Zand, A.; Enkhbilguun, S.; Macharia, J.M.; Varajti, K.; Szabó, I.; Gerencsér, G.; Tisza, B.B.; Raposa, B.L.; Gyöngyi, Z.; Varjas, T.
Betanin Attenuates Epigenetic Mechanisms and UV-Induced DNA Fragmentation in HaCaT Cells: Implications for Skin Cancer Chemoprevention. Nutrients 2024, 16, 860.
https://doi.org/10.3390/nu16060860
AMA Style
Zand A, Enkhbilguun S, Macharia JM, Varajti K, Szabó I, Gerencsér G, Tisza BB, Raposa BL, Gyöngyi Z, Varjas T.
Betanin Attenuates Epigenetic Mechanisms and UV-Induced DNA Fragmentation in HaCaT Cells: Implications for Skin Cancer Chemoprevention. Nutrients. 2024; 16(6):860.
https://doi.org/10.3390/nu16060860
Chicago/Turabian Style
Zand, Afshin, Sodbuyan Enkhbilguun, John M. Macharia, Krisztina Varajti, Istvan Szabó, Gellért Gerencsér, Boglárka Bernadett Tisza, Bence L. Raposa, Zoltán Gyöngyi, and Timea Varjas.
2024. "Betanin Attenuates Epigenetic Mechanisms and UV-Induced DNA Fragmentation in HaCaT Cells: Implications for Skin Cancer Chemoprevention" Nutrients 16, no. 6: 860.
https://doi.org/10.3390/nu16060860
APA Style
Zand, A., Enkhbilguun, S., Macharia, J. M., Varajti, K., Szabó, I., Gerencsér, G., Tisza, B. B., Raposa, B. L., Gyöngyi, Z., & Varjas, T.
(2024). Betanin Attenuates Epigenetic Mechanisms and UV-Induced DNA Fragmentation in HaCaT Cells: Implications for Skin Cancer Chemoprevention. Nutrients, 16(6), 860.
https://doi.org/10.3390/nu16060860
