一、个人简介

邹婧，中国农业大学学士、博士，福建农林大学遗传改良研究中心副教授。本科阶段获得文化活动优秀奖学金、校级“优秀团员”、校级优秀毕业生；博士阶段获得院长特设奖学金、博士一等、二等学业奖学金。

邮箱：15901400407@163.com

二、主要研究领域

水稻抗病毒及病毒致病机制研究

三、项目经验

1.国家重点研发计划项目( 2019YFD1000404 )

重要花卉种质资源精准评价与基因发掘

2.国家自然科学基金项目(31872147)

月季细胞壁相关类受体激酶RhWAKL s介导失水胁迫诱导花朵早衰的机制解析

3.中国农业大学博士生创新项目

四、发表论文情况

1. J. Zou#, S. Zhang#, Y. Chen, C. He, X. Pan, Y. Zhang, J. Xu, L. Zheng, H. Guan, M. Wu, D. Xie, Y. Ji, X. Fang, Y. Li, S. Ding, X. Fang, S. Zhao, J. Wu, A plant bunyaviral protein disrupts SERRATE phase separation to modulate microRNA biogenesis during viral pathogenesis, Nat Commun 16: 6197 (2025) (Nature子刊, IF=15.7).

2. J. Zou#; B. Zhang#; J. Cao#; X. Zhang; Z. Zhang; S.Zhang; J. Wu. Phase separation at the frontline of plant - pathogen battles. Plant Commun (中科院1区, IF=11.6).

3. J. Zou#, P. Lü#, L. Jiang, K. Liu, T. Zhang, J. Chen, Y. Yao, Y. Cui, J. Gao, C. Zhang, Regulation of rose petal dehydration tolerance and senescence by RhNAP transcription factor via the modulation of cytokinin catabolism. Mol Horti 1: 13 (2021)（JCR Q1区, IF=8.1）.

4. B. Zhang#; J. Zou#; B. Ma#; C. Dong#; X. Zhang; N. Li; X. Duan; R. Liu; S. Zhao; S. Zhang; J. Wu, A Viral Strategy to Hijack the miR156 - SPL - ICS1 Module Suppresses Salicylic Acid - Based Immunity in Rice. J Integr Plant Biol（中科院1区，IF=9.3）.

5. P. Gan#; X. Yu#; J. Zou#; C. Li; Z. Yao; Y. Ye; S. Xiong; X. Zhu; Z. Zhu; J. Zhang; J. Hu; J. Li; J. Wu; S. Zhang. Evolution and Functional Adaptation of Phytoplasm Effectors: A Potential Mobile Unit - Driven Perspective. Plant Cell Envion（中科院1区，IF=6.3）.

6. P. Gan#; H. Xie#; C. Li#; J. Zou#; Z. Yao; Z. Zhu; C. Dong; M, Wu; S. Zhao; J. Zhang; J. Hu; S. Zhang; J. Wu, Phloem - Spectrum Antiviral Resistance in Elite Rice Cultivars. Plant Physiol（中科院1区，IF=6.8）.

7. J. Huang, Y. Chen, X. Zhu, C. Li, H. Hu, J. Zhang, J. Hu, S. Zhao, S. Zhang, Q. Hu*, J. Wu*, J. Zou*; Viral Detection in Phalaenopsis Orchids Using High-Throughput Sequencing and One-step Multiplex RT-PCR, Plant Dis 10.1094/PDIS-11-24-2417-SC (2025) （JCR Q1区, IF=4.5）.

8. Y. Fan; J. Liu; J. Zou; X. Zhang; L. Jiang; K. Liu; P. Lü; J. Gao; C. Zhang, The RhHB1/RhLOX4 module affects the dehydration tolerance of rose flowers (Rosa hybrida) by fine-tuning jasmonic acid levels. Hortic Res 7: 74 (2020).

9. J. Liu; Y. Fan; J. Zou; Y. Fang; L. Wang; M. Wang; X. Jiang; Y. Liu; J. Gao; C. Zhang, A RhABF2/Ferritin module affects rose (Rosa hybrida) petal dehydration tolerance and senescence by modulating iron levels, Plant J 92: 1157–1169 (2017).