APA

Lombardo E., Sabellico C., Hájek J., Staňková V., Filipský T., Balducci V., De Vito P., Leone S., Bavavea E. I., Silvestri I. P., Righi G., Luly P., Saso L., Bovicelli P., Pedersen J. Z. & Incerpi S. (20131226). Protection of cells against oxidative stress by nanomolar levels of hydroxyflavones indicates a new type of intracellular antioxidant mechanism. : PloS one.

Chicago

Lombardo Emanuele, Sabellico Cristian, Hájek Jan, Staňková Veronika, Filipský Tomáš, Balducci Valentina, De Vito Paolo, Leone Stefano, Bavavea Eugenia I, Silvestri Ilaria Proietti, Righi Giuliana, Luly Paolo, Saso Luciano, Bovicelli Paolo, Pedersen Jens Z and Incerpi Sandra. 20131226. Protection of cells against oxidative stress by nanomolar levels of hydroxyflavones indicates a new type of intracellular antioxidant mechanism. : PloS one.

Harvard

Lombardo E., Sabellico C., Hájek J., Staňková V., Filipský T., Balducci V., De Vito P., Leone S., Bavavea E. I., Silvestri I. P., Righi G., Luly P., Saso L., Bovicelli P., Pedersen J. Z. and Incerpi S. (20131226). Protection of cells against oxidative stress by nanomolar levels of hydroxyflavones indicates a new type of intracellular antioxidant mechanism. : PloS one.

MLA

Lombardo Emanuele, Sabellico Cristian, Hájek Jan, Staňková Veronika, Filipský Tomáš, Balducci Valentina, De Vito Paolo, Leone Stefano, Bavavea Eugenia I, Silvestri Ilaria Proietti, Righi Giuliana, Luly Paolo, Saso Luciano, Bovicelli Paolo, Pedersen Jens Z and Incerpi Sandra. Protection of cells against oxidative stress by nanomolar levels of hydroxyflavones indicates a new type of intracellular antioxidant mechanism. : PloS one. 20131226.