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主要从事烟粉虱,蓟马等蔬菜害虫的生物学、生态学、抗药性和害虫综合治理等研究,特别在蔬菜害虫基因组和转录组学研究,害虫发生规律、与寄主植物互作关系、抗药性及防治技术等方面进行了深入研究并取得重要成果。主持国家基金及北京市自然基金3项,入选2017年度北京市科技新星,参加973项目、支撑计划、863、国家自然科学基金、国家农业科技成果转化等课题10余项。第一或通讯在Molecular Ecology Resource, Pest Management Science, Journal of Pest Science,《应用昆虫学报》,《中国蔬菜》等国内外重要期刊上发表论文30余篇。
1. Yang# and Xie# et al., Phenolics, rather than glucosinolates,mediate host choice of Bemisia tabaci MEAM1 and MED on five cabbagegenotypes. Journal of AppliedEntomology, 2020. DOI: 10.1111/jen.12737. 【并列第一作者】
2. Xie et al.,Chromosome-level genome assembly of the greenhouse whitefly (Trialeurodes vaporariorum Westwood).2020. Molecular EcologyResource. Doi:10.1111/1755-0998.13159. IF=7.21. 【第一作者】
3. Xie et al., Genomesequencing of the sweetpotato whitefly Bemisia tabaci MED/Q. 2017. GigaScience. 6:1-7. IF=7.44. 【第一作者】
4. Jiao# and Xie# et al., Lack ofcorrelation between host choice and feeding efficiency for the B and Q putativespecies of Bemisia tabaci on fourpepper genotypes. Journal of Pest Science,2018, 91: 133–143. IF=5.13. 【并列第一作者】
5. He, Xie* et al., Molecularcharacterization of an NADPH cytochrome P450 reductase from Bemisia tabaci Q:potential involvement in susceptibility to imidacloprid. 2020. Pesticide Biochemistry and Physiology. 162: 29–35. IF=3.28. 【通讯作者】
6. He, Xie* et al., Molecular characterizationof an NADPH cytochrome P450 reductase from Bemisia tabaci Q: potentialinvolvement in susceptibility to imidacloprid. 2020. Pesticide Biochemistry and Physiology, 162: 29–35. IF=3.28. 【通讯作者】
7. He, Xie* et al., Changes in theexpression of four ABC transporter genes in response to imidacloprid in Bemisia tabaci Q (Hemiptera:Aleyrodidae). 2019. Pesticide Biochemistry and Physiology, 153: 136–143. IF=3.28. 【通讯作者】
8. Zeng, Xie*, et al., Genome-wide analysis of odorant-binding proteins andchemosensory proteins in the sweet potato whitefly, Bemisia tabaci. 2019. Insect science. 26:620-634. IF=2.55. 【通讯作者】
9. Liu, Xie*, et al., Genome-wide dissection of sex determination genes in the highlyinvasive whitefly species Bemisia tabaci Q/MED.2019.Insect Molecular Biology, 28: 509–519. IF=2.49. 【通讯作者】
10. Xie et al., The invasive MED/Q B. tabaci genome: a taleof gene loss and gene gain. 2018. BMC Genomics. 19:68. IF=4.14. 【第一作者】
11. He, Xie* et al., Identification of glutathione S-transferases in Bemisiatabaci (Hemiptera: Aleyrodidae) and evidence that GSTd7 helps explain thedifference in insecticide susceptibility between B.tabaci MiddleEast-Minor Asia 1 and Mediterranean. 2018. Insect Molecular Biology. 27: 22–35. IF=2.62. 【通讯作者】
12. Guo, Xie*, et al., Identification andcharacterization of doublesex in Bemisiatabaci. 2018. Insect Molecular Biology,27: 620–632. IF=2.49. 【通讯作者】
13. Peng, Xie*, et al., Field resistancemonitoring of the immature stages of the whitefly Bemisia tabaci to spirotetramat in China. 2017. Crop Protection, 98: 243–247. IF=1.90. 【通讯作者】
14. Zheng, Xie*, et al., Dynamicmonitoring (B versus Q) and further resistance status of Q-type Bemisia tabaci in China. 2017. CropProtection, 94: 115–122. IF=1.92. 【通讯作者】
15. Liu, Xie*, et al., Molecular cloning ofthe sex-related gene PSI in Bemisia tabaci and its alternativesplicing properties. 2016. Gene,580: 104–110. IF=2.41. 【通讯作者】
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