S. Gumrukcu Simsek Et Al. , "Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize," Russian Journal of Plant Physiology , vol.71, no.3, 2024
Gumrukcu Simsek, S. Et Al. 2024. Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize. Russian Journal of Plant Physiology , vol.71, no.3 .
Gumrukcu Simsek, S., TERZİ, R., & Guler, N. S., (2024). Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize. Russian Journal of Plant Physiology , vol.71, no.3.
Gumrukcu Simsek, S.D., RABİYE TERZİ, And N. Saruhan Guler. "Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize," Russian Journal of Plant Physiology , vol.71, no.3, 2024
Gumrukcu Simsek, S.D. G. Et Al. "Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize." Russian Journal of Plant Physiology , vol.71, no.3, 2024
Gumrukcu Simsek, S. TERZİ, R. And Guler, N. S. (2024) . "Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize." Russian Journal of Plant Physiology , vol.71, no.3.
@article{article, author={S.D. Gumrukcu Simsek Et Al. }, title={Lipoic Acid Can Maintain Stimulation of the Antioxidant System at Lower Reactive Oxygen Species, Ascorbate and Glutathione Levels in Osmotic Stressed Maize}, journal={Russian Journal of Plant Physiology}, year=2024}