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Papapetridis, I. (author), Goudriaan, M. (author), De Keijzer, Nikita A. (author), van den Broek, M.A. (author), van Maris, A.J.A. (author), Pronk, J.T. (author)
balance....
journal article 2018
document
Bracher, J.M. (author), Verhoeven, M.D. (author), Wisselink, H. Wouter (author), Crimi, B. (author), Nijland, Jeroen G. (author), Driessen, Arnold J.M. (author), Klaassen, Paul (author), van Maris, A.J.A. (author), Daran, J.G. (author), Pronk, J.T. (author)
Background: l-Arabinose occurs at economically relevant levels in lignocellulosic hydrolysates. Its low-affinity uptake via the Saccharomyces cerevisiae Gal2 galactose transporter is inhibited by d-glucose. Especially at low concentrations of l-arabinose, uptake is an important rate-controlling step in the complete conversion of these...
journal article 2018
document
Verhoeven, M.D. (author), de Valk, S.C. (author), Daran, J.G. (author), van Maris, A.J.A. (author), Pronk, J.T. (author)
D-Glucose, D-xylose and L-arabinose are major sugars in lignocellulosic hydrolysates. This study explores fermentation of glucose-xylose-arabinose mixtures by a consortium of three ‘specialist’ Saccharomyces cerevisiae strains. A D-glucose- and L-arabinose-tolerant xylose specialist was constructed by eliminating hexose phosphorylation in an...
journal article 2018
document
Brickwedde, A. (author), Brouwers, N. (author), van den Broek, M.A. (author), Fraiture, J.L. (author), Pronk, J.T. (author), Daran, J.G. (author)
/FM1318. To...
journal article 2018
document
Papapetridis, I. (author), van Dijk, M. (author), van Maris, A.J.A. (author), Pronk, J.T. (author)
-dependent acetate reduction has been shown to improve ethanol yields and...
journal article 2017
document
Gonzalez Ramos, D. (author), Gorter de Vries, A.R. (author), Grijseels, Sietske S. (author), Swinnen, Steve (author), van den Broek, M.A. (author), Nevoigt, Elke (author), Daran, J.G. (author), Pronk, J.T. (author), van Maris, A.J.A. (author)
Background: Acetic acid, released during hydrolysis of lignocellulosic feedstocks for second generation bioethanol production, inhibits yeast growth and alcoholic fermentation. Yeast biomass generated in a propagation step that precedes ethanol production should therefore express a high and constitutive level of acetic acid tolerance before...
journal article 2016
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Vos, T. (author), Hakkaart, X.D.V. (author), de Hulster, A.F. (author), van Maris, A.J.A. (author), Pronk, J.T. (author), Daran-Lapujade, P.A.S. (author)
Background: Saccharomyces cerevisiae is an established microbial platform for production of native and non-native compounds. When product pathways compete with growth for precursors and energy, uncoupling of growth and product formation could increase product yields and decrease formation of biomass as a by-product. Studying non-growing,...
journal article 2016
document
Papapetridis, I. (author), van Dijk, M. (author), Dobbe, Arthur P A (author), Metz, B. (author), Pronk, J.T. (author), van Maris, A.J.A. (author)
Background: Acetic acid, an inhibitor of sugar fermentation by yeast, is invariably present in lignocellulosic hydrolysates which are used or considered as feedstocks for yeast-based bioethanol production. Saccharomyces cerevisiae strains have been constructed, in which anaerobic reduction of acetic acid to ethanol replaces glycerol formation...
journal article 2016
document
Kozak, B.U. (author), van Rossum, Harmen M. (author), Niemeijer, M.S. (author), van Dijk, M. (author), Benjamin, Kirsten (author), Wu, Liang (author), Daran, J.G. (author), Pronk, J.T. (author), van Maris, A.J.A. (author)
In Saccharomyces cerevisiae ethanol dissimilation is initiated by its oxidation and activation to cytosolic acetyl-CoA. The associated consumption of ATP strongly limits yields of biomass and acetyl-CoA-derived products. Here, we explore the implementation of an ATP-independent pathway for acetyl-CoA synthesis from ethanol that, in theory,...
journal article 2016
document
De Kok, S. (author), Yilmaz, D. (author), Daran, J.M. (author), Pronk, J.T. (author), Van Maris, A.J.A. (author)
Plasma membrane H+-ATPase isoforms with increased H+/ATP ratios represent a desirable asset in yeast metabolic engineering. In vivo proton coupling of two previously reported Pma1p isoforms (Ser800Ala, Glu803Gln) with increased in vitro H+/ATP stoichiometries was analysed by measuring biomass yields of anaerobic maltose-limited chemostat...
journal article 2012
document
Pronk, J.T. (author), Steensma, H.Y. (author), van Dijken, J.P. (author)
journal article 1996
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