Tie-lines reveal interactions driving heteromolecular condensate
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Phase separation of protein mixtures is driven by the interplay of homotypic and heterotypic interactions
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Molecular and environmental determinants of biomolecular condensate formation
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High-throughput and proteome-wide discovery of endogenous biomolecular condensates
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PDF] Liquid–Liquid Phase Separation in Crowded Environments
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Targeting nucleic acid phase transitions as a mechanism of action for antimicrobial peptides
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Phase separation of protein mixtures is driven by the interplay of homotypic and heterotypic interactions
![](https://media.springernature.com/lw1200/springer-static/image/art%3A10.1038%2Fs41467-023-41274-x/MediaObjects/41467_2023_41274_Fig8_HTML.png)
Phase separation of protein mixtures is driven by the interplay of homotypic and heterotypic interactions
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a) Salt resistance c S 0 for f C = 0.5 with varying length neutral
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Tuomas KNOWLES, University of Cambridge, Cambridge, Cam, Department of Chemistry
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PDF) Protein-specific crowding accelerates aging in phase-separated droplets
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PDF) Crowding-induced phase separation and gelling by co-condensation of PEG in NPM1-rRNA condensates
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G3BP1 depletion decreases cell proliferation. Breast cancer cell lines
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PDF) Biomolecular condensate phase diagrams with a combinatorial microdroplet platform
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Phase-separating pyrenoid proteins form complexes in the dilute phase
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Molecular and environmental determinants of biomolecular condensate formation