Molecular determinants of phase separation for Drosophila DNA replication licensing factors

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 separation in vitro and chromosome binding in vivo , and that initiator condensates selectively recruit specific partner proteins. How initiator IDRs facilitate LLPS and maintain compositional specificity is unknown. Using D. 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 specificity a priori .