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The material state of centrosomes: lattice, liquid, or gel?

Jeffrey B. Woodruff

2020Current Opinion in Structural Biology31 citationsDOIOpen Access PDF

Abstract

Centrosomes are micron-scale structures that nucleate microtubule arrays for chromosome segregation and mitotic spindle positioning. For these jobs, centrosomes must be dynamic enough to grow, yet stable enough to resist microtubule-mediated forces. How do centrosomes achieve such seemingly contradictory features? While much is understood about the molecular parts of centrosomes, very little is known about their functional material properties. Two prevalent hypotheses pose that the centrosome is either a liquid droplet or a solid lattice. However, many material states exist between a pure Newtonian liquid and a crystalline solid, and it is not clear where centrosomes lie along this spectrum. Furthermore, broad terms like "liquid" or "solid" do not reveal functional properties like strength, ductility, elasticity, and toughness, which are more relevant to understand how centrosomes resist forces. This review covers recent findings and new rheology techniques that reveal the material characteristics of centrosomes and how they are regulated.

Topics & Concepts

CentrosomeMicrotubuleNucleationMaterials scienceMitosisBiophysicsNanotechnologyBiologyChemical physicsChemistryCell biologyGeneticsCellOrganic chemistryCell cycleMicrotubule and mitosis dynamicsCellular Mechanics and InteractionsAdvanced Materials and Mechanics
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