Molecular determinants of phase separation forDrosophilaDNA replication licensing factors

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Abstract

Liquid-liquid phase separation (LLPS) of intrinsically disordered regions (IDRs) in proteins can drive the formation of membraneless compartments in cells. Phase-separated structures enrich for specific partner proteins and exclude others. We have shown that the IDRs of metazoan DNA replication initiators drive DNA-dependent phase separationin vitroand chromosome bindingin vivo, and that initiator condensates selectively recruit specific partner proteins. How initiator IDRs facilitate LLPS and maintain compositional specificity is unknown. UsingD. melanogaster (Dm)Cdt1 as a model initiation factor, we show that phase separation results from a synergy between electrostatic DNA-bridging interactions and hydrophobic inter-IDR contacts. Both sets of interactions depend on sequence composition (but not sequence order), are resistant to 1,6- hexanediol, and do not depend on aromaticity. These findings demonstrate that distinct sets of interactions drive self-assembly and condensate specificity across different phase-separating systems and advance efforts to predict IDR LLPS propensity and specificitya priori.

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