| 姓 名: | 张弋 | 研 究 组: | 高钙蔬菜驯化平台 |
|---|---|---|---|
| 职 务: | 负责人 | 职 称: | 助理研究员 |
| 通讯地址: | 江西省南昌市溪霞镇溪霞国家现代农业示范区科研中心 | ||
| 邮政编码: | 330114 | 电子邮箱: | zhangyi@lsbg.cn |
| 姓 名: | 张弋 |
|---|---|
| 研 究 组: | 高钙蔬菜驯化平台 |
| 职 务: | 负责人 |
| 职 称: | 助理研究员 |
| 通讯地址: | 江西省南昌市溪霞镇溪霞国家现代农业示范区科研中心 |
| 邮政编码: | 330114 |
| 电子邮箱: | zhangyi@lsbg.cn |
学习经历:
2021年9月-2024年6月 南昌大学 生物学 博士
2017年9月-2020年6月 福建农林大学 茶学 硕士
2013年9月-2017年6月 山东农业大学 园艺学 学士
工作经历:
2024年7月-至今 江西省中国科学院庐山植物园 助理研究员
研究领域:
植物遗传育种
论文及论著:(†共同一作)
11. Zhang Y, Yang E, Liu Q, Zhang J, Feng C*. Combined full-length transcriptomic and metabolomic analysis reveals the molecular mechanisms underlying nutrients and taste components development in Primulina juliae. BMC Genomic Data. 2024. 25:46
10. Zhang J†, Zhang Y†, Feng C*. Genome-Wide Analysis of MYB Genes in Primulina eburnea (Hance) and Identification of Members in Response to Drought Stress. International Journal of Molecular Sciences. 2024. 25:465
9. Sun Z†, Zhang Y†, Zou S, Zhang S, Feng C*. Complete chloroplast genomes of four Syzygium species and comparative analysis with other Syzygium species. Biologia. 2023. DOI: 10.1007/s11756-023-01557-6.
8. Zhang Y, Yang E, Liu Q, Feng C*. Transcriptomic and metabolic analyses elucidate the metabolomic variation in leaf development of a calcium-Rich vegetable (Primulina eburnea). Agronomy. 2023. 13:2157.
7. Zhang Y, Zhang J, Zou S, Liu Z, Huang H, Feng C*. Genome-wide analysis of the cellulose toolbox of Primulina eburnea, a calcium-rich vegetable. BMC Plant Biology. 2023. 23: 259.
6. Zhang Y, Fu C, Zhou R, Liu Z, Feng C*. 2023. Effect of prechilling and exogenous gibberellin on seed germination of Primulina eburnea: a calcium-rich vegetable. Seed Science and Technology. 51: 1-6.
5. Chen MJ†, Kong XR†, Zhang Y†, et al. Metabolomic Profiling in Combination with Data Association Analysis Provide Insights about Potential Metabolic Regulation Networks among Non-Volatile and Volatile Metabolites in Camellia sinensis cv Baijiguan. Plants. 2022. 11:2557
4. Chen MJ†, Zhang Y†, Kong XY† Du ZH, et al. 2021. Leaf cuticular transpiration barrier organization in tea tree under normal growth conditions. Frontiers in Plant Science. 12: 655799.
3. Zhang Y, Du ZH, Han YT, et al. 2020. Plasticity of the cuticular transpiration barrier in response to water shortage and resupply in Camellia sinensis: a role of cuticular waxes. Frontiers in Plant Science. 11: 600069.
2. Zhang Y, Chen XB, Du ZH, et al. 2020. A proposed method for simultaneous measurement of cuticular transpiration from different leaf surfaces in Camellia sinensis. Frontiers in Plant Science. 11: 420.
1. Chen XB†, Zhang Y†, Du ZH, et al. 2020. Establishing a quantitative volatile measurement method in tea by integrating sample extraction method optimizations and data calibration. Flavour and Fragrance Journal. 36: 64-74.
