NRF1 or NRF2: Emerging Role of Redox Homeostasis on PERK/NRF/Autophagy Mediated Antioxidant in Tumor and Patient Dependent Chemo Sensitivity
How to cite: Dastghaib, S.; Shafiee, S. M.; Ramezani, F.; Ashtari, N.; Tabasi, F.; Saffari-Chaleshtori, J.; Vakili, O.; Siri, M.; Igder, S.; Zamani, M.; Moballegh Nasery, M.; Kokabi, F.; Wiechec, E.; Mostafavi-Pour, Z.; Mokarram, P.; Ghavami, S. NRF1 or NRF2: Emerging Role of Redox Homeostasis on PERK/NRF/Autophagy Mediated Antioxidant in Tumor and Patient Dependent Chemo Sensitivity. Preprints 2024, 2024010079. https://doi.org/10.20944/preprints202401.0079.v1 Dastghaib, S.; Shafiee, S. M.; Ramezani, F.; Ashtari, N.; Tabasi, F.; Saffari-Chaleshtori, J.; Vakili, O.; Siri, M.; Igder, S.; Zamani, M.; Moballegh Nasery, M.; Kokabi, F.; Wiechec, E.; Mostafavi-Pour, Z.; Mokarram, P.; Ghavami, S. NRF1 or NRF2: Emerging Role of Redox Homeostasis on PERK/NRF/Autophagy Mediated Antioxidant in Tumor and Patient Dependent Chemo Sensitivity. Preprints 2024, 2024010079. https://doi.org/10.20944/preprints202401.0079.v1
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