Bub1 Is a Fission Yeast Kinetochore Scaffold Protein, and Is Sufficient to Recruit other Spindle Checkpoint Proteins to Ectopic Sites on Chromosomes

A Musacchio; AA Kitazono; BJ Howell; BJ Howell; C Acquaviva; CL Rieder; Daniel Lew; DN Millband; EM King; G Fang; GJ Kops; H Yu; HA Snaith; J Bahler; JB Keeney; JN Molk; JV Shah; K Nasmyth; K Nasmyth; Karen M. May; Kevin G. Hardwick; KG Hardwick; KG Hardwick; LH Hwang; M Vink; MH Jones; MJ Kallio; NC Shaner; Patricia E. Rischitor; S Kadura; S Yamaguchi; SH Kim; SS Taylor; T Hassold; V Sudakin; V Vanoosthuyse; X Liu; Y Chikashige; Y Hiraoka; Y Zhao; Z Tang; Z Tang

Bub1 Is a Fission Yeast Kinetochore Scaffold Protein, and Is Sufficient to Recruit other Spindle Checkpoint Proteins to Ectopic Sites on Chromosomes

Authors: A Musacchio
AA Kitazono
BJ Howell
BJ Howell
C Acquaviva
CL Rieder
Daniel Lew
DN Millband
EM King
G Fang
GJ Kops
H Yu
HA Snaith
J Bahler
JB Keeney
JN Molk
JV Shah
K Nasmyth
K Nasmyth
Karen M. May
Kevin G. Hardwick
KG Hardwick
KG Hardwick
LH Hwang
M Vink
MH Jones
MJ Kallio
NC Shaner
Patricia E. Rischitor
S Kadura
S Yamaguchi
SH Kim
SS Taylor
T Hassold
V Sudakin
V Vanoosthuyse
X Liu
Y Chikashige
Y Hiraoka
Y Zhao
Z Tang
Z Tang
Publication date: 1 January 2007
Publisher: Public Library of Science
Doi

Abstract

The spindle checkpoint delays anaphase onset until all chromosomes have attached in a bi-polar manner to the mitotic spindle. Mad and Bub proteins are recruited to unattached kinetochores, and generate diffusible anaphase inhibitors. Checkpoint models propose that Mad1 and Bub1 act as stable kinetochore-bound scaffolds, to enhance recruitment of Mad2 and Mad3/BubR1, but this remains untested for Bub1. Here, fission yeast FRAP experiments confirm that Bub1 stably binds kinetochores, and by tethering Bub1 to telomeres we demonstrate that it is sufficient to recruit anaphase inhibitors in a kinase-independent manner. We propose that the major checkpoint role for Bub1 is as a signalling scaffold