焦志远
焦志远,博士,汉族,山东日照人,现任林木遗传育种学科讲师,
2021年毕业于中国农业大学,随后继续在中国农业大学从事博士后研究,
2023年7月加入KB电竞官网-(中国)有限公司林木遗传育种学科,现承担
林木遗传育种(必修)实验课程,林木遗传育种(实习)课程。
Email:jiaozhiyuan.2009@163.com;jiaozhiyuan2023@bjfu.edu.cn
研究方向
针叶树遗传改良;油松抗松材线虫的分子机制研究
学习工作经历
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
承担项目
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。
奖励
北京市优秀毕业生
代表性学术论文
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.
