Publications of A. Flis

Journal Article (13)

1.
Journal Article
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)
2.
Journal Article
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), pp. 549 - 573 (2019)
3.
Journal Article
Apelt, F.; Breuer, D.; Olas, J. J.; Annunziata, M. G.; Flis, A.; Nikoloski, Z.; Kragler, F.; Stitt, M.: Circadian, Carbon, and Light Control of Expansion Growth and Leaf Movement. Plant Physiology 174 (3), pp. 1949 - 1968 (2017)
4.
Journal Article
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), pp. 2199 - 2212 (2017)
5.
Journal Article
Graf, A.; Coman, D.; Uhrig, R.G.; Walsh, S.; Flis, A.; Stitt, M.; Gruissem, W.: Parallel analysis of arabidopsis circadian clock mutants reveals different scales of transcriptome and proteome regulation. Open Biology 7 (3), 160333 (2017)
6.
Journal Article
Ivakov, A.; Flis, A.; Apelt, F.; Fünfgeld, M. F.F.; Scherer, U.; Stitt, M.; Kragler, F.; Vissenberg, K.; Persson, S.; Suslov, D.: Cellulose Synthesis and Cell Expansion Are Regulated by Different Mechanisms in Growing Arabidopsis Hypocotyls. The Plant Cell 29 (6), pp. 1305 - 1315 (2017)
7.
Journal Article
Flis, A.; Sulpice, R.; Seaton, D. D.; Ivakov, A.; Liput, M.; Abel, C.; Millar, A. J.; Stitt, M.: Photoperiod-dependent changes in the phase of core clock transcripts and global transcriptional outputs at dawn and dusk in Arabidopsis. Plant, Cell and Environment 39 (9), pp. 1955 - 1981 (2016)
8.
Journal Article
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)
9.
Journal Article
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), pp. E4127 - E4136 (2014)
10.
Journal Article
Mugford, S. T.; Fernandez, O.; Brinton, J.; Flis, A.; Krohn, N.; Encke, B.; Feil, R.; Sulpice, R.; Lunn, J. E.; Stitt, M. et al.; Smith, A. M.: Regulatory Properties of ADP Glucose Pyrophosphorylase Are Required for Adjustment of Leaf Starch Synthesis in Different Photoperiods. Plant Physiology 166 (4), pp. 1733 - 47 (2014)
11.
Journal Article
Pokhilko, A.; Flis, A.; Sulpice, R.; Stitt, M.; Ebenhoh, O.: Adjustment of carbon fluxes to light conditions regulates the daily turnover of starch in plants: a computational model. Molecular BioSystems 10 (3), pp. 613 - 627 (2014)
12.
Journal Article
Sulpice, R.; Flis, A.; Ivakov, A.; Apelt, F.; Krohn, N.; Encke, B.; Abel, C.; Feil, R.; Lunn, J. E.; Stitt, M.: Arabidopsis coordinates the diurnal regulation of carbon allocation and growth across a wide range of photoperiods. Molecular Plant 7 (1), pp. 137 - 155 (2014)
13.
Journal Article
Riedelsheimer, C.; Lisec, J.; Czedik-Eysenberg, A.; Sulpice, R.; Flis, A.; Grieder, C.; Altmann, T.; Stitt, M.; Willmitzer, L.; Melchinger, A. E.: Genome-wide association mapping of leaf metabolic profiles for dissecting complex traits in maize. Proceedings of the National Academy of Sciences of the United States of America 109 (23), pp. 8872 - 8877 (2012)
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