Spatiotemporal Regulation of Lateral Root Organogenesis in Arabidopsis by Cytokinin

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Authors

BIELACH Agnieszka PODLESAKOVA K. MARHAVÝ P. DUCLERCQ J. CUESTA C. MUELLER B. GRUNEWALD W. TARKOWSKI Petr FRIMLOVÁ Eva

Year of publication 2012
Type Article in Periodical
Magazine / Source Plant Cell
MU Faculty or unit

Central European Institute of Technology

Citation
Web http://www.plantcell.org/content/24/10/3967.full.pdf+html
Doi http://dx.doi.org/10.1105/tpc.112.103044
Field Biochemistry
Keywords DEPENDENT AUXIN GRADIENTS; GENE-EXPRESSION; FOUNDER CELLS; DEVELOPMENTAL WINDOW; MASS-SPECTROMETRY; PLANT DEVELOPMENT; INITIATION; MERISTEM; TRANSPORT; THALIANA
Attached files
Description The architecture of a plant's root system, established postembryonically, results from both coordinated root growth and lateral root branching. The plant hormones auxin and cytokinin are central endogenous signaling molecules that regulate lateral root organogenesis positively and negatively, respectively. Tight control and mutual balance of their antagonistic activities are particularly important during the early phases of lateral root organogenesis to ensure continuous lateral root initiation (LRI) and proper development of lateral root primordia (LRP). Here, we show that the early phases of lateral root organogenesis, including priming and initiation, take place in root zones with a repressed cytokinin response. Accordingly, ectopic overproduction of cytokinin in the root basal meristem most efficiently inhibits LRI. Enhanced cytokinin responses in pericycle cells between existing LRP might restrict LRI near existing LRP and, when compromised, ectopic LRI occurs. Furthermore, our results demonstrate that young LRP are more sensitive to perturbations in the cytokinin activity than are developmentally more advanced primordia. We hypothesize that the effect of cytokinin on the development of primordia possibly depends on the robustness and stability of the auxin gradient.
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