Fungal biofilm reactor improves the productivity of hydrophobin HFBII
•Using biofilm reactor led to a major increase of HFBII production in shorter time.•Scaling up the biofilm reactor was successfully performed in 10L reactor for HFBII.•X-ray tomography shows no influence of biofilm overgrowth on HFBII within operation.•Removal Phe from HFBII structure does not lead...
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| Published in | Biochemical engineering journal Vol. 88; pp. 171 - 178 |
|---|---|
| Main Authors | , , , , , , , , |
| Format | Journal Article Web Resource |
| Language | English |
| Published |
Amsterdam
Elsevier B.V
15.07.2014
Elsevier Elsevier Science |
| Subjects | |
| Online Access | Get full text |
| ISSN | 1369-703X 1873-295X |
| DOI | 10.1016/j.bej.2014.05.001 |
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| Abstract | •Using biofilm reactor led to a major increase of HFBII production in shorter time.•Scaling up the biofilm reactor was successfully performed in 10L reactor for HFBII.•X-ray tomography shows no influence of biofilm overgrowth on HFBII within operation.•Removal Phe from HFBII structure does not lead the activity loss in biofilm reactor.
Production and purification of hydrophobin HFBII has recently been the subject of intensive research, but the yield of production needs to be further improved for a generic use of this molecule at industrial scale. In a first step, the influence of different carbon sources on the growth of Trichoderma reesei and the production of HFBII was investigated. The optimum productivity was obtained by using 40g/L lactose. Carbon starvation and excretion of extracellular enzyme were determined as two main conditions for the production of HFBII. In the second phase, and according to the physiological mechanisms observed during the screening phase, a bioreactor set up has been designed and two modes of cultures have been investigated, i.e. the classical submerged fermentation and a fungal biofilm reactor. In this last set-up, the broth is continuously recirculated on a metal packing exhibiting a high specific surface. In this case, the fungal biomass was mainly attached to the metal packing, leading to a simplification of downstream processing scheme. More importantly, the HFBII concentration increased up to 48.6±6.2mg/L which was 1.8 times higher in this reactor configuration and faster than the submerged culture. X-ray tomography analysis shows that the biofilm overgrowth occurs when successive cultures are performed on the same packing. However, this phenomenon has no significant influence on the yield of HFBII, suggesting that this process could be operated in continuous mode. Protein hydrolysis during stationary phase was observed by MALDI-TOF analysis according to the removal of the last amino acid from the structure of HFBII after 48h from the beginning of fermentation in biofilm reactor. Hopefully this modification does not lead to alternation of the main physicochemical properties of HFBII. |
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| AbstractList | Production and purification of hydrophobin HFBII has recently been the subject of intensive research, but the yield of production needs to be further improved for a generic use of this molecule at industrial scale. In a first step, the influence of different carbon sources on the growth of Trichoderma reesei and the production of HFBII was investigated. The optimum productivity was obtained by using 40 g/L lactose. Carbon starvation and excretion of extracellular enzyme were determined as two main conditions for the production of HFBII. In the second phase, and according to the physiological mechanisms observed during the screening phase, a bioreactor set up has been designed and two modes of cultures have been investigated, i.e. the classical submerged fermentation and a fungal biofilm reactor. In this last set-up, the broth is continuously recirculated on a metal packing exhibiting a high specific surface. In this case, the fungal biomass was mainly attached to the metal packing, leading to a simplification of downstream processing scheme. More importantly, the HFBII concentration increased up to 48.6 plus or minus 6.2 mg/L which was 1.8 times higher in this reactor configuration and faster than the submerged culture. X-ray tomography analysis shows that the biofilm overgrowth occurs when successive cultures are performed on the same packing. However, this phenomenon has no significant influence on the yield of HFBII, suggesting that this process could be operated in continuous mode. Protein hydrolysis during stationary phase was observed by MALDI-TOF analysis according to the removal of the last amino acid from the structure of HFBII after 48 h from the beginning of fermentation in biofilm reactor. Hopefully this modification does not lead to alternation of the main physicochemical properties of HFBII. •Using biofilm reactor led to a major increase of HFBII production in shorter time.