Intrinsically disordered linkers determine the interplay between phase separation and gelation in multivalent proteins
Washington University in St. Louis · Howard Hughes Medical Institute · +1 more institution
Abstract
Phase transitions of linear multivalent proteins control the reversible formation of many intracellular membraneless bodies. Specific non-covalent crosslinks involving domains/motifs lead to system-spanning networks referred to as gels. Gelation transitions can occur with or without phase separation. In gelation driven by phase separation multivalent proteins and their ligands condense into dense droplets, and gels form within droplets. System spanning networks can also form without a condensation or demixing of proteins into droplets. Gelation driven by phase separation requires lower protein concentrations, and seems to be the biologically preferred mechanism for forming membraneless bodies. Here, we use…
Citation impact
- FWCI
- 22.76
- Percentile
- 100%
- References
- 79
Authors
4Topics & keywords
- Intrinsically disordered proteins
- Phase (matter)
- Chemical physics
- Chemistry
- Polymer
- Covalent bond
- Phase transition
- Biophysics