Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context
BACKGROUND This work explores the feasibility of vinasse as an inexpensive feedstock for industrial biocatalyst production within the context of an integrated sugar beet biorefinery. As an exemplar, production of CV2025 ω‐Transaminase (ω‐TAm) in Escherichia coli BL21 was studied. RESULTS Charac...
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| Online Access: | http://ir.unimas.my/id/eprint/22540/1/Potential%20of%20sugar%20beet%20vinasse%20as%20a%20feedstock%20for%20biocatalyst%20production%20within%20an%20integrated%20biorefinery%20context%20%20-%20Copy.pdf http://ir.unimas.my/id/eprint/22540/ https://onlinelibrary.wiley.com/doi/abs/10.1002/jctb.5819?af=R |
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my.unimas.ir.225402020-09-04T07:11:34Z http://ir.unimas.my/id/eprint/22540/ Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context Nurashikin, Binti Suhaili Cárdenas‐Fernández, Max Ward, John M. Lye, Gary J. Q Science (General) QD Chemistry QH301 Biology BACKGROUND This work explores the feasibility of vinasse as an inexpensive feedstock for industrial biocatalyst production within the context of an integrated sugar beet biorefinery. As an exemplar, production of CV2025 ω‐Transaminase (ω‐TAm) in Escherichia coli BL21 was studied. RESULTS Characterisation of vinasse showed that it comprised mainly of glycerol along with several reducing sugars, sugar alcohols, acetate, polyphenols and protein. Preliminary results showed E. coli BL21 cell growth and CV2025 ω‐TAm production were feasible in cultures using 17 to 25% (v/v) vinasse with higher concentrations demonstrating inhibitory effects. The D‐galactose present in vinasse facilitated auto‐induction of the pQR801 plasmid enabling CV2025 ω‐TAm expression without addition of expensive Isopropyl‐β‐D‐thiogalactopyranoside (IPTG). Assessment of different vinasse pre‐processing options confirmed simple dilution of the vinasse was sufficient to reduce the concentration of polyphenols to below inhibitory levels. Optimisation experiments, carried out using a controlled, 24‐well microbioreactor platform, showed supplementation of diluted vinasse medium with 10 g L‐1 yeast extract enabled enhancements of 2.8, 2.5, 5.4 and 3‐fold in specific growth rate, maximum biomass concentration, CV2025 ω‐TAm volumetric and specific activity, respectively. Investigation into the metabolic preferences of E. coli BL21 when grown in vinasse showed a preference for D‐mannitol utilisation before simultaneous metabolism of glycerol, D‐xylitol, D‐dulcitol and acetate. Scale‐up of optimised conditions for batch CV2025 ω‐TAm production to a 7.5 L stirred tank reactor (STR) was demonstrated based on matched volumetric mass transfer coefficient (kLa). The results showed good comparability with respect to cell growth, substrate consumption and CV2025 ω‐TAm production representing over a 700‐fold volumetric scale translation. Further enhancements in CV2025 ω‐TAm production were possible in the STR when operated at higher kLa values. CONCLUSION This work describes the promising application of vinasse for production of microbial enzymes and insights into carbon source utilisation in complex feedstocks. Exploitation of vinasse as a fermentation feedstock could be further extended to other processes involving different microorganisms and target enzymes. Wiley Online Library 2018 Article PeerReviewed text en http://ir.unimas.my/id/eprint/22540/1/Potential%20of%20sugar%20beet%20vinasse%20as%20a%20feedstock%20for%20biocatalyst%20production%20within%20an%20integrated%20biorefinery%20context%20%20-%20Copy.pdf Nurashikin, Binti Suhaili and Cárdenas‐Fernández, Max and Ward, John M. and Lye, Gary J. (2018) Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context. Journal of Chemical Technology & Biotechnology. pp. 1-32. ISSN 1097-4660 https://onlinelibrary.wiley.com/doi/abs/10.1002/jctb.5819?af=R DOI:org/10.1002/jctb.5819 |
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Q Science (General) QD Chemistry QH301 Biology Nurashikin, Binti Suhaili Cárdenas‐Fernández, Max Ward, John M. Lye, Gary J. Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| description |
BACKGROUND
This work explores the feasibility of vinasse as an inexpensive feedstock for industrial biocatalyst production within the context of an integrated sugar beet biorefinery. As an exemplar, production of CV2025 ω‐Transaminase (ω‐TAm) in Escherichia coli BL21 was studied.
RESULTS
Characterisation of vinasse showed that it comprised mainly of glycerol along with several reducing sugars, sugar alcohols, acetate, polyphenols and protein. Preliminary results showed E. coli BL21 cell growth and CV2025 ω‐TAm production were feasible in cultures using 17 to 25% (v/v) vinasse with higher concentrations demonstrating inhibitory effects. The D‐galactose present in vinasse facilitated auto‐induction of the pQR801 plasmid enabling CV2025 ω‐TAm expression without addition of expensive Isopropyl‐β‐D‐thiogalactopyranoside (IPTG). Assessment of different vinasse pre‐processing options confirmed simple dilution of the vinasse was sufficient to reduce the concentration of polyphenols to below inhibitory levels. Optimisation experiments, carried out using a controlled, 24‐well microbioreactor platform, showed supplementation of diluted vinasse medium with 10 g L‐1 yeast extract enabled enhancements of 2.8, 2.5, 5.4 and 3‐fold in specific growth rate, maximum biomass concentration, CV2025 ω‐TAm volumetric and specific activity, respectively. Investigation into the metabolic preferences of E. coli BL21 when grown in vinasse showed a preference for D‐mannitol utilisation before simultaneous metabolism of glycerol, D‐xylitol, D‐dulcitol and acetate. Scale‐up of optimised conditions for batch CV2025 ω‐TAm production to a 7.5 L stirred tank reactor (STR) was demonstrated based on matched volumetric mass transfer coefficient (kLa). The results showed good comparability with respect to cell growth, substrate consumption and CV2025 ω‐TAm production representing over a 700‐fold volumetric scale translation. Further enhancements in CV2025 ω‐TAm production were possible in the STR when operated at higher kLa values.
CONCLUSION
This work describes the promising application of vinasse for production of microbial enzymes and insights into carbon source utilisation in complex feedstocks. Exploitation of vinasse as a fermentation feedstock could be further extended to other processes involving different microorganisms and target enzymes. |
| format |
Article |
| author |
Nurashikin, Binti Suhaili Cárdenas‐Fernández, Max Ward, John M. Lye, Gary J. |
| author_facet |
Nurashikin, Binti Suhaili Cárdenas‐Fernández, Max Ward, John M. Lye, Gary J. |
| author_sort |
Nurashikin, Binti Suhaili |
| title |
Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| title_short |
Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| title_full |
Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| title_fullStr |
Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| title_full_unstemmed |
Potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| title_sort |
potential of sugar beet vinasse as a feedstock for biocatalyst production within an integrated biorefinery context |
| publisher |
Wiley Online Library |
| publishDate |
2018 |
| url |
http://ir.unimas.my/id/eprint/22540/1/Potential%20of%20sugar%20beet%20vinasse%20as%20a%20feedstock%20for%20biocatalyst%20production%20within%20an%20integrated%20biorefinery%20context%20%20-%20Copy.pdf http://ir.unimas.my/id/eprint/22540/ https://onlinelibrary.wiley.com/doi/abs/10.1002/jctb.5819?af=R |
| _version_ |
1677785164300681216 |