Publikationen von V. Mengin

Chew, Y. H.; Seaton, D. D.; Mengin, V.; Flis, A.; Mugford, S. T.; George, G. M.; Moulin, M.; Hume, A.; Zeeman, S. C.; Fitzpatrick, T. B. et al.; Smith, A. M.; Stitt, M.; Millar, A. J.: The Arabidopsis Framework Model version 2 predicts the organism-level effects of circadian clock gene mis-regulation. in silico Plants 4 (2), diac010 (2022)

Peixoto, B.; Moraes, T. A.; Mengin, V.; Margalha, L.; Vicente, R.; Feil, R.; Höhne, M.; Sousa, A. G. G.; Lilue, J.; Stitt, M. et al.; Lunn, J. E.; Baena-González, E.: Impact of the SnRK1 protein kinase on sucrose homeostasis and the transcriptome during the diel cycle. Plant Physiology 187 (3), S. 1357 - 1373 (2021)

Krahmer, J.; Abbas, A.; Mengin, V.; Ishihara, H.; Romanowski, A.; Furniss, J. J.; Moraes, T. A.; Krohn, N.; Annunziata, M. G.; Feil, R. et al.; Alseekh, S.; Obata, T.; Fernie, A. R.; Stitt, M.; Halliday, K. J.: Phytochromes control metabolic flux, and their action at the seedling stage determines adult plant biomass. Journal of Experimental Botany 72 (8), S. 3263 - 3278 (2021)

Moraes, T. A.; Mengin, V.; Annunziata, M. G.; Encke, B.; Krohn, N.; Höhne, M.; Stitt, M.: Response of the Circadian Clock and Diel Starch Turnover to One Day of Low Light or Low CO2. Plant Physiology 179 (4), S. 1457 - 1478 (2019)

Belouah, I.; Nazaret, C.; Petriacq, P.; Prigent, S.; Benard, C.; Mengin, V.; Blein-Nicolas, M.; Denton, A. K.; Balliau, T.; Auge, S. et al.; Bouchez, O.; Mazat, J.-P.; Stitt, M.; Usadel, B.; Zivy, M.; Beauvoit, B.; Gibon, Y.; Colombie, S.: Modeling Protein Destiny in Developing Fruit. Plant Physiology 180 (3), S. 1709 - 1724 (2019)

Borghi, G.L.; Moraes, T. A.; Günther, M.; Feil, R.; Mengin, V.; Lunn, J. E.; Stitt, M.; Arrivault, S.: Relationship between irradiance and levels of Calvin-Benson cycle and other intermediates in the model eudicot Arabidopsis and the model monocot rice. Journal of Experimental Botany 70 (20), S. 5809 - 5825 (2019)

Flis, A.; Mengin, V.; Ivakov, A.; Mugford, S.T.; Hubberten, H. M.; Encke, B.; Krohn, N.; Höhne, M.; Feil, R.; Hoefgen, R. et al.; Lunn, J. E.; Millar, A.J.; Smith, A.M.; Sulpice, R.; Stitt, M.: Multiple circadian clock outputs regulate diel turnover of carbon and nitrogen reserves. Plant, Cell and Environment 42 (2), S. 549 - 573 (2019)

Annunziata, M. G.; Apelt, F.; Carillo, P.; Krause, U.; Feil, R.; Mengin, V.; Lauxmann, M.; Koehl, K. I.; Nikoloski, Z.; Stitt, M. et al.; Lunn, J. E.; Raines, C.: Getting back to nature: a reality check for experiments in controlled environments. Journal of Experimental Botany 68 (16), S. 4463 - 4477 (2017)

Arrivault, S.; Obata, T.; Szecówka, M.; Mengin, V.; Guenther, M.; Höhne, M.; Fernie, A. R.; Stitt, M.: Metabolite pools and carbon flow during C4 photosynthesis in maize: 13CO2 labeling kinetics and cell type fractionation. Journal of Experimental Botany 68, S. 283 - 298 (2017)

Fernandez, O.; Ishihara, H.; George, G. M.; Mengin, V.; Flis, A.; Sumner, D.; Arrivault, S.; Feil, R.; Lunn, J. E.; Zeeman, S. C. et al.; Smith, A. M.; Stitt, M.: Leaf Starch Turnover Occurs in Long Days and in Falling Light at the End of the Day. Plant Physiology 174 (4), S. 2199 - 2212 (2017)

Mengin, V.; Pyl, E. T.; Moraes, T. A.; Sulpice, R.; Krohn, N.; Encke, B.; Stitt, M.: Photosynthate Partitioning to Starch in Arabidopsis is Insensitive to Light Intensity but Sensitive to Photoperiod due to a Restriction on Growth in the Light in Short Photoperiods. Plant, Cell and Environment 40 (11-SI), S. 2608 - 2627 (2017)

Flis, A.; Fernandez, A. P.; Zielinski, T.; Mengin, V.; Sulpice, R.; Stratford, K.; Hume, A.; Pokhilko, A.; Southern, M. M.; Seaton, D. D. et al.; McWatters, H. G.; Stitt, M.; Halliday, K. J.; Millar, A. J.: Defining the robust behaviour of the plant clock gene circuit with absolute RNA timeseries and open infrastructure. Open biology 5 (10), 150042 (2015)

Chew, Y. H.; Wenden, B.; Flis, A.; Mengin, V.; Taylor, J.; Davey, C. L.; Tindal, C.; Thomas, H.; Ougham, H. J.; de Reffye, P. et al.; Stitt, M.; Williams, M.; Muetzelfeldt, R.; Halliday, K. J.; Millar, A. J.: Multiscale digital Arabidopsis predicts individual organ and whole-organism growth. Proceedings of the National Academy of Sciences of the United States of America 111 (39), S. E4127 - E4136 (2014)