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刘国栋
2023-05-12 14:49
  • 刘国栋
  • 刘国栋 - 副教授 硕导-山东大学-微生物技术国家重点实验室-个人资料

近期热点

资料介绍

个人简历


教育背景 硕博连读2007.9-2012.6山东大学 专业:微生物学(期间在中国科学院植物生理生态研究所学习、研究) 学士2003.9-2007.6山东大学 专业:生物技术(国家生命科学与技术人才培养基地班) 工作经历 2016.6至今 山东大学 助理研究员 2013.8-2016.6 Chalmers University of Technology, Sweden 博士后 2012.7-2013.6 山东大学 科研助理

研究领域


1. 真菌基因转录调控机制 2. 真菌系统生物学与合成生物学 3. 木质纤维素高效降解酶系的研发

近期论文


1. Du J, Zhang X, Li X, Zhao J,Liu G*, Gao B, Qu Y. The cellulose binding region inTrichoderma reesei cellobiohydrolase I has a higher capacity in improving crystalline cellulose degradation than that ofPenicillium oxalicum.Bioresour Technol, 2018, 266:19–25. 2. Qu J, Zhu J,Liu G*, Qu Y. Identification of key components for the optimization of cellulase mixtures using a proteomic strategy. In: Lübeck M. (eds) Cellulases.Methods Mol Biol, 2018, 1796. Humana Press, New York, NY(书籍章节) 3. Hu Y, Qin Y,Liu G*. Collection and curation of transcriptional regulatory interactions inAspergillus nidulans andNeurospora crassa reveal structural and evolutionary features of the regulatory networks.Front Microbiol, 2018, 9:27. 4. Gao L, Xia C, Xu J, Li Z, Yu L,Liu G*, Song X*, Qu Y. Constitutive expression of chimeric transcription factors enables cellulase synthesis under non-inducing conditions inPenicillium oxalicum.Biotechnol J, 2017, 12(11):1700119.(当期编辑推荐论文) 5. Peng S, Cao Q, Qin Y, Li X,Liu G*, Qu Y. An aldonolactonase AltA fromPenicillium oxalicum mitigates the inhibition of β-glucosidase during lignocellulose biodegradation.Appl Microbiol Biotechnol, 2017, 101(9):3627–3636. 6. Liu G, Chen Y, Færgeman NJ, Nielsen J*.Elimination of the last reactions in ergosterol biosynthesis alters the resistance ofSaccharomyces cerevisiae to multiple stresses,FEMS Yeast Res, 2017, 17(6): fox063. 7. Liu G, Bergenholm D, Nielsen J*. Genome-wide mapping of binding sites reveals multiple biological functions of the transcription factor Cst6p inSaccharomyces cerevisiae.mBio, 2016, 7(3):e00559-16. 8. Rajkumar AS,Liu G, Bergenholm D, Arsovska D, Kristensen M, Nielsen J, Jensen MK*, Keasling JD. Engineering of synthetic, stress-responsive yeast promoters.Nucleic Acids Res, 2016, 30;44(17):e136. 9. Liu G, Marras A, Nielsen J*. The future of genome-scale modeling of yeast through integration of a transcriptional regulatory network.Quant Biol, 2014, 2(1):30–46.(封面文章) 10. Li J,Liu G*, Chen M, Li Z, Qin Y, Qu Y*. Cellodextrin transporters play important roles in cellulase induction in the cellulolytic fungusPenicillium oxalicum.Appl Microbiol Biotechnol, 2013, 97(24):10479–10488. 11. Liu G, Qin Y, Li Z, Qu Y*. Development of highly efficient, low-cost lignocellulolytic enzyme systems in the post-genomic era.Biotechnol Adv, 2013, 31(6):962–975. 12. Liu G, Qin Y, Li Z, Qu Y*. Improving lignocellulolytic enzyme production withPenicillium: from strain screening to systems biology.Biofuels, 2013, 4(5):523–534. 13. Liu G, Zhang L, Wei X, Zou G, Qin Y, Ma L, Li J, Zheng H, Wang S, Wang C, Xun L, Zhao GP, Zhou Z*, Qu Y*. Genomic and secretomic analyses reveal unique features of the lignocellulolytic enzyme system ofPenicillium decumbens.PLOS ONE, 2013, 8(2): e55185.(PLOS ONE前10%高被引论文) 14. Liu G, Qin Y, Hu Y, Gao M, Peng S, Qu Y*. An endo-1,4-β-glucanase PdCel5C from cellulolytic fungusPenicillium decumbens with distinctive domain composition and hydrolysis product profile.Enzyme Microb Technol, 2013, 52(3):190–195. 15. Liu G, Wei X, Qin Y*, Qu Y*. Characterization of the endoglucanase and glucomannanase activities of a glycoside hydrolase family 45 protein fromPenicillium decumbens 114-2.J Gen Appl Microbiol, 2010, 56(3):223–229.

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