1. Evolutionary conserved protein motifs drive attachment of the plant nucleoskeleton at nuclear pores
- Author
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Tristan Dubos, Pierre Tufféry, Mermet S, Kentaro Tamura, Christophe Tatout, Mordier J, Aline V. Probst, Célia Baroux, Emmanuel Vanrobays, Maxime Voisin, and Sylvie Tutois
- Subjects
Nuclear morphology ,biology ,Functional analysis ,Arabidopsis ,Gene expression ,Neofunctionalization ,Nucleoporin ,Nuclear pore ,biology.organism_classification ,Structural motif ,Cell biology - Abstract
The nucleoskeleton forms a filamentous meshwork under the nuclear envelope and contributes to the regulation of nuclear morphology and gene expression. To understand how the Arabidopsis nucleoskeleton physically connects to the nuclear periphery, we investigated the nucleoskeleton protein KAKU4 and sought for functional regions responsible for its localization at the nuclear periphery. Computational predictions identified three evolutionary conserved peptide motifs within the N-terminal region of KAKU4. Functional analysis revealed that these motifs are required for homomerization of KAKU4, interaction with the nucleoskeleton proteins CROWDED NUCLEI (CRWN) and localization at the nuclear periphery. We find that similar protein motifs are present in NUP82 and NUP136, two plant specific nucleoporins from the Nuclear Pore Complex (NPC) basket. These conserved motifs allow the two nucleoporins to bind CRWN proteins, thus revealing a physical link between the nucleoskeleton and nuclear pores in plants. Finally, whilst NUP82, NUP136 and KAKU4 have a common evolutionary history predating non-vascular land plants, KAKU4 mainly localizes outside the NPC suggesting neofunctionalization of an ancient nucleoporin into a new nucleoskeleton component.
- Published
- 2021
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