已发表的学术论文：

1. Geng F, Chen J, Yang T, Tang Z, Song B, Yan T, Liu Y, Sun C, Tan L, Yu D, Cao J, Zhang S*. Chaperone- and PTM-mediated activation of IRF1 tames radiation-induced cell death and inflammation response. Cell Mol Immunol. 2024;21(8):856-872. （IF=21.8）

2. Tao Yan, Ping Yang, Hao Bai, Bin Song, Yulan Liu, Jiajia Wang, Yuehua Zhang, Tu W*, Yu D*, Zhang S*. Single-cell RNA-Seq analysis of molecular changes during radiation-induced skin injury: the radioprotective role of Nur77. Theranostics 2024; 14(15):5809-5825.

3. Yang T, Geng F, Tang X, Yu Z, Liu Y, Song B, Tang Z, Wang B, Ye B, Yu D, Zhang S*. UV radiation-induced peptides in frog skin confer protection against cutaneous photodamage through suppressing MAPK signaling. MedComm (2020). 2024 Jun 25;5(7):e625.

4. Feng Y^#, Feng Y, Gu L, Mo W, Wang X, Song B, Hong M, Geng F, Huang P, Zhu W, Jiao Y, Zhang Q, Ding WQ, Cao J*, Zhang S*. Tetrahydrobiopterin metabolism attenuates ROS generation and radiosensitivity through LDHA S-nitrosylation: novel insight into radiogenic lung injury. Exp Mol Med. 2024;56(5):1107-1122.

5. Geng F^#, Zhong L^#, Yang T^#, Chen J, Yang P, Jiang F, Yan T, Song B, Yu Z, Yu D. Zhang J*, Cao J*, Zhang S*. A frog skin-derived peptide targeting SCD1 exerts radioprotective effects against skin injury by inhibiting STING-mediated inflammation. Adv Sci. 2024, 2306235. （封面论文）

6. Tang X, Yang T, Yu D, Xiong H*, Zhang S*, Current insights and future perspectives of ultraviolet radiation (UV) exposure: Friends and foes to the skin and beyond the skin. Environment Int. 2024;185:108535.

7. Song B, Yang P, Zhang S*. Cell fate regulation governed by p53: Friends or reversible foes in cancer therapy. Cancer Commun (Lond). 2024;44(3):297-360. （IF=20.1；封面论文）

8. Yu Z, Xu C, Song B, Zhang S, Chen C, Li C*, Zhang S*. Tissue fibrosis induced by radiotherapy: current understanding of the molecular mechanisms, diagnosis and therapeutic advances. J Transl Med. 2023;21(1):708.

9. Liu P, Yu D, Sheng W, Geng F, Zhang J*, Zhang S*. PPARα activation by fenofibrate ameliorates radiation‐induced skin injury. J Eur Acad Dermatol Venereol. 2022;36(3):e207-e210.

10. Jiao Y, Xu J, Song B, Wu A, Pan L, Xu Y, Geng F, Li X, Zhao C, Hong M, Meng X, Luo J, Liu P, Li M, Zhu W, Cao J*, Zhang S*. Interferon regulatory factor 1-triggered free ubiquitin protects the intestines against radiation-induced injury via CXCR4/FGF2 signaling. MedComm. 2022;3(3):e168.

11. Geng F, Chen J, Tang S, Azzam EI, Zhang J*, Zhang S*. Additional Evidence for Commonalities between COVID-19 and Radiation Injury: Novel Insight into COVID-19 Candidate Drugs. Radiat Res. 2022;198(3):306-317.

12. Qiu Y, Gao Y, Yu D, Zhong L, Cai W, Ji J, Geng F, Tang G, Zhang H, Cao J, Zhang J*, Zhang S*. Genome-wide analysis reveals zinc transporter ZIP9 regulated by DNA methylation promotes radiation-induced skin fibrosis via the TGF-β signaling pathway. J Invest Dermatol. 2020;140:94-102.

13. Xue J, Zhu W, Song J, Jiao Y, Luo J, Yu C, Zhou J, Wu J, Chen M, Ding WQ, Cao J*, Zhang S*. Activation of PPARα by clofibrate sensitizes pancreatic cancer cells to radiation through the Wnt/β-catenin pathway. Oncogene. 2018;37(7):953-962.

14. Xue J, Yu C, Sheng W, Zhu W, Luo J, Zhang Q, Yang H, Cao H, Wang W, Zhou J, Wu J, Cao P, Chen M, Ding WQ, Cao J*, Zhang S*. The Nrf2/GCH1/BH4 axis ameliorates radiation-induced skin injury by modulating the ROS cascade. J Invest Dermatol. 2017;137(10):2059–2068.  

15. Wang W, Luo J, Sheng W, Xue J, Li M, Ji J, Liu P, Zhang X, Cao J, Zhang S*. Proteomic profiling of radiation-induced skin fibrosis in rats: targeting the ubiquitin-proteasome system. Int J Radiat Oncol*Biol*Phys. 2016;95(2):751-60.