J. Moustaka Et Al. , "High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation," ENVIRONMENTAL AND EXPERIMENTAL BOTANY , vol.154, pp.44-55, 2018
Moustaka, J. Et Al. 2018. High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation. ENVIRONMENTAL AND EXPERIMENTAL BOTANY , vol.154 , 44-55.
Moustaka, J., Panteris, E., Adamakis, I. S., Tanou, G., Giannakoula, A., Eleftheriou, E. P., ... Moustakas, M.(2018). High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation. ENVIRONMENTAL AND EXPERIMENTAL BOTANY , vol.154, 44-55.
Moustaka, Julietta Et Al. "High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation," ENVIRONMENTAL AND EXPERIMENTAL BOTANY , vol.154, 44-55, 2018
Moustaka, Julietta Et Al. "High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation." ENVIRONMENTAL AND EXPERIMENTAL BOTANY , vol.154, pp.44-55, 2018
Moustaka, J. Et Al. (2018) . "High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation." ENVIRONMENTAL AND EXPERIMENTAL BOTANY , vol.154, pp.44-55.
@article{article, author={Julietta Moustaka Et Al. }, title={High anthocyanin accumulation in poinsettia leaves is accompanied by thylakoid membrane unstacking, acting as a photoprotective mechanism, to prevent ROS formation}, journal={ENVIRONMENTAL AND EXPERIMENTAL BOTANY}, year=2018, pages={44-55} }