Master's supervisor
Lingqiang Wang
Release date:2024-08-14
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Lingqiang   Wang

IMG_256

Title:

Professor,

College   of Agriculture,

Guangxi   University

Email: lqwang@gxu.edu.cn

Telephone: +86-159276544

STUDY WORK HISTORY

In   1997, he received his B.S., Crop Genetics and Breeding, Department of   Agronomy, Huazhong Agricultural University;

In 2001, he received his M.S., Crop Genetics and Breeding,   Department of Agronomy, Huazhong Agricultural University;

In 2007, he   received his Ph.D., Plant Biochemistry and Molecular Biology,

College   of Life Science and Technology, Huazhong Agricultural University;

In 2007, he became a research Associate (Post doctor), Huazhong   Agricultural University;

In   2008-2019, he became an associate Professor, Huazhong Agricultural   University;

Since   2019, he has been a professor , Guangxi University.

TEACHING AREA

Modern   Plant Physiology;

Physiological   Experiments;

Biochemical   Experiments; Introduction to Biotechnology;

production   practice;

Biomass   Energy;

Advanced   Energy Plant Breeding;

Biomass   Energy Research Progress;

Biotechnology.

RESEARCH INTEREST:

Plant   cell wall biosynthesis, structure and function, GWAS, Cold stress; Rice and   sugarcane genetics and breeding.

RESEARCH HIGHLIGHT

The   laboratory has long been engaged in germplasm resource innovation and   resistance gene function research of grass crops (plants) such as sugarcane,   rice and wheat, straw traits, cell wall biosynthesis, degradation and   transformation molecular mechanism research, and energy crop breeding.   Through the use of transcriptomics, metabolomics, gene editing, biochemical   and molecular biology, bioinformatics, quantitative genetics, biomass energy   and other technologies and knowledge, the research aims to reveal the   functions and regulatory networks of important trait genes in plant growth   and development and stress response.

PUBLICATIONS

[1]      Li   Z,Rao M J,Li J,Wang Y,Chen P,Yu H,Ma C,Wang L. Crispr/cas9 mutant rice   ospmei12 involved in growth, cell wall development, and response to   phytohormone and heavy metal stress[J]. International Journal of Molecular   Sciences, 2022, 23(24): 16082.  doi:10.3390/ijms232416082

[2]      Li   J,Khatab A A,Hu L,Zhao L,Yang J,Wang L,Xie G. Genome-wide association mapping   identifies new candidate genes for cold stress and chilling acclimation at   seedling stage in rice (oryza sativa l.)[J]. International Journal of   Molecular Sciences, 2022, 23(21): 13208.  doi:10.3390/ijms232113208

[3]      Rao   MJ, Wu S, Duan M, Wang L. Antioxidant Metabolites in Primitive, Wild, and   Cultivated Citrus and Their Role in Stress Tolerance. Molecules. 2021 Sep   24;26(19):5801. doi: 10.3390/molecules26195801.

[4]      Yang   J, Ji L, Liu S, Jing P, Hu J, Jin D, Wang L, Xie G. The CaM1-associated   CCaMK-MKK1/6 cascade positively affects lateral root growth via auxin   signaling under salt stress in rice. J Exp Bot. 2021 Sep 30;72(18):6611-6627.   doi: 10.1093/jxb/erab287.

[5]      Hu   Z, Wang Y, Liu J, Li Y, Wang Y, Huang J, Ai Y, Chen P, He Y, Aftab MN, Wang   L, Peng L. Integrated NIRS and QTL assays reveal minor mannose and galactose   as contrast lignocellulose factors for biomass enzymatic saccharification in   rice. Biotechnol Biofuels. 2021 Jun 26;14(1):144. doi:   10.1186/s13068-021-01987-x.

 

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