Daniel, V., Trojan, K., Adamek, M. M., & Opelz, G. (2016). IFNγ+ Treg in-vivo and in-vitro represent both activated nTreg and peripherally induced aTreg and remain phenotypically stable in-vitro after removal of the stimulus. BioMed Central.
Chicago Style (17th ed.) CitationDaniel, Volker, Karina Trojan, Martina Maria Adamek, and Gerhard Opelz. IFNγ+ Treg In-vivo and In-vitro Represent Both Activated NTreg and Peripherally Induced ATreg and Remain Phenotypically Stable In-vitro After Removal of the Stimulus. London: BioMed Central, 2016.
MLA (9th ed.) CitationDaniel, Volker, et al. IFNγ+ Treg In-vivo and In-vitro Represent Both Activated NTreg and Peripherally Induced ATreg and Remain Phenotypically Stable In-vitro After Removal of the Stimulus. BioMed Central, 2016.