Spindle Position Is Coordinated with Cell-Cycle Progression through Establishment of Mitotic Exit-Activating and -Inhibitory Zones

Author(s)

Chan, Leon Y.; Amon, Angelika B

Abstract

How spatial information is translated into a chemical signal is a fundamental problem in all organisms. The spindle position checkpoint is a prime example of this problem. This checkpoint senses spindle position and, in budding yeast, inhibits the mitotic exit network (MEN), a signaling pathway that promotes exit from mitosis. We find that spindle position is sensed by a system composed of MEN-inhibitory and -activating zones and a sensor that moves between them. The MEN inhibitory zone is located in the mother cell, the MEN-activating zone in the bud, and the spindle pole body (SPB), where the components of the MEN reside, functions as the sensor. Only when an SPB escapes the MEN inhibitor Kin4 in the mother cell and moves into the bud where the MEN activator Lte1 resides can exit from mitosis occur. In this manner, spatial information is sensed and translated into a chemical signal.

Date issued

2010-08

URI

http://hdl.handle.net/1721.1/82909

Department

Massachusetts Institute of Technology. Department of Biology
Koch Institute for Integrative Cancer Research at MIT

Journal

Molecular Cell

Publisher

Elsevier B.V.

Citation

Chan, Leon Y., and Angelika Amon. “Spindle Position Is Coordinated with Cell-Cycle Progression through Establishment of Mitotic Exit-Activating and -Inhibitory Zones.” Molecular Cell 39, no. 3 (August 2010): 444-454.

Version: Final published version

ISSN

10972765