--中国科学院遗传与发育生物学研究所

姓　　名：	唐三元
职　　称：	创新研究员
职　　务：
电话/传真：
电子邮件：	sytang@genetics.ac.cn
实验室主页：
研究方向：	高粱分子设计育种及高效应用

简历介绍：

唐三元，硕士，创新研究员

2004年毕业于河南农业大学，获学士学位；2007年获南京农业大学硕士学位。同年入职中国科学院遗传与发育生物学研究所，历任助理研究员、工程师、高级工程师、研究员。主要从事高粱分子育种及高效应用研究，其中甜高粱主要应用于饲草和生物能源，籽粒高粱用于酿造和饲料；以第一（含共同第一）或通讯作者在Nature Plants、Molecular Plant、Adevanced science等期刊发表多篇论文；培育“中科甜968”等高产抗逆新品种多个，主持颁布实施技术规程4项，并在全国范围内规模化推广应用。入选中国科学院“青年创新促进会”会员；入选中国科学院“关键技术人才”；荣获“中国科学院科技促进发展奖”。

研究领域：

1.高粱重要性状基因的克隆解析及优异等位基因发掘；

2.高产、优质、耐逆高粱新品种的分子设计育种；

综合运用常规育种、分子标记辅助选择、双单倍体育种、基因编辑等技术，培育高产、优质、抗逆的饲用甜高粱和籽粒高粱品种。

3.高粱栽培管理技术体系的研发及新品种的规模化推广应用。

社会任职：

获奖及荣誉：

承担科研项目情况：

代表论著：

近期发表文章 (^*Co-corresponding author, ^#Co-first author)

1. Tang, S.^#, Shi, J.^#, Li, X., Yang, M., Li, C., Zhang, D., Yang, S., Mei, C., Luo, Z., Zhang, L., Zhang, W., Zhang, C., Zhu, C., Ma, X., Xia, R., Chen, Y., Zhang, J., Chen, Q., Chen, S., Xie, Q.* and Yu, F*. （2025）Development and breeding of herbicide-resistant sorghum for effective cereal-legume intercropping. Advanced Science. 12(27): e2503083

2. Zhang, D.^#, Tang, S.^#, Chen J., Liu F., Zhao K., Kang L., Li C., Xia R., Yang F., Yu F., Duan C., Xie P.* and Xie Q*. （2025）Chromosomal inversion at the DG1 promoter drives double-grain spikelets and enhances grain yield in sorghum. Nature Plants. 11(3): 453- 467

3. Zhang, D.^#, Tang, S.^#, Liu F., Zhao K., Li C., Xia R., Yu F., Duan C., Xie Q* and Xie P*. （2025）Natural variations in Multi-Grain Spikelet 1 enhance grain number in sorghum. Journal of Integrative Plant Biology. 67(6): 1441- 1443

4. Chen, C.^#,Ge, F.^#, Du, H.^#, Sun, Y.^#, Sui, Y.^#, Tang, S., Shen, Z ., Li, X ., Zhang, H., Mei, C., Xie,. Peng, Li, C., Yang, Sen., Wei, H., Shi, J., Zhang, D., Zhao, K., Yang, D., Qiao, Y., Luo, Z., Zhang, L ., Khan, Aimal., Wodajo, Baye., Wu, Y., Xia, R., Wu, C., Liang, C., Xie, Q. *, Yu, F*.(2025) A comprehensive omics resource and genetic tools for functional genomics research and genetic improvement of sorghum. Molecular Plant. 18(4):703-719

5. Ge, F.^#,Wei, H.^#,Zhang, W.,Mei, C.,Gao, Y.,Yang, H.,Wang, X.,Cao, J.,Liu, Z., Shi, J., Xia, R.,Zhao, K., Tang, S., Teng, K.,Zhong, J., Yang, F., Zhang, B.,Zhou, Y., Yu, F., Wu, Y.*, Xie, Q.* (2025)Vascular-tissue-specific expression of an endo-1,4-β-xylanase enhances forage efficacy of sweet sorghum silage. Molecular Plant. 18(8):1241-1244.

6. Liu F.^#, Baye W.^#, Zhao K., Tang S., Xie Q., Xie P.* (2024) Unravelling sorghum functional genomics and molecular breeding: past achievements and future prospects. Journal of Genetics and Genomics. 52(6):719-732.

7. Zhang, H.^#, Yu, F.^#, Xie, P.^#, Sun, S.^#, Qiao, X.^#, Tang, S., Chen, C., Yang, S., Mei, C., Yang, D., Wu, Y., Xia, R., Li, X., Lu, J., Liu, Y., Xie, X., Ma, D., Xu, X., Liang, Z., Feng, Z., Huang, X., Yu, H., Liu, G., Wang, Y., Li, J., Zhang, Q., Chen, C., Ouyang, Y. *, Xie, Q*. (2023) A Gγ protein regulates alkaline sensitivity in crops. Science. 379(1204):1-14

8. Zhang, Dan.^#, Tang, S.^#, Xie, P., Yang, D., Wu, Y., Cheng, S., Du, K., Xin, P., Chu, J., Yu, F.*, Xie, Q.* (2022). Creation of fragrant sorghum by CRISPR/Cas9^FA. Journal of Integrative Plant Biology. 64(5): 961–968

9. Xie, Peng.^#, Tang, S., Chen, C., Zhang, H., Yu, F., Li, C., Wei, H., Sui, Yi., Wu, C., Diao, X., Wu, Y.*, Xie, Q.* (2022) Natural variation in Glume Coverage 1 causes naked grains in sorghum. Nature Communications. 13(1):1068-1073

10. Chen, C.^#, Shang, X.^#, Sun, M., Tang, S., Khan, Aimal., Zhang, Dan., Yan, H., Jiang, Y., Yu, F., Wu, Y., Xie, Q.* (2022). Comparative Transcriptome Analysis of Two Sweet Sorghum Genotypes with Different Salt Tolerance Abilities to Reveal the Mechanism of Salt Tolerance. International Journal of Molecular Sciences. 23(4): 2272-2288

11. Xie, P.^#, Shi, J.^#, Tang, S.^#, Chen, C., Khan, A., Zhang, F., Xiong, Y., Li, C., He, W., Wang, G., Lei F., Wu Y.*, Xie Q.* (2019) Control of bird feeding behavior by Tannin1 through modulating the biosynthesis of polyphenols and fatty acid-derived volatiles in sorghum. Molecular Plant. 12(10):1315–1324.

12. Tang, S.^#, Wang, Z.^#, Chen, C., Xie, P., Xie, Q.* (2018) The prospect of sweet sorghum as the source for high biomass crop. J Agric Sci Bot. 2(2)1-6

培育高粱品种：

甜高粱品种：中科甜060；中科甜438；中科甜968；中科甜048；中科甜1号；中科甜2号等

籽粒高粱品种：中科粱11