Tie-lines reveal interactions driving heteromolecular condensate

Phase separation of protein mixtures is driven by the interplay of homotypic and heterotypic interactions

Molecular and environmental determinants of biomolecular condensate formation

High-throughput and proteome-wide discovery of endogenous biomolecular condensates

PDF] Liquid–Liquid Phase Separation in Crowded Environments

Targeting nucleic acid phase transitions as a mechanism of action for antimicrobial peptides

Phase separation of protein mixtures is driven by the interplay of homotypic and heterotypic interactions

Phase separation of protein mixtures is driven by the interplay of homotypic and heterotypic interactions

a) Salt resistance c S 0 for f C = 0.5 with varying length neutral

Tuomas KNOWLES, University of Cambridge, Cambridge, Cam, Department of Chemistry

PDF) Protein-specific crowding accelerates aging in phase-separated droplets

PDF) Crowding-induced phase separation and gelling by co-condensation of PEG in NPM1-rRNA condensates

G3BP1 depletion decreases cell proliferation. Breast cancer cell lines

PDF) Biomolecular condensate phase diagrams with a combinatorial microdroplet platform

Phase-separating pyrenoid proteins form complexes in the dilute phase

Molecular and environmental determinants of biomolecular condensate formation