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Transport Protein Particle II (TRAPPII) is essential for exocytosis, endocytosis, protein sorting and cytokinesis. In spite of a considerable understanding of its biological role, little information is known about Arabidopsis TRAPPII complex topology and molecular function. In this study, independent proteomic approaches initiated with TRAPP components or Rab-A GTPase variants converge on the TRAPPII complex. We show that the Arabidopsis genome encodes the full complement of 13 TRAPPC subunits, including four previously unidentified components. A dimerization model is proposed to account for binary interactions between TRAPPII subunits. Preferential binding to dominant negative (GDP-bound) versus wild-type or constitutively active (GTP-bound) RAB-A2a variants discriminates between TRAPPII and TRAPPIII subunits and shows that Arabidopsis complexes differ from yeast but resemble metazoan TRAPP complexes. Analyzes of Rab-A mutant variants in trappii backgrounds provide genetic evidence that TRAPPII functions upstream of RAB-A2a, allowing us to propose that TRAPPII is likely to behave as a guanine nucleotide exchange factor (GEF) for the RAB-A2a GTPase. GEFs catalyze exchange of GDP for GTP; the GTP-bound, activated, Rab then recruits a diverse local network of Rab effectors to specify membrane identity in subsequent vesicle fusion events. Understanding GEF-Rab interactions will be crucial to unravel the co-ordination of plant membrane traffic. © 2019 The Authors The Plant Journal © 2019 John Wiley & Sons Ltd.


Monika Kalde, Liam Elliott, Raksha Ravikumar, Katarzyna Rybak, Melina Altmann, Susan Klaeger, Christian Wiese, Miriam Abele, Benjamin Al, Nils Kalbfuß, Xingyun Qi, Alexander Steiner, Chen Meng, Huanquan Zheng, Bernhard Kuster, Pascal Falter-Braun, Christina Ludwig, Ian Moore, Farhah F Assaad. Interactions between Transport Protein Particle (TRAPP) complexes and Rab GTPases in Arabidopsis. The Plant journal : for cell and molecular biology. 2019 Oct;100(2):279-297

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PMID: 31264742

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