Curated Optogenetic Publication Database

Search precisely and efficiently by using the advantage of the hand-assigned publication tags that allow you to search for papers involving a specific trait, e.g. a particular optogenetic switch or a host organism.

Showing 1 - 2 of 2 results
1.

KIF2C-induced nuclear condensation concentrates PLK1 and phosphorylated BRCA2 at the kinetochore microtubules in mitosis.

blue CRY2olig HEK293 Organelle manipulation
bioRxiv, 14 Apr 2024 DOI: 10.1101/2024.04.13.589357 Link to full text
Abstract: During mitosis, the human microtubule depolymerase KIF2C increases the turnover of kinetochore-microtubule attachments. This facilitates the correction of attachment errors. Moreover, BRCA2 phosphorylated at Thr207 by PLK1 (BRCA2-pT207) assembles a complex including PLK1, PP2A and BUBR1 that contributes to the stability of the kinetochore-microtubule attachments. PLK1, together with Aurora B, critically regulate the accurate segregation of chromosomes. Here we demonstrate that KIF2C contains an N-terminal domain that binds directly to several phosphorylated peptides, including BRCA2-pT207. Using an optogenetic platform, we reveal that KIF2C assembles into membrane-less compartments or biomolecular condensates that are located next to microtubules. We provide evidence that condensate assembly depends on the presence of the newly defined N-terminal phospho-binding domain of KIF2C and on the kinase activities of Aurora B and PLK1. Moreover, KIF2C condensates concentrate active PLK1 and colocalize with BRCA2-pT207. We propose that, because of its phospho-dependent binding and oligomerization capacities, KIF2C forms biomolecular condensates that partition PLK1 and locally amplify its kinase activity during mitosis.
2.

Spatial organization and functions of Chk1 activation by TopBP1 biomolecular condensates.

blue CRY2/CRY2 HEK293T Organelle manipulation
Cell Rep, 4 Apr 2024 DOI: 10.1016/j.celrep.2024.114064 Link to full text
Abstract: Assembly of TopBP1 biomolecular condensates triggers activation of the ataxia telangiectasia-mutated and Rad3-related (ATR)/Chk1 signaling pathway, which coordinates cell responses to impaired DNA replication. Here, we used optogenetics and reverse genetics to investigate the role of sequence-specific motifs in the formation and functions of TopBP1 condensates. We propose that BACH1/FANCJ is involved in the partitioning of BRCA1 within TopBP1 compartments. We show that Chk1 is activated at the interface of TopBP1 condensates and provide evidence that these structures arise at sites of DNA damage and in primary human fibroblasts. Chk1 phosphorylation depends on the integrity of a conserved arginine motif within TopBP1's ATR activation domain (AAD). Its mutation uncouples Chk1 activation from TopBP1 condensation, revealing that optogenetically induced Chk1 phosphorylation triggers cell cycle checkpoints and slows down replication forks in the absence of DNA damage. Together with previous work, these data suggest that the intrinsically disordered AAD encodes distinct molecular steps in the ATR/Chk1 pathway.
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