一、基本情况
姓名:陈泽雄 出生年月:1979.12 籍贯:湖北黄冈
学历:研究生 学位:博士 职称:教授
二、个人简介
重庆文理公司党委委员,suncitygroup太阳集团经理, 重庆市学术技术带头人,重庆英才•创新领军人才,“巴渝学者”特聘教授,suncitygroup太阳集团高层次人才,特色香辛植物种质创新重庆市重点实验室主任,农业“十四五”重庆市重点学科负责人,重庆市创新创业团队负责人、重庆高校创新群体负责人。兼任中国农业生物技术学会分会理事、重庆市植物学会副理事长、重庆市园艺学会副理事长、重庆市林木品种审定委员会委员、重庆市标准化专家、重庆市高校农林类专业教指委委员、重庆市优秀创新创业导师,国家自然科学基金委通讯评审专家、教育部博士学位论文质量评审专家。
带领团队从事花椒、金银花等特色经济植物重要性状调控研究及产业化应用20年。主持国家自然科学基金项目3项、省部级科技计划项目10余项,科研经费近1000万元。以一作/通讯在高水平期刊发表学术论文40余篇,出版国家级专著2部,授权国家发明专利13项、PCT专利3项,获重庆市人民政府、国家林业和草原局和国家一级行业学会/协会科技奖励6项。
(一) 学习经历
2011/09-2016/07 重庆大学 植物学/博士(导师:李正国)
2002/09-2005/07 华中农业大学 果树学/硕士(导师:姜玲)
1998/09-2002/07 华中农业大学 园艺学/学士
(二)工作经历
2018/05-2018/11 重庆市科学技术局科技平台处
2016/12-至今 suncitygroup太阳集团 教授
2010/12-2016/11 suncitygroup太阳集团 副教授
2005/07-2010/11 suncitygroup太阳集团 讲师
三、主讲课程
《细胞生物学》《植物组织培养》《设施园艺学》
四、代表成果
(一)代表性科研项目
1.国家自然科学基金面上项目:LmMYB111-LmSCL15调控灰毡毛忍冬绿原酸生物合成的分子机制,2023-2026
2.国家自然科学基金面上项目:LmMYB15转录因子调控灰毡毛忍冬绿原酸生物合成的分子机制,2018-2021
3.国家自然科学基金青年基金项目:灰毡毛忍冬HQT基因在绿原酸生物合成中的功能解析,2013-2015
4.重庆高校创新群体研究项目:特色经济植物重要性状形成及调控,2022-2024
5.重庆英才·创新领军人才项目:青花椒重要经济性状形成及调控机理与应用,2020-2023
6.重庆市自然科学基金创新发展联合基金项目:植物激素调控青花椒皮刺形成的分子机制研究,2023-2026
7.重庆市中央林业改革发展资金科技推广示范项目:荣昌无刺花椒良种组培种苗工厂化繁育及应用推广示范,2023-2025
8.重庆市科委基础与前沿研究重点项目:LmMYB15转录因子基因调控灰毡毛忍冬绿原酸生物合成的分子机制研究,2017-2020
9.重庆市教委科技计划重点项目:MYB转录因子调控花椒皮刺发育的分子机制研究,2019-2022
10.重庆市科委社会事业与民生保障科技创新专项:荣昌无刺花椒新品种脱毒种苗工厂化繁育关键技术研发与示范,2017-2020
11.重庆市科委高校优秀成果转化项目:红阳猕猴桃脱毒种苗规模化繁育技术应用与示范,2014-2016
12.重庆市教委优秀成果转化项目:生姜无病原种苗繁育技术转化与示范,2010-2012
13.重庆市教委科学技术项目:灰毡毛忍冬HQT基因克隆及在绿原酸合成中的功能鉴定,2014 -2016
(二)代表性学术论文(*通讯作者)
1. Song, L., Huang, Y., Zuo, H., Tang, N., Li, Z., Jiao, W., ... & Chen, Z*. (2024). Chromosome-level assembly of triploid genome of Sichuan pepper (Zanthoxylum armatum). Horticultural Plant Journal, 10(2), 437-449.
2. Ren, Y., Liu, J., He, L., Jiang, J., Gong, T., Zhou, Q., Chen, Z*. (2024). Effect of salicylic acid treatment on disease resistance to coleosporium zanthoxyli in Chinese pepper (Zanthoxylum armatum). Plant Disease, 108(4), 960-970.
3. Dong, X., Shi, L., Bao, S., Ren, Y., Fu, H., You, Y., Li, Q., Chen, Z*. 2024. Comprehensive evaluation of freezing tolerance in prickly ash and its correlation with ecological and geographical origin factors. Scientific Reports, 14, 26301.
4. Dong, X., Shi, L., Bao, S., Fu, H., You, Y., Li, X., Ren, Y., Li, Q., Chen, Z*. 2024. Diversity analysis of panicle traits in Chinese prickly ash germplasm resources and their influence on its systematic classification. Scientific Reports, 14, 19856.
