Publications of Arren Bar-Even

Journal Article (16)

1.
Journal Article
Cotton, C. A. R.; Bernhardsgrütter, I.; He, H.; Burgener, S.; Schulz, L.; Paczia, N.; Dronsella, B.; Erban, A.; Toman, S.; Dempfle, M. et al.; de Maria, A.; Kopka, J.; Lindner, S. N.; Erb, T. J.; Bar-Even, A.: Underground isoleucine biosynthesis pathways in E. coli. eLife 9, e54207 (2020)
2.
Journal Article
Ramirez, L. C.; Calvo Tusell, C.; Stoffel, G. M. M.; Lindner, S. N.; Osuna, S.; Erb, T. J.; Garcia-Borràs, M.; Bar-Even, A.; Acevedo-Rocha, C. G.: In vivo selection for formate dehydrogenases with high efficiency and specificity towards NADP+. ACS Catalysis 10, pp. 7512 - 7525 (2020)
3.
Journal Article
Aslan, S.; Noor, E.; Benito-Vaquerizo, S.; Lindner, S. N.; Bar-Even, A.: Design and engineering of E. coli metabolic sensor strains with a wide sensitivity range for glycerate. Metabolic Engineering 57, pp. 96 - 109 (2020)
4.
Journal Article
Claassens, N. J.; Bordanaba-Florit, G.; Cotton, C. A. R.; de Maria, A.; Finger-Bou, M.; Friedeheim, L.; Giner-Laguarda, N.; Munar-Palmer, M.; Newell, W.; Scarinci, G. et al.; Verbunt, J.; de Vries, S.T.; Yilmaz, S.; Bar-Even, A.: Replacing the Calvin cycle with the reductive glycine pathway in Cupriavidus necator. Metabolic Engineering 62, pp. 30 - 41 (2020)
5.
Journal Article
Claassens, N. J.; Scarinci, G.; Fischer, A.; Flamholz, A.I.; Newell, W.; Frielingsdorf, S.; Lenz, O.; Bar-Even, A.: Phosphoglycolate salvage in a chemolithoautotroph using the Calvin cycle. Proceedings of the National Academy of Sciences of the United States of America 117 (36), pp. 22452 - 22461 (2020)
6.
Journal Article
Cotton, C. A. R.; Claassens, N. J.; Benito-Vaquerizo, S.; Bar-Even, A.: Renewable methanol and formate as microbial feedstocks. Current Opinion in Biotechnology 62, pp. 168 - 180 (2020)
7.
Journal Article
Flamholz, A.I.; Dugan, E.; Blikstad, C.; Gleizer, S.; Ben-Nissan, R.; Amram, S.; Antonovsky, N.; Ravishankar, S.; Noor, E.; Bar-Even, A. et al.; Milo, R.; Savage, D.F.: Functional reconstitution of a bacterial co2 concentrating mechanism in E. coli. eLife 9, e59882, pp. 1 - 57 (2020)
8.
Journal Article
He, H.; Höper, R.; Dodenhöft, M.; Marlière, P.; Bar-Even, A.: An optimized methanol assimilation pathway relying on promiscuous formaldehyde-condensing aldolases in E. coli. Metabolic Engineering 60, pp. 1 - 13 (2020)
9.
Journal Article
He, H.; Noor, E.; Ramos-Parra, P. A.; García-Valencia, L. E.; Patterson, J. A.; Díaz de la Garza, R. I.; Hanson, A. D.; Bar-Even, A.: In Vivo Rate of Formaldehyde Condensation with Tetrahydrofolate. Metabolites 10 (2), 65 (2020)
10.
Journal Article
Kim, S.; Lindner, S. N.; Aslan, S.; Yishai, O.; Wenk, S.; Schann, K.; Bar-Even, A.: Growth of E. coli on formate and methanol via the reductive glycine pathway. Nature Chemical Biology 16 (5), pp. 538 - 545 (2020)
11.
Journal Article
Lindner, S. N.; Aslan, S.; Mueller, A.; Hoffart, E.; Behrens, P.; Edlich-Muth, C.; Blombach, B.; Bar-Even, A.: A synthetic glycerol assimilation pathway demonstrates biochemical constraints of cellular metabolism. The FEBS Journal 287 (1), pp. 160 - 172 (2020)
12.
Journal Article
Patterson, J.A.; He, H.; Folz, J.S.; Li, Q.; Wilson, M.A.; Fiehn, O.; Bruner, S.D.; Bar-Even, A.; Hanson, A.D.: Thioproline formation as a driver of formaldehyde toxicity in Escherichia coli. Biochemical Journal 477 (9), pp. 1745 - 1757 (2020)
13.
Journal Article
Sánchez-Andrea, I.; Guedes, I.A.; Hornung, B.; Boeren, S.; Lawson, C.E.; Sousa, D.Z.; Bar-Even, A.; Claassens, N. J.; Stams, A.J.M.: The reductive glycine pathway allows autotrophic growth of Desulfovibrio desulfuricans. Nature Communications 11 (1), 5090 (2020)
14.
Journal Article
Satanowski, A.; Bar-Even, A.: A one-carbon path for fixing CO2. EMBO reports 21 (4), e50273 (2020)
15.
Journal Article
Satanowski, A.; Dronsella, B.; Noor, E.; Vögeli, B.; He, H.; Wichmann, P.; Erb, T.J.; Lindner, S. N.; Bar-Even, A.: Awakening a latent carbon fixation cycle in Escherichia coli. Nature Communications 11 (1), 5812 (2020)
16.
Journal Article
Wenk, S.; Schann, K.; He, H.; Rainaldi, V.; Kim, S.; Lindner, S. N.; Bar-Even, A.: An “energy-auxotroph” E. coli provides an in vivo platform for assessing NADH regeneration systems. Biotechnology and Bioengineering 117 (11), pp. 3422 - 3434 (2020)
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