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Romagnoli, G. (author), Verhoeven, M.D. (author), Mans, R. (author), Fleury Rey, Y. (author), Bel-Rhlid, R. (author), Van den Broek, M. (author), Maleki Seifar, R. (author), Ten Pierick, A. (author), Thompson, M. (author), Müller, V. (author), Wahl, S.A. (author), Pronk, J.T. (author), Daran, J.M. (author)Most available knowledge on fungal arginine metabolism is derived from studies on Saccharomyces cerevisiae, in which arginine catabolism is initiated by releasing urea via the arginase reaction. Orthologues of the S. cerevisiae genes encoding the first three enzymes in the arginase pathway were cloned from Kluyveromyces lactis and shown to...journal article 2014
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Kuijpers, N.G. (author), Solis-Escalante, D. (author), Bosman, L. (author), Van den Broek, M. (author), Pronk, J.T. (author), Daran, J.M. (author), Daran-Lapujade, P.A.S. (author)Background: In vivo recombination of overlapping DNA fragments for assembly of large DNA constructs in the yeast Saccharomyces cerevisiae holds great potential for pathway engineering on a small laboratory scale as well as for automated high-throughput strain construction. However, the current in vivo assembly methods are not consistent with...journal article 2013
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Gonzalez-Ramos, D. (author), Van den Broek, M. (author), Van Maris, A.J.A. (author), Pronk, J.T. (author), Daran, J.M.G. (author)Background n-Butanol and isobutanol produced from biomass-derived sugars are promising renewable transport fuels and solvents. Saccharomyces cerevisiae has been engineered for butanol production, but its high butanol sensitivity poses an upper limit to product titers that can be reached by further pathway engineering. A better understanding of...journal article 2013