一、基本信息

姓名：张莹婷，职称：讲师，电子邮箱：ytzhang@163.com，

主要研究方向：桂花多组学分析；植物抗逆性研究；基因功能验证

 

二、教育背景

2022.9~2023.9 日本森林综合研究所（国家公派留学） 植物生理生态学

2019.9~2023.12 南京林业大学（博士）     林木遗传育种

2015.9~2018.6 南京林业大学（硕士）       园林植物与观赏园艺

2011.9~2015.6 江苏师范大学（本科）      园林

 

三、工作经历

2024.3~至今 湖北科技学院核化生学院      讲师

2025.5~至今 金埔园林、南京林业大学      博后

 

四、教学课程

树木学、测树学等课程

 

五、主要社会荣誉

2022 年校长奖学金

2022 年博士国奖奖学金

2021 年博士国奖奖学金

2020、2021、2022 年叶培忠林木遗传育种奖学金

 

六、主要社会兼职

Genome biology、BMC plant biology, Frontiers in Plant Science、BMC genomics、Scientific Reports、plos one 等杂志特邀审稿人

日本生态学会会员

 

七、指导学生课题及获奖

八、论文及专利（*通讯作者）

近5年，以一作发表 SCI 20余篇文章，授权专利10余项

1. Zhang, Y., Yang, J., Zeng, X., Cai, X., Li, Z., Zeng, J., Zhang, Q., Chen, H.,* Zou, J.* Exploring miRNA-target modules regulating flower opening and senescence in Osmanthus fragrans through integrated transcriptome, miRNAome, and degradome analysis. Industrial Crops and Products, 2025, 229, 120927 (第一作者, SCI, IF = 5.6, 中科院一区top)

2. Zhang, Y., Guo, Z., Yang, J., et al. Small RNA and degradome analyses reveal regulatory roles of miRNAs in vascular cambium development in Cryptomeria fortunei. Industrial Crops and Products, 2022, 187, 115428. doi: 10.1016/j.indcrop.2022.115428 (SCI一作, IF = 6.449, 中科院 1 区top)

3. Zhang, Y., Yan, Q., Xia, H., Yang, J., Zeng, X., Li, Z., Cai, X., Zou, J.*, Chen H*. Validation of suitable reference microRNAs for qRT-PCR in Osmanthus fragrans under abiotic stress, hormone and metal ion treatments. Front. Plant Sci. 2025, 16:1517225. doi: 10.3389/fpls.2025.1517225 (SCI一作, IF = 4.1, 中科院 2 区top)

4. Zhang, Y., Yan, Q., Xia, H., Zeng, X., Yang, J., Cai, X., Li, Z., Chen H*, Zou, J.*. Selection of suitable reference lncRNAs for gene expression analysis in Osmanthus fragrans under abiotic stresses, hormone treatments, and metal ion treatments. Front. Plant Sci. 2025, 15:1492854. doi: 10.3389/fpls.2024.1492854 (SCI一作, IF = 4.1, 中科院 2 区top)

5. Zhang, Y., Wei, G., Xue, J., Xu, J*. CfSGR1 and CfSGR2 from Cryptomeria fortunei exhibit contrasting responses to hormones and abiotic stress in transgenic Arabidopsis. Plant Physiology and Biochemistry Plant Physiology and Biochemistry (SCI一作, IF = 6.1, 中科院 2 区top)

6. Zhang, Y., Yang, L., Hu, H., et al. Transcriptome and metabolome changes in Chinese cedar during cold acclimation reveal the roles of flavonoids in needle discoloration and cold resistance. Tree physiology, 2022, 42(9): 1858-1875. doi: 10.1093/treephys/tpac046 (SCI一作, IF =4.561, 中科院 2 区top)

7. Zhang, Y.,⁺ Yang L.,⁺ Yang, J., et al. Transcriptome and metabolome analyses reveal differences in terpenoid and flavonoid biosynthesis in Cryptomeria fortunei needles across different seasons. Frontiers in Plant Science, 2022, 13, 862746. doi: 10.3389/fpls.2022.862746 (SCI一作, IF = 6.627, 中科院 2 区top)

8. Zhang, Y.,⁺ Yang L.,⁺ et al. CfAPX, a cytosolic ascorbate peroxidase gene from Cryptomeria fortunei, confers tolerance to abiotic stress in transgenic Arabidopsis. Plant Physiology and Biochemistry, 2022, 172, 167-179. doi: 10.1016/j.plaphy.2022.01.011 (SCI一作, IF = 5.437, 中科院 2 区)

9. Zhang, Y., Hu, H., Yang, J., et al. Physiological, transcriptomic and metabolomic analyses of overwintering Cryptomeria fortunei needles. Forests, 2022, 13, 1249. doi: 10.3390/f13081249 (SCI一作, IF = 3.282, 中科院 2 区)

10. Zhang, Y., Cui, J., Hu, H., et al. Integrated four comparative-omics reveals the mechanism of the terpenoid biosynthesis in two different overwintering Cryptomeria fortunei phenotypes. Frontiers in Plant Science, 2021, 12, 740755. doi: 10.3389/fpls.2021.740755 (SCI一作, IF = 5.753, 中科院 2 区top)

11. Zhang, Y., Yang, J., Zhu, L., et al. Identification of microRNAs and their target genes related to needle discoloration of evergreen tree Chinese cedar (Cryptomeria fortunei) in cold winters. Planta, 2021, 254, 1-21. doi: 10.1007/s00425-021-03685-2 (SCI一作, IF = 4.116, 中科院 2 区)

12. Zhang, Y., Xue, J., Zhu, L., et al. Selection and optimization of reference genes for microRNA expression normalization by qRT-PCR in Chinese Cedar (Cryptomeria fortunei) under multiple stresses. International Journal of Molecular Sciences, 2021, 22, 7246. doi: 10.3390/ijms22147246 (SCI一作, IF = 5.923, 中科院 2 区top)

