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Phosphorylation of luminal region of the SUN-domain protein Mps3 promotes nuclear envelope localization during meiosis.

eLife (2021-09-30)
Hanumanthu Bd Prasada Rao, Takeshi Sato, Kiran Challa, Yurika Fujita, Miki Shinohara, Akira Shinohara
RESUMEN

During meiosis, protein ensembles in the nuclear envelope (NE) containing SUN- and KASH-domain proteins, called linker nucleocytoskeleton and cytoskeleton (LINC) complex, promote the chromosome motion. Yeast SUN-domain protein, Mps3, forms multiple meiosis-specific ensembles on NE, which show dynamic localisation for chromosome motion; however, the mechanism by which these Mps3 ensembles are formed during meiosis remains largely unknown. Here, we showed that the cyclin-dependent protein kinase (CDK) and Dbf4-dependent Cdc7 protein kinase (DDK) regulate meiosis-specific dynamics of Mps3 on NE, particularly by mediating the resolution of Mps3 clusters and telomere clustering. We also found that the luminal region of Mps3 juxtaposed to the inner nuclear membrane is required for meiosis-specific localisation of Mps3 on NE. Negative charges introduced by meiosis-specific phosphorylation in the luminal region of Mps3 alter its interaction with negatively charged lipids by electric repulsion in reconstituted liposomes. Phospho-mimetic substitution in the luminal region suppresses the localisation of Mps3 via the inactivation of CDK or DDK. Our study revealed multi-layered phosphorylation-dependent regulation of the localisation of Mps3 on NE for meiotic chromosome motion and NE remodelling.

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Latrunculin B, Latrunculia magnifica, Latrunculin B, CAS 76343-94-7, is a unique marine toxin that inhibits actin polymerization and disrupts microfilament organization. It is 10 to 100-fold more potent than cytochalasins.