薛思佳，博士、讲师，邮箱：15965584896@163.com

个人履历：
2011.09-2015.06，内蒙古大学，理学学士
2015.09-2019.06，中国海洋大学，理学博士
2019.07-至今，青岛农业大学，讲师

研究方向：
微生物代谢产物的合成途径和调控机制研究。

科研成果：
近5年来的研究工作主要集中在酵母菌资源开发利用及酵母菌天然代谢产物合成途径和调控机制解析、天然产物高效合成的微生物细胞工厂的构建等方面。发表SCI论文9篇，其中以第一作者（含共同第一作者）身份发表6篇。主持山东省自然科学基金和青岛农业大学高层次人才基金项目各一项。
代表成果：
[1] Si-Jia Xue#, Zhe Chi#*, Guang-Lei Liu#, Zhi-Chao Gao, Zhong Hu, Zhen-Ming Chi*. Genetic evidences for the core biosynthesis pathway, regulation, transport and secretion of liamocins in yeast-like fungal cells. The Biochemical journal, 2020, 477: 887-903.
[2] Si-Jia Xue#, Lu Chen#, Hong Jiang, Guang-Lei Liu, Zhen-Ming Chi*, Zhong Hu, Zhe Chi*. High pullulan biosynthesis from high concentration glucose by a hyper-osmotic resistant yeast-like fungal strain isolated from a natural comb-honey. Food Chemistry, 2019, 286:123-128.
[3] Si-Jia Xue#, Hong Jiang#, Lu Chen, Na Ge, Guang-Lei Liu, Zhong Hu, Zhen-Ming Chi, Zhe Chi*. Over-expression of Vitreoscilla hemoglobin (VHb) and flavohemoglobin (FHb) genes greatly enhances pullulan production. International Journal of Biological Macromolecules, 2019, 132: 701-709.
[4] Si-Jia Xue#, Zhe Chi#, Yu Zhang, Yan-Feng Li, Guang-Lei Liu, Hong Jiang, Zhong Hu, Zhen-Ming Chi*. Fatty acids from oleaginous yeasts and yeast-like fungi and their potential applications. Critical Reviews in Biotechnology, 2018, 38: 1049-1060.
[5] Hong Jiang#, Si-Jia Xue#, Yan-Feng Li, Guang-Lei Liu, Zhen-Ming Chi, Zhong Hu, Zhe Chi*. Efficient transformation of sucrose into high pullulan concentrations by Aureobasidium melanogenum TN1-2 isolated from a natural honey. Food Chemistry, 2018, 257: 29-35.
[6] Shu-Hang Zhang#, Hong Jiang#*, Si-jia Xue#, Na Ge, Yi Sun, Zhe Chi, Guang-Lei Liu, Zhen-Ming Chi*. Efficient conversion of cane molasses into FOSs by a glucose derepression mutant of Aureobasidium melanogenum with high β-fructofuranosidase activity. Journal of Agricultural and Food Chemistry, 2019, 67: 13665-13672.
[7] Lu Chen#, Zhe Chi*, Guang-Lei Liu#, Si-Jia Xue, Zhi-Peng Wang#, Zhong Hu, Zhen-Ming Chi. Improved pullulan production by a mutant of Aureobasidium melanogenum TN3-1 from a natural honey and capsule shell preparation. International Journal of Biological Macromolecules, 2019, 141: 268-277.
[8] Rui-Rui Tang, Zhe Chi, Hong Jiang, Guang-Lei Liu, Si-Jia Xue, Zhong Hu, Zhen-Ming Chi*. Overexpression of a pyruvate carboxylase gene enhances extracellular liamocin and intracellular lipid biosynthesis by Aureobasidium Melanogenum M39. Process Biochemistry, 2018, 69: 64-74.
[9] Fang-Hua Xin, Yan Zhang, Si-Jia Xue, Zhe Chi, Guang-Lei Liu, Zhong Hu, Zhen-Ming Chi*. Heavy oils (mainly alkanes) over-production from inulin by Aureobasidium Melanogenum 9-1 and its transformant 88 carrying an inulinase gene. Renewable Energy, 2017, 105: 561-568.