4.7 Article

Crowder and surface effects on self-organization of microtubules

期刊

PHYSICAL REVIEW E
卷 103, 期 6, 页码 -

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AMER PHYSICAL SOC
DOI: 10.1103/PhysRevE.103.062408

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资金

  1. NSF [BIO-1817926]
  2. Keck Foundation

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By altering the properties of crowders, such as type, size, and molecular weight, researchers found that it affects the organization of microtubules. Comparing simulations with experiments, a scaling law associated with fanlike patterns in the absence of crosslinkers was observed. Tactoids formed in the presence of crosslinkers show variable length, depending on the crowders.
Microtubules are an essential physical building block of cellular systems. They are organized using specific crosslinkers, motors, and influencers of nucleation and growth. With the addition of antiparallel crosslinkers, microtubule self-organization patterns go through a transition from fanlike structures to homogeneous tactoid condensates in vitro. Tactoids are reminiscent of biological mitotic spindles, the cell division machinery. To create these organizations, we previously used polymer crowding agents. Here we study how altering the properties of the crowders, such as type, size, and molecular weight, affects microtubule organization. Comparing simulations with experiments, we observe a scaling law associated with the fanlike patterns in the absence of crosslinkers. Tactoids formed in the presence of crosslinkers show variable length, depending on the crowders. We correlate the subtle differences to filament contour length changes, affected by nucleation and growth rate changes induced by the polymers in solution. Using quantitative image analysis, we deduce that the tactoids differ from traditional liquid crystal organization, as they are limited in width irrespective of crowders and surfaces, and behave as solidlike condensates.

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