5. Dong, X., Shi, L., Bao, S., Fu, H., You, Y., Ren, Y., Wang, J., Li, Q., Chen, Z*. 2024. Leaf traits of prickly ash and its correlation with ecological and geographical factors of origin. Scientific Reports, 14, 6276.
6. Tang, N., Wu, P., Cao, Z., Liu, Y., Zhang, X., Lou, J., ... & Chen, Z*. (2023). A NAC transcription factor ZaNAC93 confers floral initiation, fruit development, and prickle formation in Zanthoxylum armatum. Plant Physiology and Biochemistry, 201, 107813.
7. Shi, L., Dong, X., Fu, H., Chai, X., Bao, S., Ren, Y., Hu, K, Li, Q., Chen, Z*. (2023). Differences in physiological characteristics of green prickly ash germplasm resources in response to low-temperature stress. Horticulturae, 9, 1242.
8. Tang, N., Cao, Z., Wu, P., Liu, Y., Lou, J., Hu, Y., ... & Chen, Z*. (2023). Comparative transcriptome analysis reveals hormone, transcriptional and epigenetic regulation involved in prickle formation in Zanthoxylum armatum. Gene, 871, 147434.
9. Tang, N., An, J., Deng, W., Gao, Y., Chen, Z*., & Li, Z*. (2020). Metabolic and transcriptional regulatory mechanism associated with postharvest fruit ripening and senescence in cherry tomatoes. Postharvest Biology and Technology, 168, 111274.
10. Tang N, Chen N, Hu N, Deng W, Chen Z*, Li Z*. Comparative metabolomics and transcriptomic profiling reveal the mechanism of fruit quality deterioration and the resistance of citrus fruit against Penicillium digitatum. Postharvest biology and technology, 2018, 145: 61-73.
11. Tang, N., Cao, Z., Yang, C., Ran, D., Wu, P., Gao, H., ... & Chen, Z*. (2021). A R2R3-MYB transcriptional activator LmMYB15 regulates chlorogenic acid biosynthesis and phenylpropanoid metabolism in Lonicera macranthoides. Plant Science, 308, 110924.
12. Liu, X., Tang, N., Xu, F*., Chen, Z*., Zhang, X., Ye, J., ... & Cao, Z. (2022). SMRT and Illumina RNA sequencing reveal the complexity of terpenoid biosynthesis in Zanthoxylum armatum. Tree Physiology, 42(3), 664-683.
13. Tang, N., Cao, Z., Wu, P., Zhang, X., Lou, J., Liu, Y., ... & Chen, Z*. (2022). Genome-wide identification, interaction of the MADS-box proteins in Zanthoxylum armatum and functional characterization of ZaMADS80 in floral development. Frontiers in Plant Science, 13, 1038828.
14. Chen Z, Liu G, Tang N, et al. Transcriptome analysis reveals molecular signatures of luteoloside accumulation in senescing leaves of Lonicera macranthoides. International journal of molecular sciences, 2018, 19(4): 1012.
15. Chen, Z., Tang, N., Li, H., Liu, G., & Tang, L. (2020). Genome-wide transcriptomic analysis during rhizome development of ginger (Zingiber officinale Roscoe.) reveals hormone and transcriptional regulation involved in cellulose production. Scientia Horticulturae, 264, 109154.
16. Ye J, Wang G, Tan J, Zheng J, Zhang X, Xu F*, Cheng S, Chen Z*, Zhang W, Liao Y. Identification of candidate genes involved in anthocyanin accumulation using Illmuina-based RNA-seq in peach skin. Scientia Horticulturae, 2019, 250: 184-198.
17. Zhou X, Tan J, Gou Y, Liao Y, Xu F*, Li G, Cao J, Yao J,Ye J,Tang N, Chen Z*. The biocontrol of postharvest decay of table grape by the application of kombucha during cold storage. Scientia Horticulturae, 2019, 253, 134-139.
18. Chen Z, Tang N, You Y, et al. Transcriptome analysis reveals the mechanism underlying the production of a high quantity of chlorogenic acid in young leaves of Lonicera macranthoides Hand.-Mazz. PloS one, 2015, 10(9): e0137212.
19. Wu, P., Wang, G., Cao, Z., Liu, Y., Xia, N., Wang, Q., ... & Chen, Z*. (2023). Effects of different light qualities and plant growth regulators on the growth and secondary metabolite content of Lonicera macranthoides seedlings. In Vitro Cellular & Developmental Biology-Plant, 59(5), 536-546.
20. Gou, Y., Cheng, S., Ye, J., Zhou, X., Xu, F*., Chen, Z*., ... & Liao, Y. (2020). Comparative transcriptome analysis reveals the potential molecular mechanism involved in fatty acids biosynthesis of Juglans regia. Scientia Horticulturae, 269, 109388.
21. Zhang, X., Tang, N., Liu, X., Ye, J., Zhang, J., Chen, Z*., ... & Liao, Y. (2020). Comparative transcriptome analysis identified differentially expressed genes between male and female flowers of Zanthoxylum armatum var. novemfolius. Agronomy, 10(2), 283.
