Publikationen von R. Tóth

de Montaigu, A.; Oeljeklaus, J.; Krahn, J. H.; Suliman, M. N. S.; Halder, V.; De Ansorena, E.; Nickel, S.; Schlich, M.; Plihal, O.; Kubiasová, K. et al.; Radova, L.; Kracher, B.; Tóth, R.; Kaschani, F.; Coupland, G.; Kombrink, E.; Kaiser, M.: The Root Growth-Regulating Brevicompanine Natural Products Modulate the Plant Circadian Clock. ACS Chemical Biology 12 (6), S. 1466 - 1471 (2017)

Pruzinska, A.; Shindo, T.; Niessen, S.; Kaschani, F.; Tóth, R.; Millar, A. H.; Van der Hoorn, R. A. L.: Major Cys protease activities are not essential for senescence in individually darkened Arabidopsis leaves. BMC Plant Biology 17, 4 (2017)

de Montaigu, A.; Giakountis, A.; Rubin, M.; Toth, R.; Cremer, F.; Sokolova, V.; Porri, A.; Reymond, M.; Weinig, C.; Coupland, G.: Natural diversity in daily rhythms of gene expression contributes to phenotypic variation. Proceedings of the National Academy of Sciences of the United States of America 112 (3), S. 905 - 910 (2015)

Berns, M. C.; Nordstroem, K.; Cremer, F.; Toth, R.; Hartke, M.; Simon, S.; Klasen, J. R.; Buerstel, I.; Coupland, G.: Evening Expression of Arabidopsis GIGANTEA Is Controlled by Combinatorial Interactions among Evolutionarily Conserved Regulatory Motifs. The Plant Cell 26 (10), S. 3999 - 4018 (2014)

Terecskei, K.; Tóth, R.; Gyula, P.; Kevei, E.; Bindics, J.; Coupland, G.; Nagy, F.; Kozma-Bognár, L.: The Circadian Clock-Associated Small GTPase LIGHT INSENSITIVE PERIOD1 Suppresses Light-Controlled Endoreplication and Affects Tolerance to Salt Stress in Arabidopsis. Plant Physiology 161, S. 278 - 290 (2013)

Toth, R.; Gerding-Reimers, C.; Deeks, M. J.; Menninger, S.; Gallegos, R. M.; Tonaco, I. A. N.; Huebel, K.; Hussey, P. J.; Waldmann, H.; Coupland, G.: Prieurianin/endosidin 1 is an actin-stabilizing small molecule identified from a chemical genetic screen for circadian clock effectors in Arabidopsis thaliana. The Plant Journal 71 (2), S. 338 - 352 (2012)

Kolmos, E.; Herrero, E.; Bujdoso, N.; Millar, A.J.; Toth, R.; Gyula, P.; Nagy, F.; Davis, S. J.: A Reduced-Function Allele Reveals That EARLY FLOWERING3 Repressive Action on the Circadian Clock Is Modulated by Phytochrome Signals in Arabidopsis. The Plant Cell 23 (9), S. 3230 - 3246 (2011)

MacLean, A. M.; Sugio, A.; Makarova, O. V.; Findlay, K. C.; Grieve, V. M.; Toth, R.; Nicolaisen, M.; Hogenhout, S. A.: Phytoplasma Effector SAP54 Induces Indeterminate Leaf-Like Flower Development in Arabidopsis Plants. PLANT PHYSIOLOGY 157 (2), S. 831 - 841 (2011)

de Montaigu, A.; Toth, R.; Coupland, G.: Plant development goes like clockwork. Trends in Genetics 26 (7), S. 296 - 306 (2010)

Toth, R.; Van der Hoorn, R. A. L.: Emerging principles in plant chemical genetics. Trends in Plant Science 15 (2), S. 81 - 88 (2010)

Kevei, E.; Gyula, P.; Feher, B.; Toth, R.; Viczian, A.; Kircher, S.; Rea, D.; Dorjgotov, D.; Schafer, E.; Millar, A. J. et al.; Kozma-Bognar, L.; Nagy, F.: Arabidopsis thaliana circadian clock is regulated by the small GTPase LIP1. Current Biology 17 (17), S. 1456 - 1464 (2007)

Kevei, E.; Gyula, P.; Hall, A.; Kozma-Bognar, L.; Kim, W. Y.; Eriksson, M. E.; Toth, R.; Hanano, S.; Feher, B.; Southern, M. M. et al.; Bastow, R. M.; Viczian, A.; Hibberd, V.; Davis, S. J.; Somers, D. E.; Nagy, F.; Millar, A. J.: Forward genetic analysis of the circadian clock separates the multiple functions of ZEITLUPE. Plant Physiology 140 (3), S. 933 - 945 (2006)