吴庆钰

吴庆钰，男，博士，研究员，博士生导师，土壤植物互作团队。主要从事作物高产与养分高效利用研究。近年来，主持国家自然科学基金项目2项，重点研发项目子课题1项，转基因重大专项子课题1项。研究成果以第一或通讯作者发表在Nature, PNAS, Trends in Plant Science等知名期刊。中国农业科学院“农科英才“优秀青年英才，获人社部高层次留学回国人才资助，担任全国农业转基因生物安全管理标准化技术委员会委员，中国植物营养与肥料学会植物营养分子生理专业委员会委员，Physiologia Plantarum, Frontiers in Plant Science副主编。

【教育经历 】

2008 – 2012  美国堪萨斯州立大学，博士

2005 – 2008  中国农业科学院，硕士

2001 – 2005  东北农业大学，学士

【工作履历】

2019 – 至今 中国农业科学院农业资源与农业区划研究所，研究员，博导

2023 – 2025 国家自然科学基金委员会，流动项目主任

2012 – 2018美国冷泉港实验室，博士后

【承担项目】

2023-2027 “耕地磷库的高效活化释放和循环利用调控”，中国农业科学院科技创新工程科学中心重点任务，子课题主持；

2022-2025 “hlEW2b调控玉米杂种优势形成的分子机制解析及应用”，国家自然科学基金区域创新发展联合基金重点支持项目（U21A20210），子课题主持；

2022-2025 “水稻、小麦养分高效利用性状形成的分子调控网络”，国家重点研发计划(2021YFF1000400)，子课题主持；

2022– 2025 “玉米G蛋白调控花序发育与自主免疫的机制研究”，国家自然科学基金面上项目（32171925），主持；

2021– 2025 中国农业科学院创新工程青年英才院级启动经费(G202114-5)，主持；

2019 – 2020 “作物农艺性状调控回路设计（2019ZX08010-004）”，国家科技重大专项——转基因生物新品种培育，子课题主持；

2017 – 2019 “番茄Ca²⁺/H⁺转运蛋白对钙离子分配与转运的调控机制及对生理失调的影响（31601822）”，国家自然科学基金青年项目，主持。

【获得奖励】

2023 人社部海外高层次留学人才回国资助计划

2019 中国农业科学院农业资源与农业区划研究所科技标兵

2019  中国农业科学院青年英才计划

【代表论文与著作】

# 通讯作者, * 共同第一作者

2025

25. Meng S, Zhang G, Wu Q#. 2025 Report both positive and negative effects of gene changes on crops. Nature 638: 39

24. Tai Y*, Meng S*, Zhang Y*, Weng J, Li X, Wu Q#. 2025 Molecular pharming in maize endosperm: A proof of concept with recombinant SARS-CoV-2 antigen production. Plant Biotechnology Journal doi.org/10.1111/pbi.70209

23. Meng S, Yang S, Wu Q#. 2025 TASSELSHEATH4: A familiar player in maize development joins the domestication club. New Crops 2: 100068

2024

22. Zhou S, Zhou J, Pan Y, Wu Q#, Ping J#. 2024 Wearable electrochemical sensors for plant small-molecule detection. Trends in Plant Science 29: 219-231.

21. Nie Y*, Wang H*, Zhang G*, Ding H*, …Wu Q#, Zhang Z#. 2024. The maize PLASTID TERMINAL OXIDASE(PTOX) locus controls the carotenoid content of kernels. Plant Journal 118:457-468

2023

20. Zhang G, Wu Q#. 2023 Crop yields: speed up delivery of promising genes. Nature 623: 32.

2022

19. Xiao B*, Li P*, Wu Q#. 2022 Weak allele versus null allele: which one to select? Trends in Genetics 38: 989-990

18. Han B*, Tai Y*, Li S*, Shi J, Wu X, Kakeshpour T, Weng J, Cheng X, Park S, Wu Q#. Redefining the N-Terminal Regulatory Region of the Ca²⁺/H⁺ Antiporter CAX1 in Tomato. Frontiers in Plant Science 13:938839

17. Li S*, Meng S*, Weng J*, Wu Q#. 2022 Fine-tuning shoot meristem size to feed the world. Trends in Plant Science 27(4):355-363.

