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研究领域：

        主要从事农作物种子科学与技术研究，重点围绕种子发育、休眠、萌发、耐逆、种子生产和处理等内容，开展种子活力的理论和技术研究。

教育经历：

        2009年 - 2013年  石河子大学农学院 学士

        2013年 - 2018年  南京农业大学农学院 博士

工作经历：

        2018年 - 2020年  华南农业大学农学院 博士后 

        2020年 - 2022年   华南农业大学农学院 首聘副教授

        2023年-至今             华南农业大学农学院副教授

学术服务：

《华南农业大学学报》青年编委

 Plant Hormones 青年编委

论文著作：

I. 代表性论文

1. Huang Z^#, He Y^#, Li W, Liu L, Wu Z, Peng L, Sun S, Zhao J, Huang Z, Zhao J, Wang Z. Feedback transcription regulation between OsNAC3 and OsDREB1A promotes postgermination growth in rice. Science Advances, 2025, 11, eadw0421.

2. Huang C^#, Zhao J^#, Huang Q, Peng L, Huang Z, Li W, Sun S, He Y*, Wang Z*. OsNAC3 regulates seed germination involving abscisic acid pathway and cell elongation in rice. New Phytol, 2024, 241: 650–664

3. Zhao J^#, Shao J^#, Zeng Z, Li Z, Sun S, Peng L, Huang Z, Wang Z*, He Y*Knocking out isopropylmalate synthase simultaneously improves grain appearance and nutritional quality in rice, Plant J, 2024, 120: 159-173

4. Sun S^#, Peng L^#, Huang Q^#, Huang Z, Wang C, Zhao J, Wang Z, He Y*.Genome-wide association study reveals that JASMONATE ZIM-DOMAIN 5 regulates seed germination in rice. Crop J, 2024, 12: 1001-1009

5. He Y^#, Zhao J^#, Wang Z. Rice seed germination priming by salicylic acid and the emerging role of phytohormones in anaerobic germination. Journal of Integrative Plant Biology, 2024, 66(8): 1537-1539.

6. He Y^#, Sun S^#, Zhao J, Huang Z, Peng L, Huang C, Tang Z, Huang Q, Wang Z*. UDP-glucosyltransferase OsUGT75A promotes submergence tolerance during rice seed germination. Nature Commun, 2023, 14: 2296

7. Peng L^#, Sun S^#, Yang B, Zhao J, Li W, Huang Z, Li Z, He Y*, Wang Z*. A genome-wide association study reveals that the cupin domain protein OsCDP3.10 regulates seed vigour in rice. Plant Biotech J, 2022, 20:485–498

8. Li W^#, Yang B^#, Xu J, Peng L, Sun S, Huang Z, Jiang X, He Y*, Wang Z*. A genome-wide association study reveals that the 2-oxoglutarate/malate translocator mediates seed vigor in rice. Plant J, 2021,108: 478–491

9. He Y^#, Zhao J^#, Yang B, Sun S, Peng L, Wang Z*. Indole-3-acetate beta-glucosyltransferase OsIAGLU regulates seed vigour through mediating crosstalk between auxin and abscisic acid in rice. Plant Biotech J, 2020, 18: 1933−1945

10. He Y^#, Cheng J^#, He Y, Yang B, Cheng Y, Yang C, Zhang H*, Wang Z*. Influence of isopropylmalate synthase OsIPMS1 on seed vigour associated with amino acid and energy metabolism in rice. Plant Biotech J, 2019, 17: 322–337

11. He Y, Yang B, He Y, Zhan C, Cheng Y, Zhang J, Zhang H, Cheng J*, Wang Z*. A quantitative trait locus, qSE3, promotes seed germination and seedling establishment under salinity stress in rice. Plant J, 2019, 97: 1089−1104【高被引论文】

II. 第一作者/通讯（含共同）文章

1. Zhao J^#, He Y^#, Wang Z*. Advances in the molecular regulation of seed germination in plants. Seed Biology, 2024, 3: e006.

2. Zhao X^#, He Y^#, Yuxin Liu, Wang Z,Zhao J. JAZ proteins: Key regulators of plant growth and stress response. The Crop Journal, 2024, 12: 1505-1516.

3. Zhao J, Liu S, Zhao X, Huang Z, Sun S, Zeng Z, He Y*, Wang Z*. Rice gene OsUGT75A regulates seedling emergence under deep-sowing conditions. Crop J, 2024, 12: 133-141.