13. Zhang, Y., Zhu, L., Xue, J., et al. Selection and verification of appropriate reference genes for expression normalization in Cryptomeria fortunei under abiotic stress and hormone treatments. Genes, 2021, 12, 791. doi: 10.3390/genes12060791 (SCI一作, IF = 4.096, 中科院 3 区)

14. Zhang, Y., Zhang, M., Hu, H., et al. Cloning and cold-resistance analyses of CfICE1 gene in Cryptomeria fortunei. Plant Physiology and Biochemistry, 2021, 162, 456–467. doi: 10.1016/j.plaphy.2021.03.020 (SCI一作, IF = 4.270, 中科院 2 区)

15. Zhang, Y., Zhu, Q., Guo, Z., et al. Individual Cryptomeria fortunei Hooibrenk clones show varying degrees of chilling stress resistance. Forests, 2020, 11, 189. doi: 10.3390/f11020189 (SCI一作, IF = 2.633, 中科院 3 区)

16. Zhang, Y., Yang, J., Guo, Z., et al. Comparative analyses and phylogenetic relationships between Cryptomeria fortunei and related species based on complete chloroplast genomes. Phyton, 2020, 89, 1-30. doi: 10.32604/phyton.2020.011211. (SCI一作, IF = 1.039, 中科院 4 区)

17. Zhang Y.T., Tsuruta M., Kawasaki T., Han Q. Diurnal dynamics of leave nonstructural carbohydrates in different plant function type oak trees. ESJ70, 2023.

18. Zhang Y.T., Xue J., Wei G., et al. Genome-wide identification of the CjCCO gene family in Japanese cedar, and over-expression of CjCCD4a and CjCCD4d confers ABA, salt and drought tolerance in transgenic Arabidopsis. Plant Growth Regulation, 2025. doi:10.1007/s10725-025-01338-y (SCI一作, IF = 3.5, 中科院 3 区)

19. Xia, H.,+ Zhang, Y.+ Chen, X., Zeng, X., and Cai, X., et al. (2024). Genome-wide identification of osmanthus fragrans histone modification genes and analysis of their expression during the flowering process and under azacytidine and ethylene treatments. Plants. doi:10.3390/plants13060777(SCI共一, IF = 4.6, 中科院 2 区)

20. Wei, G.,+ Zhang, Y.+, Yang, Y., Yang, J., and Xu, J*. (2024). Cfchlm, from cryptomeria fortunei, promotes chlorophyll synthesis and improves tolerance to abiotic stresses in transgenic Arabidopsis thaliana. Forests. doi:10.3390/f15040628 (SCI共一, IF = 2.4, 中科院 2 区)

21. 张莹婷, 杨秀莲, 等. 2种石蒜花芽分化与碳水化合物、抗氧化物酶及内源激素变化的关系.安徽农业大学学报, 2019, 46, 342-349 DOI:10.13610/j.cnki.1672-352x.20190320.023

22. 张莹婷, 等. 桂花不同组织的lncRNA内参基因及其引物和应用. 2024110333813(发明专利, 第一发明人)

23. 张莹婷, 等. 桂花非生物胁迫条件下 lncRNA 内参基因及其引物和应用. 202411064984X (发明专利, 第一发明人)

24. 张莹婷, 等. 桂花花瓣开放与衰老过程中lncRNA内参基因及其引物和应用. CN118581272A (发明专利, 第一发明人)

25. 张莹婷, 崔洁冰, 徐进. 一种提高柳杉实生苗成活率的种植方法. ZL 2020 1 0616099.3（发明专利，第一发明人）

26. 徐进, 张莹婷, 张萌. 一种柳杉 CfICE1 基因及其应用. ZL 2020 1 0616253.7（发明专利，第二发明人，导师第一）

27. 徐进, 张莹婷, 等. 一种柳杉抗寒性快速鉴定与评价的方法. ZL 2020 1 0617581.9 (发明专利，第二发明人，导师第

28. 张莹婷, 徐进. 一种便于液氮冷冻的载玻片.CN 211528016 U

29. 张莹婷, 徐进. 一种多功能试管架. CN 211706872 U

30. 张莹婷, 徐进. 一种简易可拆卸式容量瓶架. CN 211800940 U

31. 张莹婷, 徐进. 一种可调节的扦插打孔装置. CN 211509768 U

32. 张莹婷, 徐进. 一种实验双面刀片的简易保护壳. CN 211333317 U

33. 张莹婷, 徐进. 一种适用于高杆类花卉的杂交袋装置. CN 211510152 U

34. 张莹婷, 徐进. 一种遮光透气的实验袋. CN 211322166 U

     

九、主要科研及教研项目

[1] 国自然青年基金OfEIL7介导乙烯和茉莉酸信号互作调控桂花花瓣衰老的分子机制研究(32401647)，2025.1-2027.12，30 万元，主持

[2] 湖北科技学院博士启动资金项目资助“OfEIL2 参与乙烯调节调控桂花花瓣衰老的分子机制研究(BK202503)”，2025.1-2026.12，20 万元，主持

[3] 湖北科技学院校级教改：应用型高校科研与教学协同发展模式的创新与实践——以智慧林业专业为例，2025.1-2026.12，0.3万，主持

[4] 江苏省大学生创新项目“节约型理念在徐州市园林建设中的应用研究”（201310320090X），0.3万元，2013.6-2015.6，主持

[5] 江苏省研究生创新项目“基于多组学研究低温下柳杉叶片的呈色及抗寒机制”(KYCX21_0918)，1.5万元，2021.6-2023.6，主持