The internal Cdc20 binding site in BubR1 facilitates both spindle assembly checkpoint signalling and silencing
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The internal Cdc20 binding site in BubR1 facilitates both spindle assembly checkpoint signalling and silencing. / Lischetti, Tiziana; Zhang, Gang; Sedgwick, Garry G; Bolanos-Garcia, Victor M; Nilsson, Jakob.
I: Nature Communications, Bind 5, 5563, 12.2014, s. 1-12.Publikation: Bidrag til tidsskrift › Tidsskriftartikel › Forskning › fagfællebedømt
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T1 - The internal Cdc20 binding site in BubR1 facilitates both spindle assembly checkpoint signalling and silencing
AU - Lischetti, Tiziana
AU - Zhang, Gang
AU - Sedgwick, Garry G
AU - Bolanos-Garcia, Victor M
AU - Nilsson, Jakob
PY - 2014/12
Y1 - 2014/12
N2 - Improperly attached kinetochores activate the spindle assembly checkpoint (SAC) and by an unknown mechanism catalyse the binding of two checkpoint proteins, Mad2 and BubR1, to Cdc20 forming the mitotic checkpoint complex (MCC). Here, to address the functional role of Cdc20 kinetochore localization in the SAC, we delineate the molecular details of its interaction with kinetochores. We find that BubR1 recruits the bulk of Cdc20 to kinetochores through its internal Cdc20 binding domain (IC20BD). We show that preventing Cdc20 kinetochore localization by removal of the IC20BD has a limited effect on the SAC because the IC20BD is also required for efficient SAC silencing. Indeed, the IC20BD can disrupt the MCC providing a mechanism for its role in SAC silencing. We thus uncover an unexpected dual function of the second Cdc20 binding site in BubR1 in promoting both efficient SAC signalling and SAC silencing.
AB - Improperly attached kinetochores activate the spindle assembly checkpoint (SAC) and by an unknown mechanism catalyse the binding of two checkpoint proteins, Mad2 and BubR1, to Cdc20 forming the mitotic checkpoint complex (MCC). Here, to address the functional role of Cdc20 kinetochore localization in the SAC, we delineate the molecular details of its interaction with kinetochores. We find that BubR1 recruits the bulk of Cdc20 to kinetochores through its internal Cdc20 binding domain (IC20BD). We show that preventing Cdc20 kinetochore localization by removal of the IC20BD has a limited effect on the SAC because the IC20BD is also required for efficient SAC silencing. Indeed, the IC20BD can disrupt the MCC providing a mechanism for its role in SAC silencing. We thus uncover an unexpected dual function of the second Cdc20 binding site in BubR1 in promoting both efficient SAC signalling and SAC silencing.
U2 - 10.1038/ncomms6563
DO - 10.1038/ncomms6563
M3 - Journal article
C2 - 25482201
VL - 5
SP - 1
EP - 12
JO - Nature Communications
JF - Nature Communications
SN - 2041-1723
M1 - 5563
ER -
ID: 128722841