22. Zhang, X., Ran, D., Wu, P., Cao, Z., Xu, F., Xia, N., ... & Chen, Z*. (2022). Transcriptome and metabolite profiling to identify genes associated with rhizome lignification and the function of ZoCSE in ginger (Zingiber officinale). Functional Plant Biology, 49(8), 689-703.
23. Cao, Z., Wu, P., Gao, H., Xia, N., Jiang, Y., Tang, N., ... & Chen, Z*. (2022). Transcriptome-wide characterization of the WRKY family genes in Lonicera macranthoides and the role of LmWRKY16 in plant senescence. Genes & Genomics, 44(2), 219-235.
24. Zhang, X., Chen, Z., Wang, C., Zhou, X., Tang, N., Zhang, W., ... & Ye, J. (2023). Genome‐wide identification of HD‐ZIP gene family and screening of genes related to prickle development in Zanthoxylum armatum. The Plant Genome, 16(1), e20295.
25. Chen Z, Liu G, Liu Y, et al. Overexpression of the LmHQT1 gene increases chlorogenic acid production in Lonicera macranthoides Hand-Mazz. Acta physiologiae plantarum, 2017, 39(1): 27.
26. Chen Z, Lou J. Identification of TREHALOSE-6-PHOSPHATESYNTHASE genes family (TPS) in tomato and their expressions under treatment of different light spectrum. Archives of Biological Sciences, 2017,69(1): 93-101
(三)主要发明专利
1. 陈泽雄; 唐宁; 娄娟; 许锋; 刘霞; 刘华敏 ; In vitro propagation method oftissue culture seedlings of zanthoxylum armatum, PCT 国际发明专利, 欧洲, NL B1 202768186, 2021-10-14
2. 陈泽雄; 任云; 李强; 唐宁; A device for pressing oil for flower pepper and itsworking method, PCT 国际发明专利, 欧洲, LU102938, 2023-01-27
3. 唐宁; 陈泽雄; In Vitro Culture Method of Thornless Green Prickly Ash(Zanthoxylum armatum DC), PCT 国际发明专利, 欧洲, LU502555,2023-02-20
4. 陈泽雄等. 无刺花椒组织培养初代诱导的方法, 国家发明专利,ZL201810730081.9
(四)教材专著
1.《荣昌无刺花椒栽培技术》 中国农业出版社,主编
2.《林下高效种植养殖模式及实用技术》 中国农业出版社,主编
3.《观赏植物学》 中国林业出版社,副主编
4.《植物组织培养与种苗产业化研究》 中国科学技术出版社,编委
(五)科研成果奖
1.中国技术市场协会金桥奖:优质多抗花椒良种选育及产业化关键技术创新与应用,中国技术市场协会,二等奖,排名第1,2024.11
2.中国发明创业奖:无刺青花椒良种选育及种苗繁育技术研发与应用,中国发明协会,二等奖,排名第1,2024.07
3.梁希林业科学技术奖:青花椒重要经济性状形成的分子调控机制, 国家林业和草原局/中国林学会,二等奖,排名第2,2024.07
4.中国发明创业奖:山地特色经济林木种苗离体高频繁育技术及产业化应用,中国发明协会,二等奖,排名第1,2020.12
5.中国产学研合作创新成果奖:金银花良种细胞工程繁育技术及产业化应用,中国产学研合作促进会,二等奖,排名第1,2019.12
6.重庆市科技进步奖:特色苗木良种选育及现代设施繁育技术体系创建与应用,重庆市人民政府,二等奖,排名第2,2013.12
7.重庆市科技进步奖:桉树新品种工厂化育苗技术转化与示范,重庆市人民政府,三等奖,排名第4,2011.12
(六)教学成果奖
1.第七届中国国际“互联网+”老员工创新创业大赛,国家级银奖,教育部,2021.10,排名第1(指导教师)
2. 全国老员工生命科学竞赛,国家级二等奖,全国老员工生命科学竞赛委员会,2021.11,排名第2(指导教师)
3. 全国老员工生命科学竞赛,国家级三等奖,全国老员工生命科学竞赛委员会,2024.09,排名第1(指导教师)
4. 第九届中国国际“互联网+”老员工创新创业大赛,省级银奖,重庆市教育委员会,2023.08,排名第1(指导教师)
5. 第十届中国国际“互联网+”老员工创新创业大赛,省级银奖,重庆市教育委员会,2024.08,排名第1(指导教师)
6. 全国老员工生命科学竞赛,国家级三等奖,全国老员工生命科学竞赛委员会,2023.08,排名第2(指导教师)
7. 第八届中国国际“互联网+”老员工创新创业大赛,省级银奖,重庆市教育委员会,2022.08,排名第2(指导教师)
8. 第十七届“挑战杯”全国老员工课外学术科技作品竞赛,重庆市二等奖,共青团重庆市委,2021.09,排名第2(指导教师)
9.全国老员工生命科学竞赛,省级二等奖,全国老员工生命科学竞赛委员会,2023.08,排名第1(指导教师)
10. 第四届全国“互联网+”老员工创新创业大赛重庆赛区选拔赛优秀奖,重庆市教育委员会,2018.06,排名第1(指导教师)
