张阳，博士，研究员，博士生导师

e-mail: yang.zhang@scu.edu.cn

地址：澳门新浦新京(中国)责任有限公司官网B302室

学术兼职

生物资源与生态环境教育部重点实验室（澳门新浦新京） 副主任

四川省细胞生物学会植物学专委会 主任

Journal of Integrative Plant Biology编委

aBIOTECH编委

Synthetic and Systems Biotechnology编委

学习及工作经历

2005.09-2009.06 澳门新浦新京，生物技术，学士

2009.10-2013.09 英国约翰英纳斯中心/东安格利亚大学，生物学，博士

2013.10-2015.12 英国约翰英纳斯中心，博士后

2016.03-至今 澳门新浦新京(中国)责任有限公司官网，研究员，博导

研究方向

本实验室致力于植物代谢的研究，主要关注以下几个方面：

1. 重要植物代谢产物的合成途径解析

2. 植物代谢网络的调控机制解析

3. 以植物为底盘的合成生物学研究

近年作为负责人主持的代表性项目

近年来先后承担了国家海外高层次人才青年项目、科技部重点研发青年项目、四川省自然科学基金创新研究群体、国家自然科学基金面上和青年项目等多项国家级和省部级科研项目。

近五年代表性工作（^*共同一作，^#通讯作者)

1. Shu, P^*, Zhang, Z^*, Wu, Y., Chen, Y., ……Hong, Y., Zhang, Y^#, Liu, M.^# (2023) A comprehensive metabolic map reveals major quality regulations in red flesh kiwifruit (Actinidia chinensis). New Phytologist in press

2. Yuan, Y., Ren, R., Liu, X., Su, L., Wu, Y., Zhang, W., Li, Y., Jiang, Y., Wang, H., Fu R., Bouzayen, M., Liu, M., Zhang, Y.^# (2022) SlWRKY35 positively regulates carotenoid biosynthesis by activating the MEP pathway in tomato fruit. New Phytologist 234(1):164-178

3. Fu, R.^#*, Zhang, P.*, Jin, G., Wei, S., Chen, J., Pei, J., Zhang, Y.^# (2022) Substrate promiscuity of acyltransferases contributes to the diversity of hydroxycinnamic acid derivatives in purple coneflower. The Plant Journal 110: 802–813

4. Wei, S., Xiang, T., Zhang, Y.^#, Fu, R.^# (2022) The unexpected flavone synthase-like activity of polyphenol oxidase in tomato. Food Chemistry 377:131958

5. Fu, R.*, Zhang, P.*, Jin, G., Wang, L., Qi, S., Cao, Y., Martin, C. and Zhang, Y.^# (2021) Versatility in acyltransferase activity completes chicoric acid biosynthesis in purple coneflower. Nature Communications 12：1563

6. Li, Y.^*, Chen, Y.^*, You, S.^*, Zhou, L.^*, ……Ma, T., Liu, M. ^#, Zhang, Y.^# (2020) MicroTom Metabolic Network: Rewiring Tomato Metabolic Regulatory Network throughout the Growth Cycle.Molecular Plant 13:1203-1218

7. Ying, S*., Su, M*., Wu, Y., Zhou, L., Fu, R., Li, Y., Guo, H., Luo, J., Wang, S.^# and Zhang, Y^#. (2020) Trichome regulator SlMIXTA‐like directly manipulates primary metabolism in tomato fruit. Plant Biotechnology Journal 18:354-363

8. Fu, R., Martin, C., Zhang, Y.^# (2018) Next-Generation Plant Metabolic Engineering, Inspired by an Ancient Chinese Irrigation System. Molecular Plant 11(1):47-57

2016年前代表性工作

1. Zhang, Y.^*, Butelli, E.^*, Alseekh, S., Tohge, T., Rallapalli, G., Luo, J., Kawar, P.G., Hill, L., Santino, A., Fernie, A.R., Martin, C^#. (2015) Multi-level Engineering Facilitates the Accumulation of Bioactive Compounds in Tomato. Nature Communications 6:8635

2. Zhang, Y., Butelli, E and Martin, C^#. (2014). Engineering anthocyanin biosynthesis in plants. Current Opinion in Plant Biology 19, 81-90

3. Zhang, Y., Butelli, E., de Stefano R., Schoonbeek, H-j., Magusin, A.,  Pagliarani, C., Wellner, N., Hill, L., Orzaez, D., Granell, A., Jones, JDG. Martin, C.^# (2013). Anthocyanins Double the Shelf Life of Tomatoes by Delaying Overripening and Reducing Susceptibility to Gray Mold. Current Biology 23, 1094-1100.