|
Dr. Qingtao Zhang is a lecture at Department of Biomedical Engineering, Research Center for Biomechanics, College of Biomedical Engineering, Taiyuan University of Technology, Taiyuan 030024, PR China E-mail: zhangqingtao@tyut.edu.cn Website: https://www.researchgate.net/profile/Zhang_Qingtao2/unconfirmed |
Education
2009-2015 |
Shanghai Jiaotong University, China |
Ecology |
Ph.D. |
2004-2007 |
ShanXi Agriculture University, China |
Botany |
Master |
1999-2003 |
ShanXi Agriculture University, China |
Landscape architecture |
Bachelor |
Professional Experience
2015-now |
|
Taiyuan University of Technology, China |
2019-2020 |
|
School of Life Sciences, University of Nottingham, UK |
Research interests
- Biomechanics·Molecular Biology··
Recent work has focused on changes in cellular methylation levels and related gene expression in mechanical environments
Publications
> XX articles and X patents
H index : X
Selected publications
1. Qingtao Zhang, Ming He, Quan Lu, Jun Liang, Xingyao Zhang, Canker on bark of Populus spp. caused by Cytospora tritici, a new disease in China, Journal of Plant Disease, 2012, 96: 1578.
2. Qingtao Zhang, Ming He, Quan Lu, Jun Liang, Xingyao Zhang, Morphological and Molecular Identification of Cytospora germanica Causing Canker on Populus spp. in China, Journal of Plant Disease, 2013, 97: 846.
3. Qingtao Zhang, Quan Lu, Ming He, Jun Liang, Xingyao Zhang, Cytospora palm sp. nov. (Diaporthales, Ascomycota), a canker agent on Cotinus coggygria (Anacardiaceae) in Northern China, Cryptogamie Mycologie, 2014, 35(3): 211-220.
···
Others. Such as Lectures/Conferences/Awards/Honors/Projects
Projects
1. Preliminary study on screening and regulation of miRNAs and lncRNA in Valsa fungi
2. The role and mechanism of LncRNA and miRNA regulatory network in promoting proliferation and differentiation of mouse tendon stem cells by periodic stretching
3. Study on the effect of periodic mechanical stretching on the migration of chicken primordial germ stem cells and its mechanism of mechanical signal regulation
4. Molecular Mechanism of miR-let-7A regulating thyroid development in swine
