姓名 | 蒋德兴 | 性别 | 男 |
籍贯 | 江苏 徐州 | 职称 | 讲师 |
学历 | 博士研究生 | 学位 | 理学博士 |
邮箱 | dxjiang0525@qq.com | ||
研究方向 | 植物抗逆生理与分子机制研究 | ||
个人履历 | 2022.9-至今:江苏第二师范学院,讲师。 2017.9-2022.6:南京师范大学,植物学,理学博士 2013.9-2017.6:淮阴工学院,生物工程,工学学士 | ||
研究内容 | 1. 植物抗铝毒机制的研究; 2. 硅调控植物逆境响应的机制研究; 3. 水稻光合对逆境胁迫的响应机制研究。 | ||
主持项目 | 江苏省高校自然科学研究项目,硅调控水稻多胺与乙烯互作应答铝胁迫的机制研究,主持 | ||
荣誉奖励 | 1. 博士国家奖学金 2. 江苏省植物生理学会第六届青年学术年会优秀论文报告三等奖 | ||
学术兼职 | |||
代表论文 | [1] Jiang D, Gao W, Chen G. Toxic effects of lanthanum(III) on photosynthetic performance of rice seedlings: Combined chlorophyll fluorescence, chloroplast structure and thylakoid membrane protein assessment. Ecotoxicol Environ Saf. 2023, 267:115627. (SCI-1区,I F=6.8) [2] Jiang D,X Xu H, Zhang Y, Chen G. Silicon mediated redox homeostasis in the root-apex transition zone of rice plays a key role in aluminum tolerance. Plant Physiol Biochem. 2023, 201:107871. (SCI-2区,IF=6.5) [3] Jiang D, Wu H, Cai H, Chen G. Silicon confers aluminium tolerance in rice via cell wall modification in the root transition zone. Plant Cell Environ. 2022, 45(6):1765-1778. (SCI-1区,IF=7.3) [4] Jiang D, Zhang H, Cai H, Gao Z, Chen G. Overexpression of ZmPCK2, a phosphoenolpyruvate carboxykinase gene from maize confers enhanced tolerance to water deficit stress in rice. Plant Sci. 2022, 317:111195. (SCI-2区,IF=5.2) [5] Jiang D, Hou J, Gao W, Tong X, Li M, Chu X, Chen G. Exogenous spermidine alleviates the adverse effects of aluminum toxicity on photosystem II through improved antioxidant system and endogenous polyamine contents. Ecotoxicol Environ Saf. 2021, 207:111265. (SCI-1区,IF=6.8) [6] Jiang D, Zeng Y, Almakas A, Tong X, Gao Z, Chen G.Physiological features and thylakoid membrane proteomic analysis of rice NG46 during natural leaf senescence. Acta Physiol Plant, 2021, 43:19. (SCI-4区,IF=2.6) [7] Jiang D, Chu X, Li M, Hou J, Tong X, Gao Z, Chen G.Exogenous spermidine enhances salt-stressed rice photosynthetic performance by stabilizing structure and function of chloroplast and thylakoid membranes. Photosynthetica. 2020, 58(1):61-71. (SCI-4区,IF=2.7) [8] Wang Y#, Jiang D#, Hou J, Chen G. Physiological characterization and thylakoid ultrastructure analysis in super high-yield hybrid rice leaves under drought stress. Photosynthetica. 2019, 57(3):890-896. (SCI-4区,IF=2.7) [9] Wang Y, Zhang B, Jiang D, Chen G.Silicon improves photosynthetic performance by optimizing thylakoid membrane protein components in rice under drought stress. Environ Exp Bot, 2019, 158:117-124. (SCI-2区,IF=5.7) [10] Xu H, Chu X, Gou K, Jiang D, Li Q, Lv C, Gao Z, Chen G.The photosynthetic function analysis for leaf photooxidation in rice. Photosynthetica. 2023, 61(1):48-57. (SCI-4区,IF=2.7) | ||