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Director of the Key laboratory of Plant Development and Environmental Adaption, the Ministry of Education
Shandong University, China
Tel.: +86-532-58630886
E-mail: xiagm@sdu.edu.cn
http://www.lifesci.sdu.edu.cn/info/1062/1653.htm
Area of expertise: wheat; abiotic stress; drought; saline and alkaline; chromosomal engineering, genomic variation, chemical agriculture
Selected Publications:
Yu, Z., Duan, X., Luo, L., Dai, S., Ding, Z., and Xia, G. (2020). How plant hormones mediate salt stress responses. Trends Plant Sci. 25: 1117–1130.
Ding, P., Fang, L., Wang, G., Li, X., Huang, S., Gao, Y., Zhu, J., Xiao, L., Tong, J., Chen, F., and Xia, G. (2019). Wheat methionine sulfoxide reductase A4.1 interacts with heme oxygenase 1 to enhance seedling tolerance to salinity or drought stress. Plant Mol. Biol. 101: 203–220.
Wang, S., Xu, S., Chao, S., Sun, Q., Liu, S., and Xia, G. (2019). A genome-wide association study of highly heritable agronomic traits in durum wheat. Front. Plant Sci. 10: 919.
Zhu, J., Wang, G., Li, C., Li, Q., Gao, Y., Chen, F., and Xia, G. (2019). Maize Sep15-like functions in endoplasmic reticulum and reactive oxygen species homeostasis to promote salt and osmotic stress resistance. Plant Cell Environ. 42: 1486–1502.
Wang, M., Wang, S., Liang, Z., Shi, W., Gao, C., and Xia, G. (2018). From genetic stock to genome editing: Gene exploitation in wheat. Trends Biotechnol. 36: 160–172.
Wang, M., Ji, Y., Feng, S., Liu, C., Xiao, Z., Wang, X., Wang, Y., and Xia, G. (2018). The non-random patterns of genetic variation induced by asymmetric somatic hybridization in wheat. BMC Plant Biol. 18: 244.
Wang, M., Wang, S., and Xia, G. (2015). From genome to gene: A new epoch for wheat research? Trends Plant Sci. 20: 380–387.
Liu, S.T., Liu, S.W., Wang, M., Wei, T., Meng, C., Wang, M., and Xia, G. (2014). A wheat SIMILAR TO RCD-ONE gene enhances seedling growth and abiotic stress resistance by modulating redox homeostasis and maintaining genomic integrity. Plant Cell 26: 164–180.
Zhao, Y., Dong, W., Zhang, N., Ai, X., Wang, M., Huang, Z., Xiao, L., and Xia, G. (2014). A wheat allene oxide cyclase gene enhances salinity tolerance via jasmonate signaling. Plant Physiol. 164: 1068–1076.
Dong, W., Wang, M., Xu, F., Quan, T., Peng, K., Xiao, L., and Xia, G. (2013). Wheat oxophytodienoate reductase gene TaOPR1 confers salinity tolerance via enhancement of abscisic acid signaling and reactive oxygen species scavenging. Plant Physiol. 161: 1217–1228.
Li, C., Lv, J., Zhao, X., Ai, X., Zhu, X., Wang, M., Zhao, S., and Xia, G. (2010). TaCHP: A wheat zinc finger protein gene down-regulated by abscisic acid and salinity stress plays a positive role in stress tolerance. Plant Physiol. 154: 211–221.
Sun, Y., Xu, W., Jia, Y., Wang, M., and Xia, G. (2015). The wheat TaGBF1 gene is involved in the blue-light response and salt tolerance. Plant J. 84: 1219–1230.
Liu, S., Li, F., Kong, L., Sun, Y., Qin, L., Chen, S., Cui, H., Huang, Y., and Xia, G. (2015). Genetic and epigenetic changes in somatic hybrid introgression lines between wheat and tall wheatgrass. Genetics 199: 1035–1045.
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