PhD Supervisor
Peng Chen
Release date:2024-08-14
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Peng Chen

Title:

Professor,

College   of Agriculture,

Guangxi   University

Email: chenpen@gxu.edu.cn

Telephone: Updating

STUDY WORK HISTORY

From   2012 to now, Professor, doctoral supervisor, School of Agriculture, Guangxi University.

From   2008 to 2012, lecturer, associate professor, School of Agriculture, Guangxi University.

In   2008, received Ph.D. from Huazhong University of Science and Technology (HUST),   Wuhan, China

In   2003, received Master degree. from Huazhong Agriculture University, Wuhan,   China

In   2000, graduated from Huazhong Agriculture University, Wuhan, China

TEACHING AREA

Crop   Science

RESEARCH INTEREST:

Molecular   Biology & Biochemistry; Crop breeding

RESEARCH HIGHLIGHT

He   is mainly engaged in the molecular mechanism of cytoplasmic male sterility   and growth and development regulation of Bast fiber Crop (jute, jute, hemp,   industrial hemp, etc.), the cultivation mode and physiology of Bast fiber   crops, the multi-purpose development and application of Bast fiber crops, the   remediation and utilization of Bast fiber crops in saline-alkali land and   heavy metal contaminated soil, and the physiological and molecular mechanisms   of crop stress response,  and also the basic research on the molecular   biology of crops such as soybeans. At present, he has presided over 5   projects of the National Natural Science Foundation of China. National Modern   Agricultural Industry Technology System Post Scientist Project, etc.

PUBLICATIONS

[1]    Hu   Yali, Yue, J., Nie, J., Luo, D., Cao, S., Wang, C., Pan, J., Chen, C., Zhang,   H., Wu, Q., Tan, Y., Li, R., Chen Peng*, 2023. Salicylic acid alleviates the   salt toxicity in kenaf by activating antioxidant system and regulating   crucial pathways and genes. Industrial Crops and Products 199, 116691.

[2]    Chen   Peng*, Chen, T., Li, Z., Jia, R., Luo, D., Tang, M., Lu, H., Hu, Y., Yue, J.,   Huang, Z., Transcriptome analysis revealed key genes and pathways related to   cadmium-stress tolerance in Kenaf (Hibiscus cannabinus L.). INDUSTRIAL CROPS   AND PRODUCTS, 2020. 158, 112970.

[3]    Chen   Peng*, Li, Z., Luo, D., Jia, R., Lu, H., Tang, M., Hu, Y., Yue, J., Huang,   Z., Comparative transcriptomic analysis reveals key genes and pathways in two   different cadmium tolerance kenaf (Hibiscus cannabinus L.) cultivars.   CHEMOSPHERE, 2021, 263, 128211.

[4]    Tang   Meiqiong, J. Yue, Z. Huang, Y. Hu, Z. Li, D. Luo, Chen Peng*. Physiological   and DNA methylation analysis provides epigenetic insights into chromium   tolerance in kenaf. Environmental and Experimental Botany, 2022.194: 104684.

[5]    Luo   Dengjie, Lu, H., Wang, C., Mubeen, S., Cao, S., Yue, J., Pan, J., Wu, X., Wu,   Q., Zhang, H., Chen, C., Rehman, M., Li, R., Chen Peng*2023. Physiological   and DNA methylation analysis provides epigenetic insights into kenaf cadmium   tolerance heterosis. Plant science, ,111663-111663

 

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