•Scaling up the biofilm reactor was successfully performed in 10L reactor for HFBII.•X-ray tomography shows no influence of biofilm overgrowth on HFBII within operation.•Removal Phe from HFBII structure does not lead the activity loss in biofilm reactor. Production and purification of hydrophobin HFBII has recently been the subject of intensive research, but the yield of production needs to be further improved for a generic use of this molecule at industrial scale. In a first step, the influence of different carbon sources on the growth of Trichoderma reesei and the production of HFBII was investigated. The optimum productivity was obtained by using 40g/L lactose. Carbon starvation and excretion of extracellular enzyme were determined as two main conditions for the production of HFBII. In the second phase, and according to the physiological mechanisms observed during the screening phase, a bioreactor set up has been designed and two modes of cultures have been investigated, i.e. the classical submerged fermentation and a fungal biofilm reactor. In this last set-up, the broth is continuously recirculated on a metal packing exhibiting a high specific surface. In this case, the fungal biomass was mainly attached to the metal packing, leading to a simplification of downstream processing scheme. More importantly, the HFBII concentration increased up to 48.6±6.2mg/L which was 1.8 times higher in this reactor configuration and faster than the submerged culture. X-ray tomography analysis shows that the biofilm overgrowth occurs when successive cultures are performed on the same packing. However, this phenomenon has no significant influence on the yield of HFBII, suggesting that this process could be operated in continuous mode. Protein hydrolysis during stationary phase was observed by MALDI-TOF analysis according to the removal of the last amino acid from the structure of HFBII after 48h from the beginning of fermentation in biofilm reactor. Hopefully this modification does not lead to alternation of the main physicochemical properties of HFBII. Production and purification of hydrophobin HFBII has recently been the subject of intensive research, but the yield of production needs to be further improved for a generic use of this molecule at industrial scale. In a first step, the influence of different carbon sources on the growth of Trichoderma reesei and the production of HFBII was investigated. The optimum productivity was obtained by using 40g/L lactose. Carbon starvation and excretion of extracellular enzyme were determined as two main conditions for the production of HFBII. In the second phase, and according to the physiological mechanisms observed during the screening phase, a bioreactor set up has been designed and two modes of cultures have been investigated, i.e. the classical submerged fermentation and a fungal biofilm reactor. In this last set-up, the broth is continuously recirculated on a metal packing exhibiting a high specific surface. In this case, the fungal biomass was mainly attached to the metal packing, leading to a simplification of downstream processing scheme. More importantly, the HFBII concentration increased up to 48.6±6.2mg/L which was 1.8 times higher in this reactor configuration and faster than the submerged culture. X-ray tomography analysis shows that the biofilm overgrowth occurs when successive cultures are performed on the same packing. However, this phenomenon has no significant influence on the yield of HFBII, suggesting that this process could be operated in continuous mode. Protein hydrolysis during stationary phase was observed by MALDI-TOF analysis according to the removal of the last amino acid from the structure of HFBII after 48h from the beginning of fermentation in biofilm reactor. Hopefully this modification does not lead to alternation of the main physicochemical properties of HFBII. Production and purification of hydrophobin HFBII has recently been the subject of intensive research, but the yield of production needs to be further improved for a generic use of this molecule at industrial scale. In a first step, the influence of different carbon sources on the growth of Trichoderma reesei and the production of HFBII was investigated. The optimum