Rapid translocation of NGR proteins driving polarization of PIN-activating D6 protein kinase during root gravitropism
Kulich I, Schmid J, Teplova A, Qi L, Friml J. 2024. Rapid translocation of NGR proteins driving polarization of PIN-activating D6 protein kinase during root gravitropism. eLife. 12, 91523.
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Abstract
Root gravitropic bending represents a fundamental aspect of terrestrial plant physiology. Gravity is perceived by sedimentation of starch-rich plastids (statoliths) to the bottom of the central root cap cells. Following gravity perception, intercellular auxin transport is redirected downwards leading to an asymmetric auxin accumulation at the lower root side causing inhibition of cell expansion, ultimately resulting in downwards bending. How gravity-induced statoliths repositioning is translated into asymmetric auxin distribution remains unclear despite PIN auxin efflux carriers and the Negative Gravitropic Response of roots (NGR) proteins polarize along statolith sedimentation, thus providing a plausible mechanism for auxin flow redirection. In this study, using a functional NGR1-GFP construct, we visualized the NGR1 localization on the statolith surface and plasma membrane (PM) domains in close proximity to the statoliths, correlating with their movements. We determined that NGR1 binding to these PM domains is indispensable for NGR1 functionality and relies on cysteine acylation and adjacent polybasic regions as well as on lipid and sterol PM composition. Detailed timing of the early events following graviperception suggested that both NGR1 repolarization and initial auxin asymmetry precede the visible PIN3 polarization. This discrepancy motivated us to unveil a rapid, NGR-dependent translocation of PIN-activating AGCVIII kinase D6PK towards lower PMs of gravity-perceiving cells, thus providing an attractive model for rapid redirection of auxin fluxes following gravistimulation.
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Date Published
2024-03-05
Journal Title
eLife
Publisher
eLife Sciences Publications
Acknowledgement
The research leading to these results has received funding from the European Research Council (ERC) under the European Union’s Horizon 2020 research and innovation programme grant agreement No 742985 and Austrian Science Fund (FWF): I3630-775 B25 to J.F. This research was also supported by the Lab Support Facility (LSF) and the Imaging and Optics Facility (IOF) of IST Austria, namely Tereza Bělinová for her help with the imaging. JS was supported by FemTECH fellowship.
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Volume
12
Article Number
91523
ISSN
IST-REx-ID
Cite this
Kulich I, Schmid J, Teplova A, Qi L, Friml J. Rapid translocation of NGR proteins driving polarization of PIN-activating D6 protein kinase during root gravitropism. eLife. 2024;12. doi:10.7554/elife.91523.3
Kulich, I., Schmid, J., Teplova, A., Qi, L., & Friml, J. (2024). Rapid translocation of NGR proteins driving polarization of PIN-activating D6 protein kinase during root gravitropism. ELife. eLife Sciences Publications. https://doi.org/10.7554/elife.91523.3
Kulich, Ivan, Julia Schmid, Anastasiia Teplova, Linlin Qi, and Jiří Friml. “Rapid Translocation of NGR Proteins Driving Polarization of PIN-Activating D6 Protein Kinase during Root Gravitropism.” ELife. eLife Sciences Publications, 2024. https://doi.org/10.7554/elife.91523.3.
I. Kulich, J. Schmid, A. Teplova, L. Qi, and J. Friml, “Rapid translocation of NGR proteins driving polarization of PIN-activating D6 protein kinase during root gravitropism,” eLife, vol. 12. eLife Sciences Publications, 2024.
Kulich I, Schmid J, Teplova A, Qi L, Friml J. 2024. Rapid translocation of NGR proteins driving polarization of PIN-activating D6 protein kinase during root gravitropism. eLife. 12, 91523.
Kulich, Ivan, et al. “Rapid Translocation of NGR Proteins Driving Polarization of PIN-Activating D6 Protein Kinase during Root Gravitropism.” ELife, vol. 12, 91523, eLife Sciences Publications, 2024, doi:10.7554/elife.91523.3.
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