations leading to melanotumorigenesis. : Proteome science.
Chicago
Kim Hyoung Kyu, Kim Yong Kyu, Song In-Sung, Lee Sung-Ryul, Jeong Seung Hun, Kim Min Hee, Seo Dae Yun, Kim Nari, Rhee Byoung Doo, Ko Kyoung Soo, Tark Kwan Chul, Park Chul Gyoo, Cho Je-Yoel and Han Jin. 20130220. Human giant congenital melanocytic nevus exhibits potential proteomic alterations leading to melanotumorigenesis. : Proteome science.
Harvard
Kim H. K., Kim Y. K., Song I., Lee S., Jeong S. H., Kim M. H., Seo D. Y., Kim N., Rhee B. D., Ko K. S., Tark K. C., Park C. G., Cho J. and Han J. (20130220). Human giant congenital melanocytic nevus exhibits potential proteomic alterations leading to melanotumorigenesis. : Proteome science.
MLA
Kim Hyoung Kyu, Kim Yong Kyu, Song In-Sung, Lee Sung-Ryul, Jeong Seung Hun, Kim Min Hee, Seo Dae Yun, Kim Nari, Rhee Byoung Doo, Ko Kyoung Soo, Tark Kwan Chul, Park Chul Gyoo, Cho Je-Yoel and Han Jin. Human giant congenital melanocytic nevus exhibits potential proteomic alterations leading to melanotumorigenesis. : Proteome science. 20130220.