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Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress
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Y. Yeni Et Al. , "Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress," Molecular Biology Reports , vol.50, no.5, pp.3999-4009, 2023

Yeni, Y. Et Al. 2023. Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress. Molecular Biology Reports , vol.50, no.5 , 3999-4009.

Yeni, Y., TAGHIZADEHGHALEHJOUGHI, A., GENÇ, S., HACIMÜFTÜOĞLU, A., YILDIRIM, S., & BOLAT, İ., (2023). Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress. Molecular Biology Reports , vol.50, no.5, 3999-4009.

Yeni, Yesim Et Al. "Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress," Molecular Biology Reports , vol.50, no.5, 3999-4009, 2023

Yeni, Yesim Et Al. "Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress." Molecular Biology Reports , vol.50, no.5, pp.3999-4009, 2023

Yeni, Y. Et Al. (2023) . "Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress." Molecular Biology Reports , vol.50, no.5, pp.3999-4009.

@article{article, author={Yesim Yeni Et Al. }, title={Glioblastoma cell-derived exosomes induce cell death and oxidative stress in primary cultures of olfactory neurons. Role of redox stress}, journal={Molecular Biology Reports}, year=2023, pages={3999-4009} }