基本信息
陈琳,男,汉族,1987年1月生,湖北仙桃市人,中共党员,博士研究生学历,理学博士学位学位,副教授,硕导。目前以第一作者和通讯作者Plant Physiology、Plant Biotechnology Journal、Plant Cell and Environment、The Plant Journal等国际知名期刊共发表科研学术论文12篇,授权发明专利1件,育成新品种4个。
联系方式:Email:chen07041@126.com
Tel: 18818870162
通讯地址:园艺学院304室
教育背景和工作经历
2023/01–今,华南农业大学,园艺学院,副教授
2019/08–2020/08,德国马克思普朗克研究所,分子植物生理所,访问学者
2016/09–2022/12,华南农业大学,园艺学院,讲师
2014/07-2014/12,德国马克思普朗克研究所,分子植物生理所,访问学者
2014/04–2016/09,华中农业大学,园艺林学学院,博士后
2008/09–2013/12,华中农业大学,生命科学与技术学院,理学博士(硕博连读)导师:柳俊教授
研究方向
园艺作物逆境与采后生物学,聚焦于马铃薯的抗寒,以及菜心和香蕉采后生物学,通过多组学,包括基因组学、表观组学、转录组学和代谢组学,结合网络分析,采用宏观演化分析,利用分子手段快速挖掘和解析相关机制。同时也选育马铃薯相关品种以及菜心采后生物技术开发。
主要科研项目:
广东省自然科学基金面上项目,SmAP2-SmHB7介导糖代谢调控马铃薯耐寒性的功能机理研究,2026.01.01-2028.12.31,10万、在研、主持
广东省自然科学基金青年提升项目(省优青),SaCBL1-like–SaCIPK3-1分子模块调控马铃薯耐寒能力的功能和机理研究,2024/1-2026/12,30万、在研、主持
国家重点领域研发计划子课题,植物激素交互介导产后果蔬色泽品质的生物学机制及调控技术,2022/11-2027/10,60万、在研、参与
广东省自然科学基金面上项目,2022A1515010017,马铃薯抗寒候选基因SaCIPK的功能研究与机理解析,2022.01.01-2024.12.31,10万、结题、主持
广东省重点领域研发计划项目,2020B020219002,优质、早熟、抗病马铃薯品种选育及产业化技术研究,2020/01-2024/12,40万、结题、主持
国家自然科学基金青年基金,31501354、基于转录组和代谢组的马铃薯抗寒相关途径分析及抗寒机理解析、2016/01-2018/12、20万元、结题、主持
中国博士后科学基金,2015M572167、马铃薯低温响应的代谢途径分析、2015/05-2016/12、5万元、结题、主持
发表论文:
Zeng ZX, Rong Y, Wang XL, Zhao YT, Su XG, Wei W, Shan W, Kuang JF, Lu WJ, Chen CM, Chen JY*, Chen L*. (2026) Deciphering vital transcription factors in cytokinin-ABA mediated postharvest leaf senescence of Brassica rapa. Plant Physiology DOI: 10.1093/plphys/kiag122(代表作一)
Chen Y, Chu Y, Wang J, Liu S, Zuo Y, Yao C, Dong J, Wang Q, Liu T, Tu W, Qin J, Chen L*, Song B*. (2025) Natural allelic variation in the CBF2 transcription factor is a pivotal factor controlling cold resistance in potato. Plant Physiology 199(2): 1-16(代表作二)
Chen L#, Zhao HB, Chen Y, Jiang FJ, Zhou FY, Liu Q, Fan YQ, Liu TT, Tu W, Walther D, Song BT* (2022) Comparative transcriptomics analysis reveals a calcineurin B-like gene to positively regulate constitutive and acclimated freezing tolerance in potato. Plant Cell and Environment 45(11): 3305-3321(代表作三)
Kuang JF, Wu CJ, Guo YF, Walther D, Shan W, Chen JY, Chen L*, Lu WJ* (2021) Deciphering transcriptional regulators of banana fruit ripening by regulatory network analysis. Plant Biotechnology Journal 19(3): 477-489(代表作四)
Kou S#, Chen L#, Tu W, Scossa F, Wang Y, Liu J, Fernie AR, Song BT*, Xie CH* (2018) The arginine decarboxylase gene ADC1, associated to the putrescine pathway, plays an important role in potato cold acclimated freezing tolerance as revealed by transcriptome and metabolome analyses. The Plant Journal 96 (6): 1283-1298(代表作五)
Wang J, Kawocha MA, Liu T, Liu T, Guo J, Hu S, Liu Y, Liu S, Chen L*, Nie B*, Song B*. (2025) Tonoplast sugar transporter StTST1 mediates vacuolar sugar partitioning and abiotic stress tolerance in potato. Plant Physiology and Biochemistry 229, 110549
Cai D, Xu H, Liu Z, Chen N, Zhu L, Lin Z, Wu C, Shan W, Chen J, Lu W, Chen L*, Kuang J*. (2023) Banana MaERF124 negatively modulates carotenoid accumulation during fruit ripening through repression of carotenogenesis genes. Postharvest Biology and Technology 195, 112151
Chen L#, Zhou FY, Chen Y, Fan YQ, Zhang KK, Liu Q, Tu W, Jiang FJ, Li GC, Zhao HB, Song BT* (2023) Salicylic acid improves the constitutive freezing tolerance of potato as revealed by transcriptomics and metabolomics analyses. International Journal of Molecular Sciences 24(1): 609-629
Chen Y, Chen L, Sun X, Kou S, Liu TT, Dong JK, Tu W, Zhang Y, Song BT (2022) The mitogen-activated protein kinase kinase MKK2 positively regulates constitutive cold resistance in the potato. Environmental and Experimental Botany 194: 104702
Li X, Chen L, Liu T, Chen Y, Wang J, Song B (2024) Integrated analysis of ATAC-seq and transcriptomic reveals the ScDof3-ScproC molecular module regulating the cold acclimation capacity of potato. Plant Physiology and Biochemistry 210:108576
Liu TT, Wang J, Chen L, Liu SX, Liu TF, Yu L, Guo JJ, Chen Y, Zhang YL, Song BT* (2023) ScAREB4 promotes potato constitutive and acclimated freezing tolerance associated with enhancing trehalose synthesis and oxidative stress tolerance. Plant Cell and Environment 46(12): 3839-3857
Zhu L, Chen L, Wu C, Shan W, Cai D, Lin Z, Wei W, Chen J, Lu W, Kuang J (2022) Methionine oxidation and reduction of the ethylene signalling component MaEIL9 are involved in banana fruit ripening. Journal of Integrative Plant Biology35: 150-166
授权专利:
马铃薯直接抗寒性相关的Indel分子标记及其应用
育成品种:
华彩3号、热薯8号、热薯9号、热薯10号、热薯11号
