E
Eva Zažímalová
Researcher at Academy of Sciences of the Czech Republic
Publications - 54
Citations - 5938
Eva Zažímalová is an academic researcher from Academy of Sciences of the Czech Republic. The author has contributed to research in topics: Auxin & Auxin efflux. The author has an hindex of 32, co-authored 54 publications receiving 5335 citations. Previous affiliations of Eva Zažímalová include De Montfort University & Czechoslovak Academy of Sciences.
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BookDOI
Auxin and its role in plant development
TL;DR: This chapter discusses the role of auxin in development, its role in metabolism, transport and signaling, and its practical applications.
Journal ArticleDOI
Cell Plate Restricted Association of DRP1A and PIN Proteins Is Required for Cell Polarity Establishment in Arabidopsis
Jozef Mravec,Jozef Mravec,Jozef Mravec,Jan Petrášek,Na Li,Sjef Boeren,Rumyana Karlova,Saeko Kitakura,Markéta Pařezová,Satoshi Naramoto,Tomasz Nodzyński,Pankaj Dhonukshe,Sebastian Y. Bednarek,Eva Zažímalová,Sacco C. de Vries,Jiří Friml,Jiří Friml,Jiří Friml +17 more
TL;DR: It is proposed that rapid and specific internalization of PIN proteins mediated by the DRP1 proteins and the associated CME machinery from the cell plate membranes during cytokinesis is an important mechanism for proper polar PIN positioning in interphase cells.
Journal ArticleDOI
Defining the selectivity of processes along the auxin response chain: a study using auxin analogues.
Sibu Simon,Sibu Simon,Sibu Simon,Martin Kubeš,Pawel Radoslaw Baster,Pawel Radoslaw Baster,Stéphanie Robert,Stéphanie Robert,Petre I. Dobrev,Jiri Friml,Jiri Friml,Jiri Friml,Jan Petrášek,Eva Zažímalová +13 more
TL;DR: The results demonstrate that the major determinants for the auxin-like physiological potential of a particular compound are very complex and involve its chemical and metabolic stability, its ability to distribute in tissues in a polar manner and its activity towards auxin signalling machinery.
Journal ArticleDOI
cis-Cinnamic acid is a novel, natural auxin efflux inhibitor that promotes lateral root formation
Ward Steenackers,Petr Klíma,Mussa Quareshy,Igor Cesarino,Robert P. Kumpf,Sander Corneillie,Pedro Araújo,Tom Viaene,Geert Goeminne,Moritz K. Nowack,Karin Ljung,Jiří Friml,Joshua J. Blakeslee,Ondřej Novák,Eva Zažímalová,Richard M. Napier,Wout Boerjan,Bartel Vanholme +17 more
TL;DR: A novel mechanism how plants may regulate auxin levels is revealed and c-CA is added to a small group of endogenous molecules affecting in planta auxin concentrations, adding a novel, naturally occurring molecule to the chemical toolbox for the studies of auxin homeostasis.
Journal ArticleDOI
7-Rhamnosylated Flavonols Modulate Homeostasis of the Plant Hormone Auxin and Affect Plant Development
Benjamin M. Kuhn,Sanae Errafi,Rahel Bucher,Petre I. Dobrev,Markus Geisler,Laurent Bigler,Eva Zažímalová,Christoph Ringli +7 more
TL;DR: A detailed analysis revealed that interfering with flavonol rhamnosylation increases the concentration of auxin precursors and auxin metabolites, whereas auxin transport is not affected, suggesting that Flavonol glycosides play an important role in regulating plant development.