2023.07 至今 北京林业大学，林木遗传育种学科，讲师；

2021.07-2023.07 中国农业大学，博士后；

2014.09-2021.06 中国农业大学，植物病理学专业（硕博连读），农学博士；

2010.09-2014.06 山东农业大学，植物保护专业，农学学士

抗旱高产油松优良单株选择与示范推广，“科技创新2030”重大项目子课题，2023-2025，主持；

油松抗旱高产关键基因聚合及新种质创制，“科技创新2030”重大项目子课题，2023-2025，参加；

玉米LOL3蛋白在甘蔗花叶病毒侵染中的功能解析，中国博士后科学基金面上项目，2022-2023，主持；

粮食主产区主要病虫草害统防统治策略和技术规程，国家重点研发项目子课题，2016-2020，参加；

玉米AKINβγ蛋白在水稻黑条矮缩病毒侵染过程中的作用研究，国家自然科学基金面上项目，2016-2019， 参加。

Jiao, Z.Y., Tian, Y.Y., Cao, Y.Y., Wang, J., Zhan, B.H., Zhao, Z.X., Sun, B., Guo, C., Ma, W.D., Liao, Z.F., Zhang, H.M., Zhou, T., Xia, Y.J., and Fan, Z.F.* (2021). A novel pathogenicity determinant hijacks maize catalase 1 to enhance viral multiplication and infection. New Phytologist 230, 1126-1141.

Jiao, Z.Y., Wang, J., Tian, Y.Y., Wang, S.Y., Sun, X., Li, S.Q., Ma, W.D., Zhou, T., and Fan, Z.F.* (2021). Maize catalases localized in peroxisomes support the replication of maize chlorotic mottle virus. Phytopathology Research 3, 1-11.

Jiao, Z.Y., Tian, Y.Y., Wang, J., Ismail, R.G., Bondok, A., and Fan, Z.F.* (2022). Advances in research on maize lethal necrosis, a devastating viral disease. Phytopathology Research 4, 14.

Tian, Y.Y., Jiao, Z.Y., Qi F.F., Ma, W.D., Hao Y.M., Wang X.Y., Xie L.Y., Zhou, T., and Fan, Z.F.* (2024) Maize catalases are recruited by a virus to modulate viral multiplication and infection. Molecular Plant Pathology, doi: 10.1111/ mpp.13440

Duan, X., Ma, W.D., Jiao, Z.Y., Tian, Y.Y., Ismail, R.G., Zhou, T., and Fan, Z.F.* (2022). Reverse transcription-recombinase-aided amplification and CRISPR/Cas12a-based visual detection of maize chlorotic mottle virus. Phytopathology Research 4, 1-8.

Lei, R., Kuang, R.R., Peng, X., Jiao, Z.Y., Zhao, Z.X., Cong, H., Fan, Z.F.,* and Zhang, Y.J.* (2023). Portable rapid detection of maize chlorotic mottle virus using RT-RAA/CRISPR- Cas12a based lateral flow assay. Frontiers in Plant Science 14, 753.

Ma, W.D., Duan, X.Y., Tian, Y.Y., Jiao, Z.Y., Sun, X., Zhao, Z.X., Zhou, T., and Fan, Z.F.* (2022). Recombinase polymerase amplification assay for sensitive and rapid detection of southern rice black-streaked dwarf virus in plants. Journal of Virological Methods 301, 114467.

Xia, Z.H.^#*, Zhao, Z.X.^#, Gao, X.R., Jiao, Z.Y., Wu, Y.H., Zhou, T., and Fan, Z.F.* (2019). Characterization of maize miRNAs in response to synergistic infection of maize chlorotic mottle virus and sugarcane mosaic virus. International Journal of Molecular Science 20, 3146.

Xia, Z.H.*, Zhao, Z.X., Jiao, Z.Y., Xu, T.Z., Wu, Y.H., Zhou, T., and Fan, Z.F.* (2018a). Virus-derived small interfering RNAs affect the accumulations of viral and host transcripts in maize. Viruses 10, 664.

Xia, Z.H.^#, Zhao, Z.X.^#, Li, M.J., Chen, L., Jiao, Z.Y., Wu, Y.H., Zhou, T., Yu, W.C., and Fan, Z.F.* (2018b). Identification of miRNAs and their targets in maize in response to sugarcane mosaic virus infection. Plant Physiology and Biochemistry 125, 143-152.

Chen, L., Yan, Z.L., Xia, Z.H., Cheng, Y.Q., Jiao, Z.Y., Sun, B., Zhou, T., and Fan, Z.F.* (2017b). A violaxanthin de-epoxidase interacts with a viral suppressor of RNA silencing to inhibit virus amplification. Plant Physiology 175, 1774-1794.

Chen, L., Jiao, Z.Y., Liu, D.M., Liu, X.L., Xia, Z.H., Deng, C.L., Zhou, T., and Fan, Z.F.* (2017a). One-step reverse transcription loop-mediated isothermal amplification for the detection of maize chlorotic mottle virus in maize. Journal of Virological Methods 240, 49-53.

田逸英，亓芳芳，焦志远，周涛，范在丰（2022）. 四种中国检疫性玉米病毒的研究进展. 植物保护学报 49，1299-1312.