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Dr. Haixia Liang is an associate professor at Department of Biomedical Engineering, Research Center for Nano-Biomaterials & Regenerative Medicine, College of Biomedical Engineering, Taiyuan University of Technology, Taiyuan 030024, PR China E-mail: lianghaixia456@hotmail.com |
Education
2009-2013 |
Shanxi University, China |
Biochemistry and Molecular Biology |
Ph.D. |
2006-2009 |
China Institute of Veterinary Drug Control, China |
Molecular Virology |
Master |
2002-2006 |
Shanxi Agricultural University, China |
Veterinary |
Bachelor |
Professional Experience
2013-now |
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Taiyuan University of Technology, China |
2019-2020 |
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Nankai University, US |
Research interests
- Biobased materials from microbial biomass and its derivatives
- Nano-materials for subcellular imaging, genetic delivery and biosensor.
Selected publications
Liang Haixia, Wang Wei, et al. Subcellular localization and role of Ran1 in Tetrahymena thermophila amitotic macronucleus. FEBS Journal, 2012.
Liang Haixia, Wang Wei, et al. Construction of green fluorescentprotein expression vector and application in Tetrahymena thermophila. Chinese Journal of Cell Biology, 2012.
Liang Haixia, Wang Wei, et al. Ran1 is essential for parental macronuclear import of apoptosis inducing factor and programmed nuclear death in Tetrahymena thermophila. FEBS Journal, 2019.
Liang Haixia. Inducible expression of Ran1 and its GDP- and GTP-bound mimetic mutants leads to defects in amitosis and cytokinesis with abnormal cytoplasmic microtubule assembly. Molecular biology, 2019.
Inventors: Liang Haixia, et al. A method of biological control to prevent the rice sheath bligh. China Patent # ZL201510120430.1
Inventors: Liang Haixia, et al. The construction of a multi-genes co-transfection Tetrahymena cell line and its application. China Patent # ZL 201410342717.4
Projects
Molecular mechanism of RanGTPase nuclear transport system mediated apoptosis through AIF nuclear translocation. No.31501124. 2016.01-2018.12. Supported by National Natural Science Foundation of China, ¥230,000, Host.
Molecular mechanism of Ran-mediated protein transfer duting autophagy. No. 2015021199,2015.01-2017.12. Supported by Shanxi Province Science Foundation for Youths, ¥30,000, Host.
Imaging of O2•- in autophagy cell with Carbon quantum dots (core)/ Ag (shell) nanoparticle probe. 2018.07-2020.6. Supported by Foundation for Science and Technology Innovation in Higher Education of Shanxi, ¥10,000, Host.
Phosphatase hydrolysis-responsive Gold Nano fluorescent probe targeting lysosome and real-time tracking of autophagy, Key Research and Development Plan of Shanxi Province, 2018.06-2021.05, ¥100,000, Host.
Modification of circulating fluidized bed fly ash by microorganism, Key Research and Development Plan of Jinzhong City, 2019.06-2021.12, ¥100,000, Host.
