… We thank the members of the Tolić and Pavin groups and other collaborators for their
contributions to the work discussed in this review; Juraj Simunić and Lejla Ferhatović Hamzić for …

… 2016a; Pavin and Tolic-Norrelykke 2014), may help the microtubules extending from the
two poles to find each other much faster than in the case without rotation (Fig. 6b). A recent …

… This movement together with a constant spindle length during metaphase implies that the
kinetochore microtubules simultaneously polymerize at the kinetochore and depolymerize at …

A mathematical model of the insulin–glucose feedback regulation in man is used to examine
the effects of an oscillatory supply of insulin compared to a constant supply at the same …

… We thank members of the Kops, Lens and Tolić laboratories for discussions and comments
on the manuscript. Figure 3d and Extended Data Figs. 6f and 9 were created with Biorender.…

During metaphase, forces on kinetochores are exerted by k-fibres, bundles of microtubules
that end at the kinetochore. Interestingly, non-kinetochore microtubules have been observed …

During cell division, mitotic spindle microtubules segregate chromosomes by exerting
forces on kinetochores. What forces drive chromosome segregation in anaphase remains a …

In the mitotic spindle, kinetochore microtubules form k‐fibers, whereas overlap or interpolar
microtubules form antiparallel arrays containing the cross‐linker protein regulator of …

Proper chromosome segregation into two future daughter cells requires the mitotic spindle
to elongate in anaphase. However, although some candidate proteins are implicated in this …

During metaphase, chromosome position at the spindle equator is regulated by the forces
exerted by kinetochore microtubules and polar ejection forces. However, the role of forces …