4. Sun S^#, Li W^#, Fang Y, Huang Q, Huang Z, Wang C, Zhao J, He Y*, Wang Z*. Small auxin-up RNA gene OsSAUR33 promotes seed aging tolerance in rice. J Integr Agr, 2025,24(1): 61-71

5. Huang C^#, Ji Z^#, Huang Q, Peng L, Li W, Wang D, Wu Z, Zhao J, He Y*, Wang Z*. Natural variation in the cytochrome c oxidase subunit 5B OsCOX5B regulates seed vigor by altering energy production in rice. J Integr Agr, 2024, 23(9): 2898-2910.

6. Huang Z^#, Ying J^#, Peng L, Sun S, Huang C, Li C, Wang Z*, He Y*. A genome-wide association study reveals that the cytochrome b5 involved in seed reserve mobilization during seed germination in rice. Theor Appl Genet, 2021, 134: 4067–407

7. Zhao J^#, Yang B^#, Li W, Sun S, Peng L, Feng D, Li L, Di H, He Y*, Wang Z*. A genome-wide association study reveals that the glucosyltransferase OsIAGLU regulates root growth in rice. J Exp Bot, 2021, 72: 1119–1134

8. Zhao J^#, He Y^#, Huang S, Wang Z*. Advances in the identification of quantitative trait loci and genes involved in seed vigor in rice. Front Plant Sci, 2021, 12: 659307

9. Zhao J^#, Li W^#, Sun S, Peng L, Huang Z, He Y*, Wang Z*. The rice small auxin-up RNA gene OsSAUR33 regulates seed vigor via sugar pathway during early seed germination. Int J Mol Sci, 2021, 22: 1562

10. He Y^#, Zhao J^#, Feng D, Huang Z, Liang J, Zheng Y, Cheng J, Ying J*, Wang Z*. RNA-Seq study reveals AP2-domain-containing signalling regulators involved in the initial imbibition of seed germination in rice. Rice Sci, 2020, 27: 1−9

11. Zhao J^#, He Y^#, Li X, Weng X, Feng D, Ying J*, Wang Z*. An integrated RNA-Seq and physiological study reveals gene responses involving in the initial imbibition of seed germination in rice. Plant Growth Regul, 2020, 90: 249–263

12. Cheng J^#, He Y^#, Zhan C, Yang B, Xu E, Zhang H*, Wang Z*. Identification and characterization of QTL for shattering in japonica rice landrace Jiucaiqing from Taihu Lake valley in China. Plant Genome, 2016, 9: 1–9

13. He Y^#, Cheng J^#, Li X, Zeng P, Zhang H*, Wang Z*. Acquisition of desiccation tolerance during seed development is associated with oxidative processes in rice. Botany, 2016, 94: 901–101

14. Cheng J^#, He Y^#, Yang B, Lai Y, Wang Z*, Zhang H*. Association mapping of seed germination and seedling growth at three conditions in indica rice (Oryza sativa L.). Euphytica, 2015, 206: 103–105

15. He YQ^#, Cheng JP^#, Liu LF, Li XD, Yang B, Zhang HS*, Wang ZF*. Effects of pre-harvest chemical application on rice desiccation and seed quality. J Zhejiang Univ Sci B, 2015, 16: 813–823

编写教材：

1. 副主编，《种子加工贮藏与检验实验教程（第2版）》，科学出版社，2023

2. 参编，《种子学（第三版）》，科学出版社，2021

授权专利：

1.  水稻强耐盐高活力基因qSE3的分子标记及其应用，ZL2016108635435

2.  一种水稻种子引发方法，ZL201810477684.2

3.  水稻生长素糖基转移酶基因的应用，ZL201910954271.3

4. 水稻生长素糖基转移酶基因在培育耐淹水稻品种中的应用，ZL202011389564.0

5.  水稻三磷酸肌醇激酶基因的应用，ZL202210511750.X

6.  水稻OsJAZ5基因的应用，ZL 202310551736.7

主持科研项目情况：

1. 国家自然科学基金-面上项目（32272157）

2. 国家自然科学基金-青年基金（31901601）

3. 全国重点实验室开放课题（ZW202401）

4. 广东省自然科学基金-面上项目（2023A1515012092）

5. 广州市科技计划项目（2023A04J1452）

6. 中国博士后科学基金（2019M650203）