16. Xue Q*, Guo R*, Wen Y*, Wang L, Cheng X, Liu G#, Wu Q#. 2022 Development of a fluorescence-based DNAzyme biosensor to detect Pb²⁺ in tobacco leaf extracts for cleaner crop production. Journal of Cleaner Production 362:132544.

15. Wu Q#, Schmidt W#, Aalen R#, Xu C#, Takahashi F#. 2022 Editorial: Peptide Signaling in Plants. Frontiers in Plant Science 13: 843918

14. Sprague S, Tamang T, Steiner T, Wu Q,……Park S. 2022 Redox-engineering enhances maize thermotolerance and grain yield in the field. Plant Biotechnology Journal 20: 1819-1832

2021

13. Kakeshpour T, Tamang TM, Motolai G, Fleming ZW, Pakr J, Wu Q, Park S^#. 2021 CGFS-type glutaredoxin mutations reduce tolerance to multiple abiotic stresses in tomato. Physiologia Plantarum 173(3):1263-1279.

12. Nie S*, Wang B*, Ding H*, Lin H*, Zhang L*, Li Q*…. Wu Q^#, Xu F^#, Zhang Z^#. 2021 Genome assembly of the Chinese maize elite inbred line RP125 and its EMS mutant collection provide new resources for maize genetics research and crop improvement. Plant Journal 108(1): 40-54.

11. Liu L, Gallagher J, Demesa Arevalo E, Chen R, Skopelitis T, Wu Q, Bartlett M, Jackson D. 2021 Enhancing grain-yield-related traits by CRISPR–Cas9 promoter editing of maize CLE genes. Nature Plants 7: 287-294.

10. 薛琴琴，韩贝贝，吴雪晴，李沛，李莹莹，吴庆钰^#. 2021 纳米材料在农作物领域的应用及展望. 生物技术进展 10(6): 655-660.

2020

9. Wu Q*, Xu F*, Liu L, Char SN, Ding Y, Schmelz EA, Yang B, Jackson D. 2020 The maize heterotrimeric G-protein b subunit controls shoot meristem development and immune response. PNAS 117: 1799-1805.

8. Huang S, Xin S, Xie G, Han J, Liu Z, Wang B, Zhang S, Wu Q, Cheng X. 2020 Mutagenesis reveals that the rice OsMPT3 gene is an important osmotic regulatory factor. The Crop Journal 8(3):465-479.

7. Guo Z, Ruan W, Wu Q, Lyu Y, Yi K. 2020 Vacuolar phosphate transporters account for variation in phosphate accumulation in Astragalus sinicus cultivars. The Crop Journal 9(1): 227-237.

6. Kim S, Karre S, Wu Q, Park M, Meyers E, Claeys H, Wisser R, Jackson D, Balint-Kurti P. 2020 Multiple insertions of COIN, a novel maize Foldback transposable element, in the Conring gene cause a spontaneous progressive cell death phenotype. Plant Journal 104(3): 581-595

2019

5. Kang BC*, Wu Q*, Sprague S, Park S, White F, Bae S, Han J. 2019 Ectopic Overexpression of an ArabidopsisMonothiol Glutaredoxin AtGRXS17 Affects Floral Development and Improves Response to Heat Stress in Chrysanthemum (Chrysanthemum morifolium Ramat.). Environmental and Experimental Botany 167:103864.20184. Wu Q*, Xu F*, Jackson D. 2018 All together now, a magical mystery tour of the maize shoot meristem. Current Opinion in Plant Biology 45:26-35 3. Wu Q, Regan M, Furukawa H, Jackson D. 2018 Role of heterotrimeric Gaproteins in maize development and enhancement of agronomic traits. PLoS Genetics14(4): e1007374 2. Wu Q, Jackson D. (2018) Detection of MAPK3/6 phosphorylation during hypersensitive response (HR)-associated programmed cell death in plants. Methods in Molecular Biology 1743: 153-161 1. Je B, Xu F,Wu Q, Liu L, Meeley R, Jackson D. (2018) The CLAVATA receptor FASCIATED EAR2 responds to different CLE peptides by signaling through different downstream effectors. Elife 7:e35673 

【联系方式】

邮箱：wuqingyu@caas.cn