一、基本情况
出生年月:1987年6月
籍贯:浙江绍兴
职称:教授
邮箱:niujun@hainanu.edu.cn
研究方向:
植物次生物质合成累积机制,植物油脂累积,转录、代谢及蛋白组学。
硕士招生专业:植物学、林学、园艺。
博士招生专业:植物学、林学、园艺。
教育背景
2006年09月- 2010年07月,北京林业大学,生物技术,本科。
2010年09月- 2013年07月,北京林业大学,硕士,生物化学与分子生物学。
2013年09月- 2016年07月,北京林业大学,博士(硕转博),野生动植物保护与利用。
学历:研究生
学位:博士
工作简历
2016年07月–2020年07月,海南大学,生物科学与药学院,高聘教授;
2020年07月–至今,海南大学,林学院,高聘教授。
教学情况
主要承担植物学、植物生理化学、分子生物学、植物遗传育种等课程的教学任务,具备坚实而全面的理论知识,对植物资源利用与分子生物学有深入的研究,积累了比较丰富的教学经验。
二、科研概况
主要从事植物天然产物形成机制的研究。
近期发表论文
1、Mai, Y., Huo, K., Yu, H., Zhou, N., Shui, L., Liu, Y., Niu, J.& Wang, L. (2020). Using lipidomics to reveal details of lipid accumulation in developing Siberian apricot (Prunus sibirica L.) seed kernels. GCB Bioenergy.
2、Huo, K., Shui, L., Mai, Y., Zhou, N., Liu, Y., Zhang, C., & Niu, J. (2020). Effects of exogenous abscisic acid on oil content, fatty acid composition, biodiesel properties and lipid components in developing Siberian apricot (Prunus sibirica) seeds. Plant Physiology and Biochemistry, 154, 260-267.
3、Deng, S., Mai, Y., Shui, L., & Niu, J. (2019). WRINKLED1 transcription factor orchestrates the regulation of carbon partitioning for C18: 1 (oleic acid) accumulation in Siberian apricot kernel. Scientific reports, 9(1), 1-11.
4、Mai, Y., Shui, L., Huo, K., & Niu, J. (2019). Genome-wide characterization of the NUCLEAR FACTOR-Y (NF-Y) family in Citrus grandis identified CgNF-YB9 involved in the fructose and glucose accumulation. Genes & Genomics, 41(11), 1341-1355.
5、Deng, S., Mai, Y., & Niu, J. (2019). Fruit characteristics, soluble sugar compositions and transcriptome analysis during the development of Citrus maxima “seedless”, and identification of SUS and INV genes involved in sucrose degradation. Gene, 689, 131-140.
6、Zhao, Y., Yu, W., Hu, X., Shi, Y., Liu, Y., Zhong, Y., Niu, J.& Yu, X. (2018). Physiological and transcriptomic analysis revealed the involvement of crucial factors in heat stress response of Rhododendron hainanense. Gene, 660, 109-119.
7、Niu, J., Bi, Q., Deng, S., Chen, H., Yu, H., Wang, L., & Lin, S. (2018). Identification of AUXIN RESPONSE FACTOR gene family from Prunus sibirica and its expression analysis during mesocarp and kernel development. BMC plant biology, 18(1), 1-11.
8、Lin, Z., An, J., Wang, J., Niu, J., Ma, C., Wang, L., ... & Zhang, Z. (2017). Integrated analysis of 454 and Illumina transcriptomic sequencing characterizes carbon flux and energy source for fatty acid synthesis in developing Lindera glauca fruits for woody biodiesel. Biotechnology for Biofuels, 10(1), 1-20.
9、Niu, J., Wang, J., An, J., Liu, L., Lin, Z., Wang, R., ... & Lin, S. (2016). Integrated mRNA and miRNA transcriptome reveal a cross-talk between developing response and hormone signaling for the seed kernels of Siberian apricot. Scientific reports, 6(1), 1-12.
10、Niu, J., An, J., Wang, L., Fang, C., Ha, D., Fu, C., ... & Xiang, Z. (2015). Transcriptomic analysis revealed the mechanism of oil dynamic accumulation during developing Siberian apricot (Prunus sibirica L.) seed kernels for the development of woody biodiesel. Biotechnology for biofuels, 8(1), 29.