APA
Odaira K., Kimura S., Fujieda N., Kobayashi Y., Kambara K., Takahashi T., Izumi T., Matsushita H. & Kakimi K. (20170529). CD27(-)CD45(+) γδ T cells can be divided into two populations, CD27(-)CD45(int) and CD27(-)CD45(hi) with little proliferation potential. : Biochemical and biophysical research communications.
Chicago
Odaira Kosuke, Kimura Shin-Nosuke, Fujieda Nao, Kobayashi Yukari, Kambara Kaori, Takahashi Takuya, Izumi Takamichi, Matsushita Hirokazu and Kakimi Kazuhiro. 20170529. CD27(-)CD45(+) γδ T cells can be divided into two populations, CD27(-)CD45(int) and CD27(-)CD45(hi) with little proliferation potential. : Biochemical and biophysical research communications.
Harvard
Odaira K., Kimura S., Fujieda N., Kobayashi Y., Kambara K., Takahashi T., Izumi T., Matsushita H. and Kakimi K. (20170529). CD27(-)CD45(+) γδ T cells can be divided into two populations, CD27(-)CD45(int) and CD27(-)CD45(hi) with little proliferation potential. : Biochemical and biophysical research communications.
MLA
Odaira Kosuke, Kimura Shin-Nosuke, Fujieda Nao, Kobayashi Yukari, Kambara Kaori, Takahashi Takuya, Izumi Takamichi, Matsushita Hirokazu and Kakimi Kazuhiro. CD27(-)CD45(+) γδ T cells can be divided into two populations, CD27(-)CD45(int) and CD27(-)CD45(hi) with little proliferation potential. : Biochemical and biophysical research communications. 20170529.