Directed evolution as an approach to increase fructose utilization in synthetic grape juice by wine yeast AWRI 796
Directed evolution as an approach to increase fructose utilization in synthetic grape juice by wine yeast AWRI 796
In winemaking, slow or stuck alcoholic fermentation can impact processing efficiency and wine quality. Residual fructose in the later stages of fermentation can leave the wine 'out of specification' unless removed, which requires reinoculation or use of a more fructophilic yeast. As such, robust, fermentation efficient strains are still highly desirable to reduce this risk. We report on a combined EMS mutagenesis and Directed Evolution (DE) approach as a 'proof of concept' to improve fructose utilization and decrease fermentation duration. One evolved isolate, Tee 9, was evaluated against the parent, AWRI 796 in defined medium (CDGJM) and Semillon juice. Interestingly, Tee 9 exhibited improved fermentation in CDGJM at several nitrogen contents, but not in juice. Genomic comparison between AWRI 796 and Tee 9 identified 371 mutations, but no chromosomal copy number variation. A total of 95 noncoding and 276 coding mutations were identified in 297 genes (180 of which encode proteins with one or more substitutions). Whilst introduction of two of these, Gid7 (E726K) or Fba1 (G135S), into AWRI 796 did not lead to the fermentation improvement seen in Tee 9, similar allelic swaps with the other mutations are needed to understand Tee 9's adaption to CDGJM. Furthermore, the 378 isolates, potentially mutagenized but with the same genetic background, are likely a useful resource for future phenotyping and genome-wide association studies.
CRISPR/Cas9, directed evolution, fermentation, fructose, genomics, Saccharomyces cerevisiae
Walker, Michelle E.
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Watson, Tommaso L.
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Large, Christopher R.L.
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Berkovich, Yan
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Lang, Tom A.
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Dunham, Maitreya J.
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Formby, Sean
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Jiranek, Vladimir
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Walker, Michelle E.
5e8a98ce-9e08-409a-99e4-a0b96a490940
Watson, Tommaso L.
cd72a90b-1bec-4517-9831-7c31b958520a
Large, Christopher R.L.
fccb19e5-4c71-4b6a-b03e-dd940a12f1fc
Berkovich, Yan
2ab41833-7549-49e5-93e5-45cf3bf98b75
Lang, Tom A.
483fd372-b7ce-45f4-9198-461ecf47907e
Dunham, Maitreya J.
3938ed66-ae6b-4254-b096-689b6425980b
Formby, Sean
55cae07c-be98-4e6f-8933-2c25169e1420
Jiranek, Vladimir
8e5a8dfd-f5b2-43e3-928b-11dff324abc7
Walker, Michelle E., Watson, Tommaso L., Large, Christopher R.L., Berkovich, Yan, Lang, Tom A., Dunham, Maitreya J., Formby, Sean and Jiranek, Vladimir
(2022)
Directed evolution as an approach to increase fructose utilization in synthetic grape juice by wine yeast AWRI 796.
FEMS Yeast Research, 22 (1), [foac022].
(doi:10.1093/femsyr/foac022).
Abstract
In winemaking, slow or stuck alcoholic fermentation can impact processing efficiency and wine quality. Residual fructose in the later stages of fermentation can leave the wine 'out of specification' unless removed, which requires reinoculation or use of a more fructophilic yeast. As such, robust, fermentation efficient strains are still highly desirable to reduce this risk. We report on a combined EMS mutagenesis and Directed Evolution (DE) approach as a 'proof of concept' to improve fructose utilization and decrease fermentation duration. One evolved isolate, Tee 9, was evaluated against the parent, AWRI 796 in defined medium (CDGJM) and Semillon juice. Interestingly, Tee 9 exhibited improved fermentation in CDGJM at several nitrogen contents, but not in juice. Genomic comparison between AWRI 796 and Tee 9 identified 371 mutations, but no chromosomal copy number variation. A total of 95 noncoding and 276 coding mutations were identified in 297 genes (180 of which encode proteins with one or more substitutions). Whilst introduction of two of these, Gid7 (E726K) or Fba1 (G135S), into AWRI 796 did not lead to the fermentation improvement seen in Tee 9, similar allelic swaps with the other mutations are needed to understand Tee 9's adaption to CDGJM. Furthermore, the 378 isolates, potentially mutagenized but with the same genetic background, are likely a useful resource for future phenotyping and genome-wide association studies.
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Accepted/In Press date: 22 April 2022
e-pub ahead of print date: 26 April 2022
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Publisher Copyright:
© 2022 The Author(s) 2022
Keywords:
CRISPR/Cas9, directed evolution, fermentation, fructose, genomics, Saccharomyces cerevisiae
Identifiers
Local EPrints ID: 482791
URI: http://eprints.soton.ac.uk/id/eprint/482791
ISSN: 1567-1356
PURE UUID: 35bfa4fc-eecd-4419-a52e-aa99b3812085
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Date deposited: 12 Oct 2023 16:45
Last modified: 18 Mar 2024 04:12
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Contributors
Author:
Michelle E. Walker
Author:
Tommaso L. Watson
Author:
Christopher R.L. Large
Author:
Yan Berkovich
Author:
Tom A. Lang
Author:
Maitreya J. Dunham
Author:
Sean Formby
Author:
Vladimir Jiranek
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