唐文鑫 副教授未来技术学院（海峡联合学院、海峡联合研究院）

生长素信号与细胞分裂调控；植物机械信号转导；微生物与茶叶品质改良。

1、国家自然科学基金面上项目，32470377，项目名称：生长素和机械信号协同调控拟南芥下胚轴生长的分子机制研究，50万，2025.1-2028.12，主持

2、国家自然科学基金青年基金项目，31501138，项目名称：鸟苷酸交换因子RopGEFs调控叶表皮铺板细胞形态发生的分子机制，20万，2016.1-2018.12，主持，已结题

3、国家自然科学基金重点项目31230056 钙信号和活性氧调控棉花纤维伸长及品质形成机理研究，280万，2013.1-2017.12，已结题，参与

2024年

1、Xin W^#, Zhang J, Yu Y, Tian Y, Li H, Chen X, Li W, Liu Y, Lu T, He B, Xiong Y, Yang Z*, Xu T*, Tang W*. Root microbiota of tea plants regulate nitrogen homeostasis and theanine synthesis to influence tea quality. Curr Biol. 2024 Feb 2:S0960-9822(24)00079-4. （Cell 子刊，ESI高被引论文）

2、Tang W#, Xin W#, Xu T, Yang Z. Tea plant microorganisms in the improvement of tea quality. Trends Microbiol. 2024 Nov 8:S0966-842X(24)00265-8. （IF：14）

3、Zhang J#, Xin W, Zou Y, Yan J, Tang W*, Ji Y*, Li W*. Dynamic changes and correlation analysis of microorganisms and flavonoids/ amino acids during white tea storage. Food Chem. 2024 Oct 15;455:139932. （IF：8.5）

4、Tang W#, Yu Y#, Xu T*. The interplay between extracellular and intracellular auxin signaling in plants. J Genet Genomics. 2024 Jul 3:S1673-8527(24)00162-0.

5、Xu L, Fang N, Lu T, Tameshige T, Nakata MT, Jiang Y, Tan L, He H, Zhang X, Huang Y, Li C, Yang Z, Tang W*, Nagawa S*. WOX1 controls leaf serration development via temporally restricting BZR1 and CUC3 expression in Arabidopsis. J Exp Bot. 2024 Oct 30:erae443.

2023年

6、Yu Y^#, Tang W^#, Lin W^#, Li W^#, Zhou X^#, Li Y, Chen R, Zheng R, Qin G, Cao W, Pérez-Henríquez P, Huang R, Ma J, Qiu Q, Xu Z, Zou A, Lin J, Jiang L, Xu T*, Yang Z*. ABLs and TMKs are co-receptors for extracellular auxin. Cell. 2023 Dec 7;186(25):5457-5471.e17. （得到Cell Research, Nature plants, Science China Life Sciences，Chinese Bulletin of Botany杂志专文推荐点评）

7、Wang J#, Li X, Chen X, Tang W, Yu Z, Xu T, Tian H, Ding Z*. Dual regulations of cell cycle regulator DPa by auxin in Arabidopsis root distal stem cell maintenance. Proc Natl Acad Sci U S A. 2023 May 9;120(19):e2218503120.

2022年

8、Tang W#, Lin W, Zhou X, Guo J, Dang X, Li B, Lin D, Yang Z*. Mechano-transduction via the pectin-FERONIA complex activates ROP6 GTPase signaling in Arabidopsis pavement cell morphogenesis. Curr Biol. 2022 Feb 7;32(3):508-517.e3. （Cell 子刊，ESI高被引论文）

9、Lin W#, Tang W#, Pan X, Huang A, Gao X, Anderson CT, Yang Z*. Arabidopsis pavement cell morphogenesis requires FERONIA binding to pectin for activation of ROP GTPase signaling. Curr Biol. 2022 Feb 7;32(3):497-507.e4. （Cell 子刊，ESI高被引论文）

10、Rong D#, Zhao S#, Tang W, Luo N, He H, Wang Z, Ma H, Huang Y, Yao X, Pan X, Lv L, Xiao J, Liu R, Nagawa S, Yamamuro C*. ROP signaling regulates spatial pattern of cell division and specification of meristem notch. Proc Natl Acad Sci U S A. 2022 Nov 22;119(47):e2117803119.

11、Zhang C#, Lauster T, Tang W, Houbaert A, Zhu S, Eeckhout D, De Smet I, De Jaeger G, Jacobs TB, Xu T, Müller S, Russinova E*. ROPGAP-dependent interaction between brassinosteroid and ROP2-GTPase signaling controls pavement cell shape in Arabidopsis. Curr Biol. 2022 Feb 7;32(3):518-531.e6.

12、Tian Y#, Xin W, Lin J, Ma J, He J, Wang X, Xu T, Tang W*. Auxin Coordinates Achene and Receptacle Development During Fruit Initiation in Fragaria vesca. Front Plant Sci. 2022 Jul 7;13:929831.

13、 李彬琪, 闫佳慧, 李豪, 辛伟, 田云鹤, 杨贞标, 唐文鑫*. 黄瓜卷须缠绕过程中小G蛋白活性变化. 植物学报, 2022,57(3): 299-307.

2021年

14、Lin W#, Zhou X, Tang W, Takahashi K, Pan X, Dai J, Ren H, Zhu X, Pan S, Zheng H, Gray WM, Xu T, Kinoshita T, Yang Z*. TMK-based cell-surface auxin signalling activates cell-wall acidification. Nature. 2021 Nov;599(7884):278-282. （ESI高被引论文）

15、闫佳慧,李文强,戴瑞卿,宋时奎,张燕子,李志奇,唐文鑫*.台湾红藜EMS突变体库的构建与初步表型鉴定.分子植物育种:1-17 [2021-12-06]

2020年以前

16、Guo Kai＃; Du Xueqiong; Tu Lili; Tang Wenxin; Wang Pengcheng; Wang Maojun; Liu Zhen; Zhang Xianlong*; Fibre elongation requires normal redox homeostasis modulated by cytosolic ascorbate peroxidase in cotton (Gossypium hirsutum), Journal of Experimental Botany, 2016, 67(11): 3289-3301.

17、Tang, Wenxin＃; Tu, Lili; Yang, Xiyan; Tan, Jiafu; Deng, Fenglin; Hao, Juan; Guo, Kai; Lindsey, Keith; Zhang, Xianlong*; The calcium sensor GhCaM7 promotes cotton fiber elongation by modulating reactive oxygen species (ROS) production. , New Phytologist, 2014, 202(2): 509-520.

18、Tang, Wenxin＃; He, Yonghui＃; Tu, Lili; Wang, Maojun; Li, Yang; Ruan, Yong-Ling; Zhang, Xianlong*; Down-regulating annexin gene GhAnn2 inhibits cotton fiber elongation and decreases Ca2+ influx at the cell apex. , Plant Molecular Biology, 2014, 85(6): 613-625.

19、Liu, Nian＃; Tu, Lili; Tang, Wenxin; Gao, Wenhui; Lindsey, Keith; Zhang, Xianlong*; Small RNA and degradome profiling reveals a role for miRNAs and their targets in the developing fibers of Gossypium barbadense. , Plant Journal, 2014, 80(2): 331-344.

20、Hao, Juan＃; Tu, Lili; Hu, Haiyan; Tan, Jiafu; Deng, Fenglin; Tang, Wenxin; Nie, Yichun; Zhang, Xianlong*; GbTCP, a cotton TCP transcription factor, confers fibre elongation and root hair development by a complex regulating system., Journal of Experimental Botany, 2012, 63(17): 6267-6281.