Phase separation on microtubules: from droplet formation to cellular function?: Trends in Cell Biology

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Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
A working model elucidating that NuMA phase separation regulates
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Biomolecules, Free Full-Text
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Phase separation on microtubules: from droplet formation to cellular function?: Trends in Cell Biology
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Coming into Focus: Mechanisms of Microtubule Minus-End Organization: Trends in Cell Biology
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Biomolecules, Free Full-Text
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Protein Phase Separation
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Protein phase separation and its role in tumorigenesis
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Small molecules as potent biphasic modulators of protein liquid-liquid phase separation
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Journal of Cellular Physiology, Cell Biology Journal
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Phase separation of EB1 guides microtubule plus-end dynamics
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Self-construction of actin networks through phase separation–induced abLIM1 condensates
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Phase-separated biomolecular condensates for biocatalysis: Trends in Biotechnology
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Phase separation of +TIP networks regulates microtubule dynamics
Phase separation on microtubules: from droplet formation to cellular  function?: Trends in Cell Biology
Liquid–Liquid Phase Separation and Its Mechanistic Role in Pathological Protein Aggregation - ScienceDirect
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