Guler, N. S. Et Al. 2022. Increased dehydrin level decreases leaf rolling grade by altering the reactive oxygen species homeostasis and abscisic acid content in maize subjected to osmotic stress. 3 BIOTECH , vol.12, no.9 .

Guler, N. S., TERZİ, R., Demiralay, M., Ozturk, K., & KADIOĞLU, A., (2022). Increased dehydrin level decreases leaf rolling grade by altering the reactive oxygen species homeostasis and abscisic acid content in maize subjected to osmotic stress. 3 BIOTECH , vol.12, no.9.

Guler, Neslihan Et Al. "Increased dehydrin level decreases leaf rolling grade by altering the reactive oxygen species homeostasis and abscisic acid content in maize subjected to osmotic stress," 3 BIOTECH , vol.12, no.9, 2022

Guler, Neslihan S. Et Al. "Increased dehydrin level decreases leaf rolling grade by altering the reactive oxygen species homeostasis and abscisic acid content in maize subjected to osmotic stress." 3 BIOTECH , vol.12, no.9, 2022

Guler, N. S. Et Al. (2022) . "Increased dehydrin level decreases leaf rolling grade by altering the reactive oxygen species homeostasis and abscisic acid content in maize subjected to osmotic stress." 3 BIOTECH , vol.12, no.9.

@article{article, author={Neslihan Saruhan Guler Et Al. }, title={Increased dehydrin level decreases leaf rolling grade by altering the reactive oxygen species homeostasis and abscisic acid content in maize subjected to osmotic stress}, journal={3 BIOTECH}, year=2022}