Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast
The lager brewing yeast Saccharomyces pastorianus, an interspecies hybrid of S. eubayanus and S. cerevisiae, ferments maltotriose, maltose, sucrose, glucose and fructose in wort to ethanol and carbon dioxide. Complete and timely conversion (“attenuation”) of maltotriose by industrial S. pastorianus...
| Published in: | Frontiers in Microbiology |
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| Main Authors: | , , , , , , , |
| Format: | Article |
| Language: | English |
| Published: |
Frontiers Media S.A.
2017-09-01
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| Online Access: | http://journal.frontiersin.org/article/10.3389/fmicb.2017.01690/full |
| _version_ | 1852737757696229376 |
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| author | Anja Brickwedde Marcel van den Broek Jan-Maarten A. Geertman Frederico Magalhães Niels G. A. Kuijpers Brian Gibson Jack T. Pronk Jean-Marc G. Daran |
| author_facet | Anja Brickwedde Marcel van den Broek Jan-Maarten A. Geertman Frederico Magalhães Niels G. A. Kuijpers Brian Gibson Jack T. Pronk Jean-Marc G. Daran |
| author_sort | Anja Brickwedde |
| collection | DOAJ |
| container_title | Frontiers in Microbiology |
| description | The lager brewing yeast Saccharomyces pastorianus, an interspecies hybrid of S. eubayanus and S. cerevisiae, ferments maltotriose, maltose, sucrose, glucose and fructose in wort to ethanol and carbon dioxide. Complete and timely conversion (“attenuation”) of maltotriose by industrial S. pastorianus strains is a key requirement for process intensification. This study explores a new evolutionary engineering strategy for improving maltotriose fermentation kinetics. Prolonged carbon-limited, anaerobic chemostat cultivation of the reference strain S. pastorianus CBS1483 on a maltotriose-enriched sugar mixture was used to select for spontaneous mutants with improved affinity for maltotriose. Evolved populations exhibited an up to 5-fold lower residual maltotriose concentration and a higher ethanol concentration than the parental strain. Uptake studies with 14C-labeled sugars revealed an up to 4.75-fold higher transport capacity for maltotriose in evolved strains. In laboratory batch cultures on wort, evolved strains showed improved attenuation and higher ethanol concentrations. These improvements were also observed in pilot fermentations at 1,000-L scale with high-gravity wort. Although the evolved strain exhibited multiple chromosomal copy number changes, analysis of beer made from pilot fermentations showed no negative effects on flavor compound profiles. These results demonstrate the potential of evolutionary engineering for strain improvement of hybrid, alloploid brewing strains. |
| format | Article |
| id | doaj-art-461f44dfdbbc4c7b9568d49d6d563b14 |
| institution | Directory of Open Access Journals |
| issn | 1664-302X |
| language | English |
| publishDate | 2017-09-01 |
| publisher | Frontiers Media S.A. |
| record_format | Article |
| spelling | doaj-art-461f44dfdbbc4c7b9568d49d6d563b142025-08-19T21:06:01ZengFrontiers Media S.A.Frontiers in Microbiology1664-302X2017-09-01810.3389/fmicb.2017.01690295395Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing YeastAnja Brickwedde0Marcel van den Broek1Jan-Maarten A. Geertman2Frederico Magalhães3Niels G. A. Kuijpers4Brian Gibson5Jack T. Pronk6Jean-Marc G. Daran7Department of Biotechnology, Delft University of TechnologyDelft, NetherlandsDepartment of Biotechnology, Delft University of TechnologyDelft, NetherlandsHEINEKEN Supply Chain, Global Innovation and ResearchZoeterwoude, NetherlandsVTT Technical Research Centre of Finland Ltd.Espoo, FinlandHEINEKEN Supply Chain, Global Innovation and ResearchZoeterwoude, NetherlandsVTT Technical Research Centre of Finland Ltd.Espoo, FinlandDepartment of Biotechnology, Delft University of TechnologyDelft, NetherlandsDepartment of Biotechnology, Delft University of TechnologyDelft, NetherlandsThe lager brewing yeast Saccharomyces pastorianus, an interspecies hybrid of S. eubayanus and S. cerevisiae, ferments maltotriose, maltose, sucrose, glucose and fructose in wort to ethanol and carbon dioxide. Complete and timely conversion (“attenuation”) of maltotriose by industrial S. pastorianus strains is a key requirement for process intensification. This study explores a new evolutionary engineering strategy for improving maltotriose fermentation kinetics. Prolonged carbon-limited, anaerobic chemostat cultivation of the reference strain S. pastorianus CBS1483 on a maltotriose-enriched sugar mixture was used to select for spontaneous mutants with improved affinity for maltotriose. Evolved populations exhibited an up to 5-fold lower residual maltotriose concentration and a higher ethanol concentration than the parental strain. Uptake studies with 14C-labeled sugars revealed an up to 4.75-fold higher transport capacity for maltotriose in evolved strains. In laboratory batch cultures on wort, evolved strains showed improved attenuation and higher ethanol concentrations. These improvements were also observed in pilot fermentations at 1,000-L scale with high-gravity wort. Although the evolved strain exhibited multiple chromosomal copy number changes, analysis of beer made from pilot fermentations showed no negative effects on flavor compound profiles. These results demonstrate the potential of evolutionary engineering for strain improvement of hybrid, alloploid brewing strains.http://journal.frontiersin.org/article/10.3389/fmicb.2017.01690/fullbrewingSacchromyces pastorianusevolutionary engineeringchemostatmaltosemaltotriose consumption rate |
| spellingShingle | Anja Brickwedde Marcel van den Broek Jan-Maarten A. Geertman Frederico Magalhães Niels G. A. Kuijpers Brian Gibson Jack T. Pronk Jean-Marc G. Daran Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast brewing Sacchromyces pastorianus evolutionary engineering chemostat maltose maltotriose consumption rate |
| title | Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast |
| title_full | Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast |
| title_fullStr | Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast |
| title_full_unstemmed | Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast |
| title_short | Evolutionary Engineering in Chemostat Cultures for Improved Maltotriose Fermentation Kinetics in Saccharomyces pastorianus Lager Brewing Yeast |
| title_sort | evolutionary engineering in chemostat cultures for improved maltotriose fermentation kinetics in saccharomyces pastorianus lager brewing yeast |
| topic | brewing Sacchromyces pastorianus evolutionary engineering chemostat maltose maltotriose consumption rate |
| url | http://journal.frontiersin.org/article/10.3389/fmicb.2017.01690/full |
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