Thermodynamically driven assemblies and liquid–liquid phase separations in biology
Falahati H, Haji-Akbari A. Thermodynamically driven assemblies and liquid–liquid phase separations in biology. Soft Matter 2019, 15: 1135-1154. PMID: 30672955, DOI: 10.1039/c8sm02285b.Peer-Reviewed Original ResearchConceptsPhase separationBiological self-assembly processesSelf-assembly processLiquid-liquid phase separationUnderlying physical principlesDriven AssemblyIntermolecular interactionsPhysical originBiomolecular complexesMembraneless organellesMolecular simulationsPhysicsPhysical principlesStatistical physicsSeparationThermodynamic variablesExperimental verificationAssembly processSustenance of lifeThermodynamicsBiological implicationsAssemblyComputational techniquesSubcellular structuresEnergyIndependent active and thermodynamic processes govern the nucleolus assembly in vivo
Falahati H, Wieschaus E. Independent active and thermodynamic processes govern the nucleolus assembly in vivo. Proceedings Of The National Academy Of Sciences Of The United States Of America 2017, 114: 1335-1340. PMID: 28115706, PMCID: PMC5307486, DOI: 10.1073/pnas.1615395114.Peer-Reviewed Original Research