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Large-scale Culture (large-scale + culture)

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Life Sciences75%

Selected Abstracts

Evaluation of a novel Bacillus strain from a north-western Spain hot spring as a source of extracellular thermostable lipase

JOURNAL OF CHEMICAL TECHNOLOGY & BIOTECHNOLOGY, Issue 10 2009
Francisco J. Deive
Abstract BACKGROUND: Thermophilic microorganisms are receiving significant attention as a source of useful thermostable enzymes. However, the number of known strains is still limited, and very often their most interesting biocatalysts are intracellular or membrane-bound and produced at low levels. Thus, the isolation and study of novel extracellular enzyme-producing thermophilic microorganisms is very interesting. Moreover, the assessment of bioreactor performance is crucial, given the scarce information on the large-scale culture of these strains. RESULTS: The production of a thermostable extracellular lipase in submerged cultures of a thermophilic microorganism, recently isolated in north-west Spain, was investigated. The strain was identified by 16S rDNA sequencing as belonging to genus Bacillus. The influence of operating variables (i.e. pH, temperature, aeration) on lipase biosynthesis was analysed. Enzyme production at bioreactor scale was investigated, special attention being paid to the effect of aeration and agitation rates. CONCLUSION: The best conditions for the studied process were determined in shake flasks as pH 7.0, 55 °C and high aeration levels. Also, the non-association between lipase production and cell growth was ascertained. The culture of this novel strain was successfully carried out in laboratory-scale bioreactors, thus proving its potential for further applications. Copyright © 2009 Society of Chemical Industry [source]

Differentiation and lineage selection of mouse embryonic stem cells in a stirred bench scale bioreactor with automated process control

BIOTECHNOLOGY & BIOENGINEERING, Issue 7 2005
Magnus Schroeder
Abstract It is well established that embryonic stem (ES) cells can differentiate into functional cardiomyocytes in vitro. ES-derived cardiomyocytes could be used for pharmaceutical and therapeutic applications, provided that they can be generated in sufficient quantity and with sufficient purity. To enable large-scale culture of ES-derived cells, we have developed a robust and scalable bioprocess that allows direct embryoid body (EB) formation in a fully controlled, stirred 2 L bioreactor following inoculation with a single cell suspension of mouse ES cells. Utilizing a pitched-blade-turbine, parameters for optimal cell expansion as well as efficient ES cell differentiation were established. Optimization of stirring conditions resulted in the generation of high-density suspension cultures containing 12.5,×,106 cells/mL after 9 days of differentiation. Approximately 30%,40% of the EBs formed in this process vigorously contracted, indicating robust cardiomyogenic induction. An ES cell clone carrying a recombinant DNA molecule comprised of the cardiomyocyte-restricted alpha myosin heavy chain (,MHC) promoter and a neomycin resistance gene was used to establish the utility of this bioprocess to efficiently generate ES-derived cardiomyocytes. The genetically engineered ES cells were cultured directly in the stirred bioreactor for 9 days, followed by antibiotic treatment for another 9 days. The protocol resulted in the generation of essentially pure cardiomyocyte cultures, with a total yield of 1.28,×,109 cells in a single 2 L bioreactor run. This study thus provides an important step towards the large-scale generation of ES-derived cells for therapeutic and industrial applications. © 2005 Wiley Periodicals, Inc. [source]

Periodically Discontinuous Induction of Bone Marrow Stem Cells toward Osteogenic Differentiation in Vitro

BIOTECHNOLOGY PROGRESS, Issue 3 2008
Zhen Wang
This paper reveals that a discontinuous in vitro induction, namely, the periodic presence and absence of foreign induction factors, might be, under a certain condition, more effective to stimulate stem cells' differentiation than a continuous induction. Bone marrow stem cells (BMSCs) derived from Sprague Dawley rats were employed to examine the effects of discontinuous additions of osteogenic supplements with a series of alternate frequency in contrast to those with continuous induction or no induction. The results demonstrated that a suitable discontinuous induction was more able to achieve osteogenesis than not only no induction but also the associated continuous induction. Additionally, the osteogenic supplements were confirmed to enhance cell differentiation but suppress cell proliferation. So, the combination of differentiation extent per cell and cell number accounts for the "unexpected" good osteogenic effect of the discontinuous induction. The induction effect was found to be dependent upon alternate frequency, and the optimum alternate period in our experimental systems was determined to be around 4 days. Since it is very common to change culture medium every 2,4 days, such a strategy of discontinuous induction does not bring any extra manual work but reduces the consumption of foreign induction factors and significantly enhances the global differentiation efficacy. Our work thus affords a convenient and practical approach to achieve differentiation of BMSCs, which might be useful for potential large-scale culture and differentiation of stem cells. Meanwhile, the existence of optimum frequency implies some unknown inherent rhythms of cell proliferation and differentiation. [source]

Growth, lipid content, productivity, and fatty acid composition of tropical microalgae for scale-up production

BIOTECHNOLOGY & BIOENGINEERING, Issue 2 2010
Roger Huerlimann
Abstract Biomass and lipid productivity, lipid content, and quantitative and qualitative lipid composition are critical parameters in selecting microalgal species for commercial scale-up production. This study compares lipid content and composition, and lipid and biomass productivity during logarithmic, late logarithmic, and stationary phase of Nannochloropsis sp., Isochrysis sp., Tetraselmis sp., and Rhodomonas sp. grown in L1-, f/2-, and K-medium. Of the tested species, Tetraselmis sp. exhibited a lipid productivity of 3.9,4.8,g,m,2,day,1 in any media type, with comparable lipid productivity by Nannochloropsis sp. and Isochrysis sp. when grown in L1-medium. The dry biomass productivity of Tetraselmis sp. (33.1,45.0,g,m,2,day,1) exceeded that of the other species by a factor 2,10. Of the organisms studied, Tetraselmis sp. had the best dry biomass and/or lipid production profile in large-scale cultures. The present study provides a practical benchmark, which allows comparison of microalgal production systems with different footprints, as well as terrestrial systems. Biotechnol. Bioeng. 2010;107: 245,257. © 2010 Wiley Periodicals, Inc. [source]