Cell cycle-specific phase separation regulated by protein charge blockiness

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Last updated 24 dezembro 2024
Cell cycle-specific phase separation regulated by protein charge blockiness
Cell cycle-specific phase separation regulated by protein charge blockiness
PDF) Cell cycle-specific phase separation regulated by protein charge blockiness
Cell cycle-specific phase separation regulated by protein charge blockiness
Biomolecular Condensates: Sequence Determinants of Phase Separation, Microstructural Organization, Enzymatic Activity, and Material Properties
Cell cycle-specific phase separation regulated by protein charge blockiness
Temperature-Controlled Liquid–Liquid Phase Separation of Disordered Proteins
Cell cycle-specific phase separation regulated by protein charge blockiness
Cell cycle-specific phase separation regulated by protein charge blockiness. - Abstract - Europe PMC
Cell cycle-specific phase separation regulated by protein charge blockiness
A Lattice Model of Charge-Pattern-Dependent Polyampholyte Phase Separation
Cell cycle-specific phase separation regulated by protein charge blockiness
Cell cycle-specific phase separation regulated by protein charge blockiness
Cell cycle-specific phase separation regulated by protein charge blockiness
Quantitative proteomics indicate a strong correlation of mitotic phospho-/dephosphorylation with non-structured regions of substrates - ScienceDirect
Cell cycle-specific phase separation regulated by protein charge blockiness
A cyclin-dependent kinase-mediated phosphorylation switch of disordered protein condensation
Cell cycle-specific phase separation regulated by protein charge blockiness
Polyampholyte physics: Liquid–liquid phase separation and biological condensates - ScienceDirect
Cell cycle-specific phase separation regulated by protein charge blockiness
Localization of two perichromosomal proteins through the cell cycle.
Cell cycle-specific phase separation regulated by protein charge blockiness
Cell Cycle Profiling Reveals Protein Oscillation, Phosphorylation, and Localization Dynamics* - Molecular & Cellular Proteomics

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