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Kate Campbell

Showing results (11-20 of 51) with videos related to

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Methods in Molecular Biology (Clifton, N.J.)|October 12, 2019
Self-Establishing Communities: A Yeast Model to Study the Physiological Impact of Metabolic Cooperation in Eukaryotic CellsKate Campbell, Clara Correia-Melo, Markus Ralser
The Journal of Laryngology and Otology|August 17, 2005
Liposarcoma of the retropharyngeal spaceRaefe Gundelach, Ramzan Ullah, Scott Coman, et al.
Antioxidants & Redox Signaling|November 25, 2015
Methionine Metabolism Alters Oxidative Stress Resistance via the Pentose Phosphate PathwayKate Campbell, Jakob Vowinckel, Markus A Keller, et al.
Nature|January 18, 2019
Define working culture, don't leave it to chanceKate Campbell, Yasaman Dabirian, Christoph Börlin, et al.
Methods in Enzymology|September 4, 2018
Modular Pathway Rewiring of Yeast for Amino Acid ProductionQuanli Liu, Tao Yu, Kate Campbell, et al.
F1000Research|November 11, 2016
<i>Saccharomyces cerevisiae</i> single-copy plasmids for auxotrophy compensation, multiple marker selection, and for designing metabolically cooperating communitiesMichael Mülleder, Kate Campbell, Olga Matsarskaia, et al.
Journal of Molecular Biology|July 10, 2015
Remaining Mysteries of Molecular Biology: The Role of Polyamines in the CellLeonor Miller-Fleming, Viridiana Olin-Sandoval, Kate Campbell, et al.
Applied and Environmental Microbiology|May 28, 2021
The Yeast eIF2 Kinase Gcn2 Facilitates H<sub>2</sub>O<sub>2</sub>-Mediated Feedback Inhibition of Both Protein Synthesis and Endoplasmic Reticulum Oxidative Folding during Recombinant Protein ProductionVeronica Gast, Kate Campbell, Cecilia Picazo, et al.
Proceedings of the National Academy of Sciences of the United States of America|August 21, 2020
Proteome reallocation from amino acid biosynthesis to ribosomes enables yeast to grow faster in rich mediaJohan Björkeroth, Kate Campbell, Carl Malina, et al.
Microbial Cell Factories|November 7, 2019
Metabolic engineering and transcriptomic analysis of Saccharomyces cerevisiae producing p-coumaric acid from xyloseGheorghe M Borja, Angelica Rodriguez, Kate Campbell, et al.
Pageof 6

Showing results (11-20 of 51) with videos related to

Sort By:
Pageof 6
Methods in Molecular Biology (Clifton, N.J.)|October 12, 2019
Self-Establishing Communities: A Yeast Model to Study the Physiological Impact of Metabolic Cooperation in Eukaryotic CellsKate Campbell, Clara Correia-Melo, Markus Ralser
The Journal of Laryngology and Otology|August 17, 2005
Liposarcoma of the retropharyngeal spaceRaefe Gundelach, Ramzan Ullah, Scott Coman, et al.
Antioxidants & Redox Signaling|November 25, 2015
Methionine Metabolism Alters Oxidative Stress Resistance via the Pentose Phosphate PathwayKate Campbell, Jakob Vowinckel, Markus A Keller, et al.
Nature|January 18, 2019
Define working culture, don't leave it to chanceKate Campbell, Yasaman Dabirian, Christoph Börlin, et al.
Methods in Enzymology|September 4, 2018
Modular Pathway Rewiring of Yeast for Amino Acid ProductionQuanli Liu, Tao Yu, Kate Campbell, et al.
F1000Research|November 11, 2016
<i>Saccharomyces cerevisiae</i> single-copy plasmids for auxotrophy compensation, multiple marker selection, and for designing metabolically cooperating communitiesMichael Mülleder, Kate Campbell, Olga Matsarskaia, et al.
Journal of Molecular Biology|July 10, 2015
Remaining Mysteries of Molecular Biology: The Role of Polyamines in the CellLeonor Miller-Fleming, Viridiana Olin-Sandoval, Kate Campbell, et al.
Applied and Environmental Microbiology|May 28, 2021
The Yeast eIF2 Kinase Gcn2 Facilitates H<sub>2</sub>O<sub>2</sub>-Mediated Feedback Inhibition of Both Protein Synthesis and Endoplasmic Reticulum Oxidative Folding during Recombinant Protein ProductionVeronica Gast, Kate Campbell, Cecilia Picazo, et al.
Proceedings of the National Academy of Sciences of the United States of America|August 21, 2020
Proteome reallocation from amino acid biosynthesis to ribosomes enables yeast to grow faster in rich mediaJohan Björkeroth, Kate Campbell, Carl Malina, et al.
Microbial Cell Factories|November 7, 2019
Metabolic engineering and transcriptomic analysis of Saccharomyces cerevisiae producing p-coumaric acid from xyloseGheorghe M Borja, Angelica Rodriguez, Kate Campbell, et al.
Pageof 6