Teacher Details

Tuli Dey

Institute of Bioinformatics Biotechnology IBB

tulidey@yahoo.com

Research Areas : Cancer biology, Tumor modelling, Biomaterials


Google Scholar Profile |

1)    Gayan, S., Chitnis, M., Kshirsagar, D., Dey, T. (2024). Natural Biomaterials: An essential element for In vitro disease modeling. In A. Basu(Eds.), Bioderived Materials: Harnessing Nature for Advanced Biochemical Handiwork (pp.95-123). Singapore: Bentham Science Publishers. ISBN: 9789815136869.
2)    Dey, T., Talukdar, S., Gayan, S., Kundu, S.C. (2024). Silk protein: an emerging biomaterial for tumor modeling. In S. C. Kundu(Eds.), Silk-Based Biomaterials for Tissue Engineering, Regenerative and Precision Medicine (pp.629-652). United States of America: Elsevier. ISBN: 9780323960168.
3)    Teli, A., Kshirsagar, D., Doshi, S., Dey, T. (2022). Role of Macrophages in Oxidative Stress Induced Inflammatory Tumor Microenvironment. In S. Chakraborti(Ed.) , Handbook of Oxidative Stress in Cancer: Mechanistic Aspects (pp.975-990). Singapore: Springer. ISBN: 9789811545016.
4)    Gayan S., Ghuge P.S., Chitnis M.S., Dey T. (2022). Oxidative Stress in Cancer and Its Influence on Amoeboidal Migration. In S. Chakraborti(Ed.), Handbook of Oxidative Stress in Cancer: Mechanistic Aspects (pp.1203-1216). Singapore: Springer. ISBN: 9789811594113.
5)    Gayan, S., Doshi, S., Dey, T. (2022). Synthetic Migrastatic: A New Class of Anticancer Drug. In S. Chakraborti(Ed.), Handbook of Oxidative Stress in Cancer: Therapeutic Aspects (pp.1-24). Singapore: Springer. ISBN: 9789811612473.
6)    Teli, A., Gaikwad, P., Chakave, S., Kane, A., Dey, T. (2022). Nanomedicines for Tumor-Associated Macrophages. In S. Chakraborti(Ed.), Handbook of Oxidative Stress in Cancer: Therapeutic Aspects (pp.1-24). Singapore: Springer. ISBN: 9789811612473.
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