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超高静压在琥珀酸生产菌株选育中的应用

Application of the Ultra-high Static Pressure in the Seed Selection of Bacterial Strain Production by Succinic Acid
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摘要 伴随着经济的发展,生活水平不断提高,人们对生产菌株的要求越来越高。为了满足市场的需求,以现代科技为出发点,利用超高静压技术,不仅提高了生产效率,还有效地保障了生产后菌株的质量,是现代菌株选育的最佳选择之一。笔者从琥珀酸的结构特征着手,对超高静压在琥珀酸生产菌株选育中的应用作了简要分析。 With the development of the economic, the standard of living has continuously improved and people's requirements of the bacterial strain production are higher and higher. In order to meet the requirements of the market, the ultra-high static pressure technology with modern science is one of the best ways of the seed selection of the modern bacterial strain. It can improve the production efficiency and effectively guarantee the quality of the production strain. The author analyses the application of the ultra-high static pressure in the seed selection of bacterial strain production by succinic acid from the architectural feature of the succinic acid.
作者 马学霞
机构地区 宁夏启元药业有限公司
出处 《价值工程》 2014年第32期312-313,共2页 Value Engineering
关键词 超高静压 琥珀酸 菌株 选育 应用 ultra-high static pressure succinic acid bacterial strain seed selection application
分类号 Q935 [生物学—微生物学]
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  • 1Willke T, Cukalovic KD. Industrial bioconversionof renewable resources as an alternative to conventional chemistry. Appl Microbiol Biotechnol, 2002, 66(2): 131-142.
  • 2Cukalovic A, Stevens CV. Feasibility of productior methods for succinic acid derivatives: a marriage o: renewable resources and chemical technology Biofuels Bioprod Biorefin, 2008, 2(6): 505-529.
  • 3Song H, Lee SY. Production of succinic acid by bacterial fermentation. Enzyme Microb Technol, 2006, 39(3): 352-361.
  • 4Strobel HJ, Russell JB. Role of sodium in the growth of a ruminal selenomonad. Appl Environ Microbiol, 1991, 57(6): 1663-1668.
  • 5Datta R. Process for the production of succinic acid by anaerobic fermentation: US, 5143833. 1992-09-01.
  • 6Hilpert W, Schink B, Dimroth P. Life by a new decarboxylation-dependent energy conservation mechanism with Na+ as coupling ion. EMBO J, 1984, 3(8): 1665-1680.
  • 7Record MT Jr, Courtenay ES, Cayley DS, et al. Responses of E. coli to osmotic stress: large changes in amounts of cytoplasmic solutes and water. Trends Biochem Sci, 1998, 23(4): 143-148.
  • 8Padan E, Venturi M, Gerchman Y, et al. Na+/H+ antiporters. Biochim Biophys Acta, 2001, 1505(1): 144-157.
  • 9Gunasekera TS, Csonka LN, Paliy O. Genome-Wide transcriptional responses of Escherichia coli K-12 to continuous osmotic and heat stresses. J Bacteriol, 2008, 190(10): 3712-3720.
  • 10Mika JT, Bogaart GVD, Veenhoff L, et al. Molecular sieving properties of the cytoplasm of Escherichia coli and consequences of osmotic stress. Mol Microbiol, 2010, 77(1): 200-207.

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价值工程
2014年 第32期

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