TY - JOUR
T1 - The role of the lissencephaly protein Pac1 during nuclear migration in budding yeast
AU - Lee, Wei Lih
AU - Oberle, Jessica R.
AU - Cooper, John A.
PY - 2003/2/3
Y1 - 2003/2/3
N2 - During mitosis in Saccharomyces cerevisiae, the mitotic spindle moves into the mother-bud neck via dyneindependent sliding of cytoplasmic microtubules along the cortex of the bud. Here we show that Pac1, the yeast homologue of the human lissencephaly protein LIS1, plays a key role in this process. First, genetic interactions placed Pac1 in the dynein/dynactin pathway. Second, cells lacking Pac1 failed to display microtubule sliding in the bud, resulting in defective mitotic spindle movement and nuclear segregation. Third, Pac1 localized to the plus ends (distal tips) of cytoplasmic microtubules in the bud. This localization did not depend on the dynein heavy chain Dyn1. Moreover, the Pac1 fluorescence intensity at the microtubule end was enhanced in cells lacking dynactin or the cortical attachment molecule Num1. Fourth, dynein heavy chain Dyn1 also localized to the tips of cytoplasmic microtubules in wild-type cells. Dynein localization required Pac1 and, like Pac1, was enhanced in cells lacking the dynactin component Arp1 or the cortical attachment molecule Num1. Our results suggest that Pac1 targets dynein to microtubule tips, which is necessary for sliding of microtubules along the bud cortex. Dynein must remain inactive until microtubule ends interact with the bud cortex, at which time dynein and Pac1 appear to be offloaded from the microtubule to the cortex.
AB - During mitosis in Saccharomyces cerevisiae, the mitotic spindle moves into the mother-bud neck via dyneindependent sliding of cytoplasmic microtubules along the cortex of the bud. Here we show that Pac1, the yeast homologue of the human lissencephaly protein LIS1, plays a key role in this process. First, genetic interactions placed Pac1 in the dynein/dynactin pathway. Second, cells lacking Pac1 failed to display microtubule sliding in the bud, resulting in defective mitotic spindle movement and nuclear segregation. Third, Pac1 localized to the plus ends (distal tips) of cytoplasmic microtubules in the bud. This localization did not depend on the dynein heavy chain Dyn1. Moreover, the Pac1 fluorescence intensity at the microtubule end was enhanced in cells lacking dynactin or the cortical attachment molecule Num1. Fourth, dynein heavy chain Dyn1 also localized to the tips of cytoplasmic microtubules in wild-type cells. Dynein localization required Pac1 and, like Pac1, was enhanced in cells lacking the dynactin component Arp1 or the cortical attachment molecule Num1. Our results suggest that Pac1 targets dynein to microtubule tips, which is necessary for sliding of microtubules along the bud cortex. Dynein must remain inactive until microtubule ends interact with the bud cortex, at which time dynein and Pac1 appear to be offloaded from the microtubule to the cortex.
KW - Dynein
KW - Microtubule
KW - Nuclear migration
KW - Num1
KW - Pac1
UR - http://www.scopus.com/inward/record.url?scp=0037415644&partnerID=8YFLogxK
U2 - 10.1083/jcb.200209022
DO - 10.1083/jcb.200209022
M3 - Article
C2 - 12566428
AN - SCOPUS:0037415644
SN - 0021-9525
VL - 160
SP - 355
EP - 364
JO - Journal of Cell Biology
JF - Journal of Cell Biology
IS - 3
ER -