Anas Abuzeineh scite author profile

Cytokinin is an important regulator of plant growth and development. In Arabidopsis thaliana, the two-component phosphorelay mediated through a family of histidine kinases and response regulators is recognized as the principal cytokinin signal transduction mechanism activating the complex transcriptional response to control various developmental processes. Here, we identified an alternative mode of cytokinin action that uses endocytic trafficking as a means to direct plant organogenesis. This activity occurs downstream of known cytokinin receptors but through a branch of the cytokinin signaling pathway that does not involve transcriptional regulation. We show that cytokinin regulates endocytic recycling of the auxin efflux carrier PINFORMED1 (PIN1) by redirecting it for lytic degradation in vacuoles. Stimulation of the lytic PIN1 degradation is not a default effect for general downregulation of proteins from plasma membranes, but a specific mechanism to rapidly modulate the auxin distribution in cytokinin-mediated developmental processes.

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Inhibition of cell expansion by rapid ABP1-mediated auxin effect on microtubules

Chen

Grandont

et al. 2014

Nature

128

122

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The prominent and evolutionary ancient effect of the plant hormone auxin is the regulation of cell expansion1. Cell expansion requires ordered cytoskeleton arrangement2 but molecular mechanisms underlying its regulation by signaling molecules including auxin are unknown. Here we show in the model plant Arabidopsis thaliana that in elongating cells exogenous application of auxin or redistribution of endogenous auxin induces very rapid microtubule reorientation from transversal to longitudinal, coherent with the inhibition of cell expansion. This fast auxin effect requires Auxin Binding Protein1 (ABP1) and involves a contribution of downstream signaling components such as ROP6 GTPase, ROP-interactive protein RIC1 and microtubule severing protein Katanin. These components are required for rapid auxin and ABP1-mediated reorientation of microtubules to regulate cell elongation in roots and dark grown hypocotyls as well as asymmetric growth during gravitropic responses.

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Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation

et al. 2016

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To sustain a lifelong ability to initiate organs, plants retain pools of undifferentiated cells with a preserved proliferation capacity. The root pericycle represents a unique tissue with conditional meristematic activity, and its tight control determines initiation of lateral organs. Here we show that the meristematic activity of the pericycle is constrained by the interaction with the adjacent endodermis. Release of these restraints by elimination of endodermal cells by single-cell ablation triggers the pericycle to re-enter the cell cycle. We found that endodermis removal substitutes for the phytohormone auxin-dependent initiation of the pericycle meristematic activity. However, auxin is indispensable to steer the cell division plane orientation of new organ-defining divisions. We propose a dual, spatiotemporally distinct role for auxin during lateral root initiation. In the endodermis, auxin releases constraints arising from cell-to-cell interactions that compromise the pericycle meristematic activity, whereas, in the pericycle, auxin defines the orientation of the cell division plane to initiate lateral roots.

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Anas Abuzeineh

Cytokinin Modulates Endocytic Trafficking of PIN1 Auxin Efflux Carrier to Control Plant Organogenesis

Inhibition of cell expansion by rapid ABP1-mediated auxin effect on microtubules

Targeted cell elimination reveals an auxin-guided biphasic mode of lateral root initiation

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