B
Bas Teusink
Researcher at VU University Amsterdam
Publications - 208
Citations - 12497
Bas Teusink is an academic researcher from VU University Amsterdam. The author has contributed to research in topics: Metabolic network & Saccharomyces cerevisiae. The author has an hindex of 56, co-authored 193 publications receiving 10872 citations. Previous affiliations of Bas Teusink include University of Amsterdam & Delft University of Technology.
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Journal ArticleDOI
Enhancement of amino acid production and secretion by Lactococcus lactis using a droplet-based biosensing and selection system.
Jhonatan A. Hernandez-Valdes,Myrthe Aan de Stegge,Jos Hermans,Johan Teunis,Rinke J. van Tatenhove-Pel,Bas Teusink,Herwig Bachmann,Oscar P. Kuipers +7 more
TL;DR: It is argued that an unbalance in the regulation of amino acid levels as a result of these gene mutations may drive the accumulation and secretion of these amino acids.
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Energy, control and DNA structure in the living cell.
J.E. Wijker,Peter Ruhdal Jensen,Jacky L. Snoep,A. Vaz Gomes,Myriam Guiral,A. P. M. Jongsma,A. de Waal,Sjouke Hoving,S. van Dooren,C.C. van der Weijden,M. van Workum,W.C. van Heeswijk,O. Molenaar,Peter R. Wielinga,Peter Richard,Jasper A. Diderich,Barbara M. Bakker,Bas Teusink,Mirte B. Hemker,Johann M. Rohwer,A.A. van der Gugten,Boris N. Kholodenko,Hans V. Westerhoff +22 more
TL;DR: The extent to which the intracellular ATP level is involved in the control of cell physiology, how the elaborate control ofcell function may be analyzed theoretically and quantitatively, and if this can be utilized selectively to affect certain cell types are addressed.
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An Improved ATP FRET Sensor for Yeast Shows Heterogeneity during Nutrient Transitions
TL;DR: It is shown that pregrowth conditions largely affect ATP dynamics during transitions, and single-cell analyses showed a large variety in ATP responses, which implies large differences of glycolytic startup between individual cells.
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Comparative systems biology: from bacteria to man
TL;DR: In this article, comparative systems biology, as a marriage between bioinformatics and system biology, will offer new insights into the nature of organisms for the benefit of medicine, biotechnology, and drug design.
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Optimality Principles in the Regulation of Metabolic Networks
TL;DR: Several optimisation principles applied to biological networks, with an emphasis on metabolic regulatory networks are outlined, and the different objective functions and constraints that are considered and the kind of understanding that they provide are discussed.