Applicability of a single‐use bioreactor compared to a glass bioreactor for the fermentation of filamentous fungi and evaluation of the reproducibility of growth in pellet form
The implementation of single‐use technologies offers several major advantages, e.g. prevention of cross‐contamination, especially when spore‐forming microorganisms are present. This study investigated the application of a single‐use bioreactor in batch fermentation of filamentous fungus Penicillium...
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| Published in | Engineering in life sciences Vol. 21; no. 5; pp. 324 - 339 |
|---|---|
| Main Authors | , , , , , , |
| Format | Journal Article |
| Language | English |
| Published |
Germany
John Wiley and Sons Inc
01.05.2021
Wiley-VCH |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1618-0240 1618-2863 |
| DOI | 10.1002/elsc.202000069 |
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| Abstract | The implementation of single‐use technologies offers several major advantages, e.g. prevention of cross‐contamination, especially when spore‐forming microorganisms are present. This study investigated the application of a single‐use bioreactor in batch fermentation of filamentous fungus Penicillium sp. (IBWF 040‐09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease‐inhibiting substance in the single‐use bioreactor were similar to those in the glass bioreactor. |
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| AbstractList | The implementation of single‐use technologies offers several major advantages, e.g. prevention of cross‐contamination, especially when spore‐forming microorganisms are present. This study investigated the application of a single‐use bioreactor in batch fermentation of filamentous fungus
Penicillium
sp. (IBWF 040‐09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease‐inhibiting substance in the single‐use bioreactor were similar to those in the glass bioreactor. The implementation of single-use technologies offers several major advantages, e.g. prevention of cross-contamination, especially when spore-forming microorganisms are present. This study investigated the application of a single-use bioreactor in batch fermentation of filamentous fungus Penicillium sp. (IBWF 040-09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease-inhibiting substance in the single-use bioreactor were similar to those in the glass bioreactor.The implementation of single-use technologies offers several major advantages, e.g. prevention of cross-contamination, especially when spore-forming microorganisms are present. This study investigated the application of a single-use bioreactor in batch fermentation of filamentous fungus Penicillium sp. (IBWF 040-09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease-inhibiting substance in the single-use bioreactor were similar to those in the glass bioreactor. Abstract The implementation of single‐use technologies offers several major advantages, e.g. prevention of cross‐contamination, especially when spore‐forming microorganisms are present. This study investigated the application of a single‐use bioreactor in batch fermentation of filamentous fungus Penicillium sp. (IBWF 040‐09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease‐inhibiting substance in the single‐use bioreactor were similar to those in the glass bioreactor. The implementation of single‐use technologies offers several major advantages, e.g. prevention of cross‐contamination, especially when spore‐forming microorganisms are present. This study investigated the application of a single‐use bioreactor in batch fermentation of filamentous fungus Penicillium sp. (IBWF 040‐09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease‐inhibiting substance in the single‐use bioreactor were similar to those in the glass bioreactor. The implementation of single-use technologies offers several major advantages, e.g. prevention of cross-contamination, especially when spore-forming microorganisms are present. This study investigated the application of a single-use bioreactor in batch fermentation of filamentous fungus sp. (IBWF 040-09) from the Institute of Biotechnology and Drug Research (IBWF), which is capable of intracellular production of a protease inhibitor against parasitic proteases as a secondary metabolite. Several modifications to the SU bioreactor were suggested in this study to allow the fermentation in which the fungus forms pellets. Simultaneously, fermentations in conventional glass bioreactor were also conducted as reference. Although there are significant differences in the construction material and gassing system, the similarity of the two types of bioreactors in terms of fungal metabolic activity and the reproducibility of fermentations could be demonstrated using statistic methods. Under the selected cultivation conditions, growth rate, yield coefficient, substrate uptake rate, and formation of intracellular protease-inhibiting substance in the single-use bioreactor were similar to those in the glass bioreactor. |
| Author | Fuchs, Natalie Schirmeister, Tanja Soerjawinata, Winda Schüffler, Anja Schlegel, Konstantin Ulber, Roland Kampeis, Percy |
| AuthorAffiliation | 1 Institute for Biotechnical Process Design Trier University of Applied Sciences, Environmental Campus Birkenfeld Hoppstädten‐Weiersbach Germany 3 Institut für Biotechnologie und Wirkstoff‐Forschung gGmbH (IBWF) Mainz Germany 4 Institute of Bioprocess Engineering Technical University Kaiserslautern Kaiserslautern Germany 2 Institute of Pharmaceutical and Biomedical Sciences Johannes Gutenberg University Mainz Mainz Germany |
| AuthorAffiliation_xml | – name: 3 Institut für Biotechnologie und Wirkstoff‐Forschung gGmbH (IBWF) Mainz Germany – name: 2 Institute of Pharmaceutical and Biomedical Sciences Johannes Gutenberg University Mainz Mainz Germany – name: 4 Institute of Bioprocess Engineering Technical University Kaiserslautern Kaiserslautern Germany – name: 1 Institute for Biotechnical Process Design Trier University of Applied Sciences, Environmental Campus Birkenfeld Hoppstädten‐Weiersbach Germany |
| Author_xml | – sequence: 1 givenname: Winda surname: Soerjawinata fullname: Soerjawinata, Winda email: w.soerjawinata@umwelt-campus.de organization: Trier University of Applied Sciences, Environmental Campus Birkenfeld – sequence: 2 givenname: Konstantin surname: Schlegel fullname: Schlegel, Konstantin organization: Trier University of Applied Sciences, Environmental Campus Birkenfeld – sequence: 3 givenname: Natalie surname: Fuchs fullname: Fuchs, Natalie organization: Johannes Gutenberg University Mainz – sequence: 4 givenname: Anja surname: Schüffler fullname: Schüffler, Anja organization: Institut für Biotechnologie und Wirkstoff‐Forschung gGmbH (IBWF) – sequence: 5 givenname: Tanja surname: Schirmeister fullname: Schirmeister, Tanja organization: Johannes Gutenberg University Mainz – sequence: 6 givenname: Roland orcidid: 0000-0002-7674-0967 surname: Ulber fullname: Ulber, Roland organization: Technical University Kaiserslautern – sequence: 7 givenname: Percy surname: Kampeis fullname: Kampeis, Percy organization: Trier University of Applied Sciences, Environmental Campus Birkenfeld |
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| Title | Applicability of a single‐use bioreactor compared to a glass bioreactor for the fermentation of filamentous fungi and evaluation of the reproducibility of growth in pellet form |
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