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Role of Two Novel Pollen Tube Proteins in Polarized Rho GTPase Signalling

Reference	BB/G004927/1
Principal Investigator / Supervisor	Dr Benedikt Kost
Co-Investigators / Co-Supervisors	Professor Eric Holub
Institution	University of Warwick
Department	Warwick HRI
Funding type	Research
Value (£)	433,236
Status	Completed
Type	Research Grant
Start date	20/10/2008
End date	19/10/2011
Duration	36 months

Abstract

To enhance our understanding of the spatial control of Rho GTPase activity and cellular polarization in eukaryotes, as well as of Rho dependent signalling in plants, we propose to functionally characterize two novel tobacco pollen tube proteins: Nt-Rak1 and Nt-PubPT. This project aims to build on preliminary data and to establish that the protein kinase Nt-Rak1 acts as an effector of the tobacco pollen tube Rho GTPase Nt-Rac5, controls the E3 ubiquitin ligase Nt-PubPT, and feed-back regulates Rho GTPase activity. We propose to test biochemically whether Nt-Rak1, which specifically interacts with activated Nt-Rac5 in yeast two hybrid assays and in vitro, feedback regulates Nt-Rac5 by phosphorylating either directly this protein, or regulatory factors that control Nt-Rac5 activity. Biochemical experiments will also be performed to demonstrate that Nt-PubPT, which interacts with Nt-Rak1 in yeast two-hybrid assays, binds to this protein in vitro, and is a target of its kinase activity. To establish Nt-Rak1 and Nt-PubPT functions in Nt-Rac5 signalling in vivo, we plan to employ cell biological approaches. Based on fluorescent protein tagging and confocal imaging, we will determine the localization of Nt-Rak1 and Nt-PubPT in pollen tubes during normal growth and after the inactivation of Nt-Rac5 signalling. Colocalization of these proteins with each other and with Nt-Rac5 will also be studied. A quantitative comparison of effects of transient overexpression of Nt-Rac5, Nt-Rak1 or Nt-PubPT in tobacco pollen tubes, either alone or in combination with other factors involved in Rho signalling, will complement these experiments. We expect strong support for the results of the experiments described above to result from analysing effects of RNAi mediated knock-down of Nt-Rak1 and Nt-PubPT expression in tobacco pollen tubes. The investigation of effects of overexpessing Nt-Rak1 or Nt-PubPT in Nt-Rac5 or Nt-Rak1 RNAi pollen tubes will also be highly informative.

Summary

Polarization, a process that allows cells to organize structurally and functionally distinct poles, is essential not only for the normal behaviour and replication of single cells, but also for the development of multicellular organisms. The accumulation of active Rho GTPases at specific domains of the plasma membrane surrounding cells plays a key role in polarization. Rho GTPases are proteins that can regulate a variety of cellular process by controlling the activity of other proteins with which they directly interact (effectors). The molecular mechanisms that control the local accumulation of active Rho GTPases at specific membrane domains are not well understood, and how these proteins regulate cellular processes has only been clarified to a limited extent. Tobacco pollen tubes are an exceptionally useful experimental model system to investigate polarization. A Rho GTPase called Nt-Rac5 specifically accumulates at the membrane at one end of these highly elongated cells, where it controls cell expansion that occurs at this location. We have identified two novel tobacco pollen tube proteins, whose activities appear to depend on stimulation by Nt-Rac5, as suggested by the results of preliminary experiments. These experiments have shown that Nt-Rak1 directly binds to active Nt-Rac5, and is therefore likely to act as an effector of this protein. Nt-Rak1 has the ability to regulate the activity of other proteins by transferring phosphate groups to them, a process called phosphorylation. Interestingly, we have found that Nt-Rak1 not only interacts with Nt-PubPT, a putative target protein we have identified, but also phosphorylates Nt-Rac5. This suggests that Nt-Rak1 acts as a Nt-Rac5 effector, which regulates the function of Nt-PubPT, and at the same time modulates the activity of Nt-Rac5. The modulation of the activity of a protein by its own effector is called feedback regulation, a process that is often involved in polarization. With this proposal, we ask forfunding to further investigate and establish the functions of Nt-Rak1 and Nt-PubPT in the regulation of the activity of Nt-Rac5 at the expanding end of tobacco pollen tubes, and in the control of cellular processes by this protein. We believe that this work will enhance out understanding of the molecular mechanisms underlying polarization, a process with essential functions in single cells and multicellular organisms.

Committee	Closed Committee - Biochemistry & Cell Biology (BCB)
Research Topics	Plant Science
Research Priority	X – Research Priority information not available
Research Initiative	X - not in an Initiative
Funding Scheme	X – not Funded via a specific Funding Scheme

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