孙伟 - 重庆大学 - 生命科学学院

个人简介

2007/09-2013/06，西南大学，家蚕基因组生物学国家重点实验室，博士 2003/09- 2007/06，西南大学，生物技术学院，学士

研究领域

主要研究方向：昆虫发育遗传学。目前，主要以家蚕为模式，通过基因组，转录组，分子生物学，细胞生物学以及遗传学等研究方法和手段，揭示昆虫蜕皮激素滴度变化的分子机理，及其对变态发育的调控机制。

近期论文

查看导师最新文章（温馨提示：请注意重名现象，建议点开原文通过作者单位确认）

（1） Wang CF, Zhang Z*, Sun W* (2018). Ecdysone oxidase and 3-dehydroecdysone-3β-reductase contribute to the synthesis of ecdysone during early embryonic development of the silkworm. International Journal of Biological Sciences 8:125-138 (SCI IF:4.057) （2） Sun W*, Wang CF, Zhang Z (2017). Transcription factor E74A affects the ecdysone titer by regulating the expression of the EO gene in the silkworm, Bomby mori. BBA-General Subjects. 1861:551–558 (SCI IF:5.083) （3） Sun W, Shen YH, Zhou LX, Zhang Z* (2016). Ecdysone titer determined by 3DE-3beta-reductase enhances the immune response in the silkworm. Journal of Immunology 196:1646-1654 (SCI IF:4.985) （4） Sun W, Zhao XW and Zhang Z*. (2015) Identification and evolution of the orphan genes in the domestic silkworm, Bombyx mori. FEBS Letters 589: 2731–2738 (SCI IF:3.519) （5） Sun W, Shen YH, Han MJ, Cao YF and Zhang Z*. (2014) An adaptive transposable element insertion in the regulatory region of the EO gene in the domesticated silkworm, Bombyx mori. Molecular Biology and Evolution 31:3302-3313 (SCI IF: 13.649) （6） Sun W, Shen YH, Qi DW, Xiang ZH and Zhang Z*. (2012) Molecular cloning and characterization of ecdysone oxidase and 3-dehydroecdysone-3α-reductase involved in the ecdysone inactivation pathway of silkworm, Bombyx mori. International Journal of Biological Sciences 8:125-138 (SCI IF: 3.982) （7） Sun W, Shen YH, Yang WJ, Cao YF, Xiang ZH and Zhang Z*. (2012) Expansion of the silkworm GMC oxidoreductase genes is associated with immunity. Insect Biochemistry and Molecular Biology 42:935-945 (SCI IF: 3.767) （8） Sun W, Yu HS, Shen YH, Banno Y, Xiang ZH and Zhang Z*. (2012) Phylogeny and evolutionary history of the silkworm. Science China Life Sciences 55:483-496 (SCI IF: 2.297) （9） Dai ZJ, Sun W and Zhang Z*. (2018) Comparative analysis of iTRAQ-based proteomes for cocoons between the domestic silkworm (Bombyx mori) and wild silkworm (Bombyx mandarina). Journal of Proteomics (In press SCI IF: 3.95) （10） Zhang Q, Sun W, Sun BY, Xiao Y and Zhang Z*. (2017) The dynamic landscape of gene regulation during Bombyx mori oogenesis. BMC Genomics 18:714 (SCI IF: 3.867) （11） Yu XB, Shen YH, Cui QM, Chen Y, Sun W, Huang XZ* and Zhu Y. (2017) Silkworm (Bombyx mori) has the capability to accumulate C20 and C22 polyunsaturated fatty acids. European Journal of Lipid Science and Technology. (In press SCI IF:2.2) （12） Fu P, Sun W, Zhang Z*. (2016) Molecular cloning, expression and characterization of acylpeptide hydrolase in the silkworm, Bombyx mori. Gene 580:8-16 (SCI IF: 2.319) （13） Zhao Q, Han MJ, Sun W and Zhang Z*. (2014) Copy number variations among silkworms. BMC Genomics 15:251 (SCI IF: 3.867) （14） Guo Y, Shen YH, Sun W, Kishino H, Xiang ZH and Zhang Z*. (2011). Nucleotide diversity and selection signature in the domesticated silkworm, Bombyx mori, and wild silkworm, Bombyx mandarina. Journal of Insect Science 11:155 (SCI IF: 0.65)