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Feifei Wang
PUBLISHED: October 11, 2021
Family Name Wang Given name Feifei

Gender Female Date of birth 1986.1
Title Dr. and Lecturer
Telephone No. 0514-87979254
Cell phone No. 18252770599
Email Feifei.Wang@yzu.edu.cn
Fax
Organization and contact information Nongmu building N605,Wenhui east road No. 48, Hanjiang district, Agricultural   College of Yangzhou University
Academic duties
Research Interests Physiological and molecular genetic mechanisms of abiotic stress in barley
Grants 1.   Identifying and revealing the roles of oxygen sensing channel response to   waterlogging stress in barley, National Natural Science Foundation of China,   2022-2024
   
    2. Revealing the salt tolerance mechanism and regulation network in barley,   Subproject of National Key Research and Development Program, 2018-2022
   
    3. Research on the mechanism and roles of HvTPC1 gene response to   waterlogging stress in barley, National Natural Science Foundation of   Jiangsu, 2019-2022
   
    4. Research on the mechanism and roles of HvTPC1 gene response to   waterlogging stress in barley, General project of Natural Science Foundation   of Jiangsu Universities, 2019-2021
   
    5. Identifying and revealing the   roles of oxygen sensing channel for waterlogging tolerance in barley,   Postdoctoral Foundation of Jiangsu Province, 2019-2021
Selected publications 1、Hou, P; Wang, F; Luo, Bin., et al. 2021.   Antioxidant enzymatic activity and osmotic adjustment as components of the   drought tolerance mechanism in Carex duriuscula. Plants, 10, 1-20.
    2、Wang F., et al. 2017. Revealing the roles of GORK channels and NADPH   oxidase in acclimation to hypoxia in Arabidopsis. Journal of Experimental   Botany, 67,3191-3204.
    3、Wang, F.,et al. 2019. The loss of RBOHD function modulates root adaptive   responses to combined hypoxia and salinity stress in Arabidopsis.   Environmental and Experimental Botany, 158, 125-135.
    4、 Wang F., et al. 2016. Tissue-specific root ion profiling reveals essential   roles for the CAX and ACA calcium transport systems for hypoxia response in Arabidopsis. Journal of Experimental Botany, 67, 3747-3762.
    5、 Wang, F., et al. 2017. Hypoxia sensing in plants: on a quest for ion   channels as putative oxygen sensors. Plant and Cell Physiology, 58,   1126-1142. (invited review, cover story)
    6、Wang, F., Deng S., Ding M., et al. 2013. Overexpression of a poplar   TPK-type K+ channel enhances salinity tolerance in tobacco cells. Plant Cell   Tissue and Organ Culture, 1, 19-31.
   

 

Telephone: 0514-87979226 / 87979212 / 87979351 Fax: 0514-87996817 Email: nxy@yzu.edu.cn
Address: 48 wenhui east road, yangzhou city, jiangsu province

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