Active forces shape the metaphase spindle through a mechanical

被引:22
|
作者
Oriola, David [1 ,2 ,3 ,4 ,5 ]
Juelicher, Frank [2 ,3 ,4 ]
Brugues, Jan [1 ,2 ,3 ,4 ]
机构
[1] Max Planck Inst Mol Cell Biol & Genet, D-01307 Dresden, Germany
[2] Ctr Syst Biol Dresden, D-01307 Dresden, Germany
[3] Max Planck Inst Phys Komplexer Syst, D-01187 Dresden, Germany
[4] Tech Univ Dresden, Cluster Excellence Phys Life, D-01307 Dresden, Germany
[5] European Mol Biol Labs EMBL, Barcelona 08003, Spain
来源
PROCEEDINGS OF THE NATIONAL ACADEMY OF SCIENCES OF THE UNITED STATES OF AMERICA | 2020年 / 117卷 / 28期
关键词
mitotic spindle; Xenopus laevis; dynein; liquid crystals; active matter; DYNEIN-DYNACTIN; MICROTUBULE FLUX; KINESIN EG5; IN-VITRO; LENGTH; ORGANIZATION; INHIBITOR; TRANSPORT; DYNAMICS; MOTORS;
D O I
10.1073/pnas.2002446117
中图分类号
O [数理科学和化学]; P [天文学、地球科学]; Q [生物科学]; N [自然科学总论];
学科分类号
07 ; 0710 ; 09 ;
摘要
The metaphase spindle is a dynamic structure orchestrating chro-mosome segregation during cell division. Recently, soft matter approaches have shown that the spindle behaves as an active liq-uid crystal. Still, it remains unclear how active force generation contributes to its characteristic spindle-like shape. Here we com-bine theory and experiments to show that molecular motor-driven forces shape the structure through a barreling-type instability. We test our physical model by titrating dynein activity in Xenopus egg extract spindles and quantifying the shape and microtubule ori-entation. We conclude that spindles are shaped by the interplay between surface tension, nematic elasticity, and motor-driven active forces. Our study reveals how motor proteins can mold liquid crystalline droplets and has implications for the design of active soft materials.
引用
收藏
页码:16154 / 16159
页数:6
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