User profiles for Jennifer C. Ewald
Jennifer Christina EwaldUniversity of Tübingen Verified email at ifiz.uni-tuebingen.de Cited by 2198 |
Mass spectrometry-based metabolomics: a guide for annotation, quantification and best reporting practices
Mass spectrometry-based metabolomics approaches can enable detection and
quantification of many thousands of metabolite features simultaneously. However, compound …
quantification of many thousands of metabolite features simultaneously. However, compound …
[PDF][PDF] Cell size control in yeast
Cell size is an important adaptive trait that influences nearly all aspects of cellular physiology.
Despite extensive characterization of the cell-cycle regulatory network, the molecular …
Despite extensive characterization of the cell-cycle regulatory network, the molecular …
[HTML][HTML] Integrated multilaboratory systems biology reveals differences in protein metabolism between two reference yeast strains
The field of systems biology is often held back by difficulties in obtaining comprehensive,
high-quality, quantitative data sets. In this paper, we undertook an interlaboratory effort to …
high-quality, quantitative data sets. In this paper, we undertook an interlaboratory effort to …
[PDF][PDF] The yeast cyclin-dependent kinase routes carbon fluxes to fuel cell cycle progression
Cell division entails a sequence of processes whose specific demands for biosynthetic
precursors and energy place dynamic requirements on metabolism. However, little is known …
precursors and energy place dynamic requirements on metabolism. However, little is known …
[HTML][HTML] Global mapping of protein–metabolite interactions in Saccharomyces cerevisiae reveals that Ser-Leu dipeptide regulates phosphoglycerate kinase activity
Protein–metabolite interactions are of crucial importance for all cellular processes but remain
understudied. Here, we applied a biochemical approach named PROMIS, to address the …
understudied. Here, we applied a biochemical approach named PROMIS, to address the …
[HTML][HTML] Engineering Genetically Encoded Nanosensors for Real-Time In Vivo Measurements of Citrate Concentrations
JC Ewald, S Reich, S Baumann, WB Frommer… - PloS one, 2011 - journals.plos.org
Citrate is an intermediate in catabolic as well as biosynthetic pathways and is an important
regulatory molecule in the control of glycolysis and lipid metabolism. Mass spectrometric and …
regulatory molecule in the control of glycolysis and lipid metabolism. Mass spectrometric and …
[HTML][HTML] Live cell microscopy: From image to insight
AP Cuny, FP Schlottmann, JC Ewald, S Pelet… - Biophysics …, 2022 - pubs.aip.org
Live-cell microscopy is a powerful tool that can reveal cellular behavior as well as the
underlying molecular processes. A key advantage of microscopy is that by visualizing biological …
underlying molecular processes. A key advantage of microscopy is that by visualizing biological …
How yeast coordinates metabolism, growth and division
JC Ewald - Current Opinion in Microbiology, 2018 - Elsevier
… Author links open overlay panel Jennifer C Ewald … JJ Turner, JC Ewald, JM Skotheim …
Kalashnikova, WH McDonald, JR Yates 3rd, C. Wittenberg …
Kalashnikova, WH McDonald, JR Yates 3rd, C. Wittenberg …
[HTML][HTML] Fueling the cycle: CDKs in carbon and energy metabolism
M Solaki, JC Ewald - Frontiers in cell and developmental biology, 2018 - frontiersin.org
Cyclin-dependent kinases (CDKs) are the central regulators of the eukaryotic cell cycle, and
are conserved across eukaryotes. Their main and well-studied function lies in the regulation …
are conserved across eukaryotes. Their main and well-studied function lies in the regulation …
A genetically encoded Förster resonance energy transfer sensor for monitoring in vivo trehalose-6-phosphate dynamics
EA Peroza, JC Ewald, G Parakkal, JM Skotheim… - Analytical …, 2015 - Elsevier
Trehalose-6-phosphate is a pivotal regulator of sugar metabolism, growth, and osmotic
equilibrium in bacteria, yeasts, and plants. To directly visualize the intracellular levels of …
equilibrium in bacteria, yeasts, and plants. To directly visualize the intracellular levels of …