Evan Spruijt

Affiliations: 
Radboud University Nijmegen, Institute for Molecules and Materials 
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"Evan Spruijt"
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André AAM, Yewdall NA, Spruijt E. (2022) Crowding-induced phase separation and gelling by co-condensation of PEG in NPM1-rRNA condensates. Biophysical Journal
Lipiński WP, Visser BS, Robu I, et al. (2022) Biomolecular condensates can both accelerate and suppress aggregation of α-synuclein. Science Advances. 8: eabq6495
Slootbeek AD, van Haren MHI, Smokers IBA, et al. (2022) Growth, replication and division enable evolution of coacervate protocells. Chemical Communications (Cambridge, England)
Yewdall NA, André AAM, van Haren MHI, et al. (2022) ATP:Mg shapes material properties of protein-RNA condensates and their partitioning of clients. Biophysical Journal
Lu T, Liese S, Schoenmakers L, et al. (2022) Endocytosis of Coacervates into Liposomes. Journal of the American Chemical Society. 144: 13451-13455
Abbas M, Law JO, Grellscheid SN, et al. (2022) Peptide-based Coacervate-Core Vesicles with Semipermeable Membranes. Advanced Materials (Deerfield Beach, Fla.). e2202913
Abbas M, Lipiński WP, Nakashima KK, et al. (2021) A short peptide synthon for liquid-liquid phase separation. Nature Chemistry
Nakashima KK, van Haren MHI, André AAM, et al. (2021) Active coacervate droplets are protocells that grow and resist Ostwald ripening. Nature Communications. 12: 3819
Lu T, Nakashima KK, Spruijt E. (2021) Temperature-Responsive Peptide-Nucleotide Coacervates. The Journal of Physical Chemistry. B
Abbas M, Lipiński WP, Wang J, et al. (2021) Peptide-based coacervates as biomimetic protocells. Chemical Society Reviews
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