Publications of Thomas Schwander
All genres
Journal Article (6)
2023
Journal Article
McLean, Richard, Schwander, Thomas, Diehl, Christoph, Cortina, Nina Socorro, Paczia, Nicole, Zarzycki, Jan and Erb, Tobias J.: (2023) Exploring alternative pathways for the in vitro establishment of the HOPAC cycle for synthetic CO2 fixation, Science Advances, Washington, AAAS, 9 (24).
2020
Journal Article
Miller, Tarryn, , Schwander, Thomas, Diehl, Christoph, , McLean, Richard, , Claus, Peter, Cortina, Nina Socorro, and Erb, Tobias J.: (2020) Light-powered CO2 fixation in a chloroplast mimic with natural and synthetic parts, SI, 368 (6491), pp. 649-+.
2018
Journal Article
Schwander, Thomas, McLean, Richard, Zarzycki, Jan and Erb, Tobias J.: (2018) Structural basis for substrate specificity of methylsuccinyl-CoA dehydrogenase, an unusual member of the acyl-CoA dehydrogenase family, JOURNAL OF BIOLOGICAL CHEMISTRY, 293 (5), pp. 1702–1712.
Journal Article
Burgener, Simon, Schwander, Thomas, , and Erb, Tobias J.: (2018) Molecular Basis for Converting (2S)-Methylsuccinyl-CoA Dehydrogenase into an Oxidase, MOLECULES, 23 (1).
2016
Journal Article
Schwander, Thomas, Schada v. Borzyskowsi, Lennart, Burgener, Simon, Cortina, Nina Socorro and Erb, Tobias J.: (2016) A synthetic pathway for the fixation of carbon dioxide in vitro, Science, 354 (6314), pp. 900–904.
2014
Journal Article
Schwander, T., Schada von Borzyskowski, L., Erb, T. J., and : (2014) Ammonia-oxidizing archaea use the most energy-efficient aerobic pathway for CO2 fixation, Proc Natl Acad Sci U S A, 111 (22), pp. 8239–44.
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2016
Magazine Article
Schwander, Thomas and Erb, Tobias J.: (2016) Do it your (path)way –synthetische Wege zur CO2-Fixierung, BIOspektrum.
Thesis - PhD (1)
2018
Thesis - PhD
Schwander, Thomas: (2018) The design and realization of synthetic pathways for the fixation of carbon dioxide in vitro, Philipps-Universität Marburg.
Preprint (1)
2020
Preprint
Schwander, Thomas, Erb, Tobias J., and : (2020) Structural adaptation of oxygen tolerance in 4-hydroxybutyrl-CoA dehydratase, a key enzyme of archaeal carbon fixation., bioRxiv - The Preprint Server for Biology.
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