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1. Microtubule-associated ROP interactors affect microtubule dynamics and modulate cell wall patterning and root hair growth.

2. Arabidopsis SYP121 acts as an ROP2 effector in the regulation of root hair tip growth.

3. A novel Ca2+-binding protein that can rapidly transduce auxin responses during root growth.

4. The Microtubule-Associated Protein MAP18 Affects ROP2 GTPase Activity during Root Hair Growth.

5. Exocyst SEC3 and Phosphoinositides Define Sites of Exocytosis in Pollen Tube Initiation and Growth.

6. Bimodal regulation of ICR1 levels generates self-organizing auxin distribution.

7. The Arabidopsis Rho of plants GTPase AtROP6 functions in developmental and pathogen response pathways.

8. Analysis of protein prenylation and S-acylation using gas chromatography-coupled mass spectrometry.

9. S-acylation-dependent association of the calcium sensor CBL2 with the vacuolar membrane is essential for proper abscisic acid responses.

10. Co-regulation of root hair tip growth by ROP GTPases and nitrogen source modulated pH fluctuations.

11. Differential effects of prenylation and s-acylation on type I and II ROPS membrane interaction and function.

12. Nitrogen source interacts with ROP signalling in root hair tip-growth.

13. An S-acylation switch of conserved G domain cysteines is required for polarity signaling by ROP GTPases.

14. A rho scaffold integrates the secretory system with feedback mechanisms in regulation of auxin distribution.

15. Genome-scale proteomics reveals Arabidopsis thaliana gene models and proteome dynamics.

16. Dual fatty acyl modification determines the localization and plasma membrane targeting of CBL/CIPK Ca2+ signaling complexes in Arabidopsis.

17. A Novel ROP/RAC effector links cell polarity, root-meristem maintenance, and vesicle trafficking.

18. Specification of Arabidopsis floral meristem identity by repression of flowering time genes.

19. Activation status-coupled transient S acylation determines membrane partitioning of a plant Rho-related GTPase.

20. Association of Arabidopsis type-II ROPs with the plasma membrane requires a conserved C-terminal sequence motif and a proximal polybasic domain.

21. Ectopic expression of an activated RAC in Arabidopsis disrupts membrane cycling.

22. A cell-specific, prenylation-independent mechanism regulates targeting of type II RACs.

23. The Arabidopsis AtSTE24 is a CAAX protease with broad substrate specificity.

24. Calmodulins and calcineurin B-like proteins: calcium sensors for specific signal response coupling in plants.

25. The Arabidopsis Rho of Plants GTPase AtROP6 Functions in Developmental and Pathogen Response Pathways1[C][W][OA]

26. Differential Effects of Prenylation and S-Acylation on Type I and II ROPS Membrane Interaction and Function1[W][OA]

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