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五大发展理念视域下生物科学发展的理性思考

Rational meditation on the development of bioscience from the perspective of five development ideas
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摘要 通过全视角剖析“创新、协调、绿色、开放、共享”五大发展理念与生物科学发展的关系,全方位探索五大发展理念对中国生物科学发展趋向所产生的深远影响,加强对生物科学研究人员的教育引导,积极有效促进五大发展理念对生物科学发展的引领作用:用创新发展提升生物科学发展动力;用协调发展解决生物科学发展不平衡问题;用绿色发展引领生物科学发展方向;将开放发展作为生物科学发展宏观战略;将共享发展作为生物科学发展的最终目标.进而达到生物科学持续创新发展的目的. By analyzing the relationship between bioscience development and five development ideas from the whole perspective of innovation,coordination,green,opening-up and sharing,we explored the profound influence of five development ideas upon Chinese bioscience development tendency to enhance the educational guidance for bioscience researchers and actively and effectively promote the leading function of five development ideas towards bioscience development,including improving bioscience development impetus with innovation development,solving the problems of unbalanced development of bioscience with coordination development,steering the development direction of bioscience with green development and taking opening-up development as the macro strategy for the bioscience development,and the sharing development as the ultimate goal of bioscience development to achieve the sustainable and innovative development of bioscience development.
作者 徐晓敏 任尚峰 XU Xiao-min;REN Shang-feng(Human Resources Office,Chaoyang Teachers College,Chaoyang Liaoning 122000;Students Affairs Office,Chaoyang Teachers College,Chaoyang Liaoning 122000)
机构地区 朝阳师范高等专科学校人事处 朝阳师范高等专科学校学生处
出处 《辽宁师专学报(自然科学版)》 2020年第4期21-24,34,共5页 Journal of Liaoning Normal College(Natural Science Edition)
基金 2019年辽宁省教育厅人文社会科学研究项目(JYT19W04)。
关键词 五大发展理念 生物科学 前沿优势 优先发展 five development ideas bioscience leading edge advantage priority for development
分类号 Q-1 [生物学]
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  • 1Hobom B. Gene surgery: on the threshold of synthetic biology. Med Klin, 1980, 75(24): 834-41.
  • 2Cello J, Paul AV, Wimmer E. Chemical synthesis of poliovirus cDNA: generation or infectious virus in the absence of natural template. Science, 2002, 297(5583): 1016-8.
  • 3Chan LY, Kosuri S, Endy D. Refactoring bacteriophage T7. Mol Syst Biol, 2005, 1:2005.0018.
  • 4Posfai G, Plunkett G, Feher T, et al. Emergent properties of reduced-genome Escherichia coli. Science, 2006, 312(5776): 1044-6.
  • 5Gibson DG, Benders GA, Andrews-Pfannkoch C, et al. Complete chemical synthesis, assembly, and cloning of a Mycoplasma genitalium genome. Science, 2008, 319(5867): 1215-20.
  • 6Gibson DG, Glass JI, Lartigue C, et al. Creation of a bacterial cell controlled by a chemically synthesized genome. Science, 2010, 329(5987): 52-6.
  • 7Gardner TS, Cantor CR, Collins JJ. Construction of a genetic toggle switch in Escherichia coli. Nature, 2000, 403(6767): 339-42.
  • 8Isaacs F J, Dwyer D J, Collins JJ. RNA synthetic biology. Nat Biotechnol, 2006, 24:545-54.
  • 9Friedland AE, Lu TK, Wang X, et al. Synthetic gene networks that count. Science, 2009, 324:1199-202.
  • 10Stricker J, Cookson S, Bennett MR, et al. A fast, robust and tunable synthetic gene oscillator. Nature, 2008, 456(7221): 516-9.

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辽宁师专学报(自然科学版)
2020年 第4期

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