productivity was obtained by using 40 g/L lactose. Carbon starvation and excretion of extracellular enzyme were determined as two main conditions for the production of HFBII. In the second phase, and according to the physiological mechanisms observed during the screening phase, a bioreactor set up has been designed and two modes of cultures have been investigated, i.e. the classical submerged fermentation and a fungal biofilm reactor. In this last set-up, the broth is continuously recirculated on a metal packing exhibiting a high specific surface. In this case, the fungal biomass was mainly attached to the metal packing, leading to a simplification of downstream processing scheme. More importantly, the HFBII concentration increased up to 48.6 ± 6.2 mg/L which was 1.8 times higher in this reactor configuration and faster than the submerged culture. X-ray tomography analysis shows that the biofilm overgrowth occurs when successive cultures are performed on the same packing. However, this phenomenon has no significant influence on the yield of HFBII, suggesting that this process could be operated in continuous mode. Protein hydrolysis during stationary phase was observed by MALDI-TOF analysis according to the removal of the last amino acid from the structure of HFBII after 48 h from the beginning of fermentation in biofilm reactor. Hopefully this modification does not lead to alternation of the main physicochemical properties of HFBII. |
| Author | Riveros-Galan, David Gebruers, Kurt Delvigne, Frank Telek, Samuel Verachtert, Hubert Toye, Dominique Zune, Quentin Khalesi, Mohammadreza Derdelinckx, Guy |
| Author_xml | – sequence: 1 givenname: Mohammadreza surname: Khalesi fullname: Khalesi, Mohammadreza organization: KU Leuven, Department of Microbial and Molecular Systems (M2S), B-3001 Heverlee, Belgium – sequence: 2 givenname: Quentin orcidid: 0000-0002-8440-7689 surname: Zune fullname: Zune, Quentin organization: University of Liège – Gembloux Agro-Bio Tech, Unité de bio-industries, Passage des Déportés 2, B-5030 Gembloux, Belgium – sequence: 3 givenname: Samuel surname: Telek fullname: Telek, Samuel organization: University of Liège – Gembloux Agro-Bio Tech, Unité de bio-industries, Passage des Déportés 2, B-5030 Gembloux, Belgium – sequence: 4 givenname: David surname: Riveros-Galan fullname: Riveros-Galan, David organization: KU Leuven, Department of Microbial and Molecular Systems (M2S), B-3001 Heverlee, Belgium – sequence: 5 givenname: Hubert surname: Verachtert fullname: Verachtert, Hubert organization: KU Leuven, Department of Microbial and Molecular Systems (M2S), B-3001 Heverlee, Belgium – sequence: 6 givenname: Dominique surname: Toye fullname: Toye, Dominique organization: University of Liège, Chemical Engineering Laboratory, Allée de la Chimie, 3/6c, B-4000 Liège, Belgium – sequence: 7 givenname: Kurt surname: Gebruers fullname: Gebruers, Kurt organization: KU Leuven, Department of Microbial and Molecular Systems (M2S), B-3001 Heverlee, Belgium – sequence: 8 givenname: Guy surname: Derdelinckx fullname: Derdelinckx, Guy organization: KU Leuven, Department of Microbial and Molecular Systems (M2S), B-3001 Heverlee, Belgium – sequence: 9 givenname: Frank surname: Delvigne fullname: Delvigne, Frank email: F.Delvigne@ulg.ac.be organization: University of Liège – Gembloux Agro-Bio Tech, Unité de bio-industries, Passage des Déportés 2, B-5030 Gembloux, Belgium |
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| Keywords | Tomography Hydrophobin Foaming Trichoderma reesei Biofilm reactor Fungi Productivity Biofilm Fungi Imperfecti Reactor Optimization |
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| Snippet | •Using biofilm reactor led to a major increase of HFBII production in shorter time.•Scaling up the biofilm reactor was successfully performed in 10L reactor... Production and purification of hydrophobin HFBII has recently been the subject of intensive research, but the yield of production needs to be further improved... |
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| SubjectTerms | amino acids biofilm Biofilm reactor Biological and medical sciences bioreactors Biotechnologie Biotechnology carbon excretion Foaming Fundamental and applied biological sciences. Psychology fungi hydrolysis Hydrophobin hydrophobins Hypocrea jecorina lactose Life sciences microbial biomass physicochemical properties Sciences du vivant screening starvation submerged fermentation Tomography Trichoderma reesei X-radiation |
| Title | Fungal biofilm reactor improves the productivity of hydrophobin HFBII |
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