Networked proteins redundantly interact with VAP27 and RABG3 to regulate membrane tethering at the vacuole and beyond

bioRxiv (Cold Spring Harbor Laboratory)(2024)

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Abstract
Biological processes in eukaryotes depend on the spatio-temporal compartmentalization of their cells. Integrity and positioning of organelles on the other hand rely on the organization of the actin cytoskeleton. Previously, it has been shown that changes of the plants largest organelle, the vacuole, depend on a functional actin organization. The connection between actin filaments and the vacuole is established by the family of Networked (NET) 4 proteins and, consequently, altering NET4 abundance impacts vacuolar morphology. However, the precise regulatory mechanism is unknown and gene deletions of NET4 did not result in a global growth phenotype. Here, we show that NET4 functions redundantly with NET3, interacting with RABG3-GTPases at the vacuole to allow for homotypic fusion or, alternatively, the generation of endoplasmic reticulum (ER) - vacuole contact sites. We found that ER-resident NET3 is able to interact with RABG3 residing at the tonoplast and that NET4 interacts with the contact site protein VAP27-1 at the ER. Generation of net3 net4 triple mutants by CRSIPR-guided mutagenesis helped us to overcome functional redundancy, resulting in impaired plant growth and development. Our results demonstrate how diversification of NET genes led to functional redundancy between different family members to create cellular plasticity of vascular plants. We hypothesize that establishment of a direct ER-vacuole connection enables direct lipid and protein transfer which is especially important in young and fast-growing cells. Availability of lipids would facilitate rapidly expanding vacuoles, which are the basis for high cell elongation rates and eventually fast plant growth. ### Competing Interest Statement The authors have declared no competing interest.
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Key words
networked proteins,membrane,vap27,rabg3
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