From biomolecular condensates to functional nanomaterials: LLPS-inspired frameworks for nanoscale hydrogels and adaptive materials. [PDF]
J NanobiotechnologyDang M +5 more
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The rheology and interfacial properties of biomolecular condensates. [PDF]
Biophys RevWang H, Shi Z.
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POMPOMS: Crosslinked Biomolecular Condensates as a Versatile Platform for Multifunctional Protein Microparticles. [PDF]
BiomacromoleculesPark AS, Ding EA, Schuster BS.
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Insect I-Type Lysozymes Function as Antiviral Proteases by Forming Biomolecular Condensates. [PDF]
Adv Sci (Weinh)Du Y, Xiao Y, Hu M, Yang J, Li Y, Wei T.
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Modeling biomolecular condensates across scales: Atomistic, coarse-grained, and data-driven approaches. [PDF]
Adv Phys XMaristany MJ +5 more
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Jub-induced phosphorylation of Warts inhibits its activity and recruitment into biomolecular condensates. [PDF]
Cell RepKirichenko E +5 more
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Current practices in the study of biomolecular condensates: a community comment. [PDF]
Nat CommunAlberti S +33 more
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Crossover in aromatic amino acid interaction strength between tyrosine and phenylalanine in biomolecular condensates. [PDF]
ElifeDe Sancho D, Lopez X.
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Multiphasic Organization and Differential Dynamics of Proteins within Protein-DNA Biomolecular Condensates. [PDF]
J Phys Chem BTangade AS +4 more
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Biomolecular condensates as cellular memory modules: Thermodynamic principles and plant stress adaptation. [PDF]
Biophys JMaity S, Moschou PN.
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