Altuntas, C. Et Al. 2020. Proline-stimulated signaling primarily targets the chlorophyll degradation pathway and photosynthesis associated processes to cope with short-term water deficit in maize. PHOTOSYNTHESIS RESEARCH , vol.144, no.1 , 35-48.

Altuntas, C., DEMİRALAY, M., Sezgin Muslu, A., & TERZİ, R., (2020). Proline-stimulated signaling primarily targets the chlorophyll degradation pathway and photosynthesis associated processes to cope with short-term water deficit in maize. PHOTOSYNTHESIS RESEARCH , vol.144, no.1, 35-48.

Altuntas, Cansu Et Al. "Proline-stimulated signaling primarily targets the chlorophyll degradation pathway and photosynthesis associated processes to cope with short-term water deficit in maize," PHOTOSYNTHESIS RESEARCH , vol.144, no.1, 35-48, 2020

Altuntas, Cansu Et Al. "Proline-stimulated signaling primarily targets the chlorophyll degradation pathway and photosynthesis associated processes to cope with short-term water deficit in maize." PHOTOSYNTHESIS RESEARCH , vol.144, no.1, pp.35-48, 2020

Altuntas, C. Et Al. (2020) . "Proline-stimulated signaling primarily targets the chlorophyll degradation pathway and photosynthesis associated processes to cope with short-term water deficit in maize." PHOTOSYNTHESIS RESEARCH , vol.144, no.1, pp.35-48.

@article{article, author={Cansu Altuntas Et Al. }, title={Proline-stimulated signaling primarily targets the chlorophyll degradation pathway and photosynthesis associated processes to cope with short-term water deficit in maize}, journal={PHOTOSYNTHESIS RESEARCH}, year=2020, pages={35-48} }