Inhibitor tolerance and flocculation of a yeast strain suitable for second generation bioethanol production
Artikel i vetenskaplig tidskrift, 2012

Background: Robust second generation bioethanol processes require microorganisms able to ferment inhibitory lignocellullosic hydrolysates. In this study, the inhibitor tolerance and flocculation characteristics of Saccharomyces cerevisiae CCUG53310 were evaluated in comparison with S. cerevisiae CBS8066. Results: The flocculating strain CCUG53310 could rapidly ferment all hexoses in dilute acid spruce hydrolysate, while CBS8066 was strongly inhibited in this medium. In synthetic inhibitory media, CCUG53310 was more tolerant to carboxylic acids and furan aldehydes, but more sensitive than CBS8066 to phenolic compounds. Despite the higher tolerance, the increase in expression of the YAP1, ATR1 and FLR1 genes, known to confer resistance to lignocellulose-derived inhibitors, was generally smaller in CCUG53310 than in CBS8066 in inhibitory media. The flocculation of CCUG53310 was linked to the expression of FLO8, FLO10 and one or more of FLO1, FLO5 or FLO9. Flocculation depended on cell wall proteins and Ca2+ ions, but was almost unaffected by other compounds and pH values typical for lignocellulosic media. Conclusions: S. cerevisiae CCUG53310 can be characterised as being very robust, with great potential for industrial fermentation of lignocellulosic hydrolysates relatively low in phenolic inhibitors.

saccharomyces-cerevisiae s288c

industrial

gene

Saccharomyces cerevisiae

hydrolysate

batch

furfural

phenolic inhibitors

lignocellulose

cell-cell

protein

fermentation

laboratory strains

biofuel

ethanol-production

Författare

Johan Westman

Chalmers, Kemi- och bioteknik, Industriell Bioteknik

Mohammad Taherzadeh Esfahani

Högskolan i Borås

Carl Johan Franzén

Chalmers, Kemi- och bioteknik, Industriell Bioteknik

Electronic Journal of Biotechnology

07173458 (eISSN)

Vol. 15 3

Ämneskategorier

Mikrobiologi

DOI

10.2225/vol15-issue3-fulltext-8

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Senast uppdaterat

2023-03-22