KAR9/YPL269W Literature Guide 
Other names published for KAR9: YPL269W
KAR9 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Cell Cycle Phase Involved
- Cellular Location
- Function/Process
- Genetic Interactions
- Mutants/Phenotypes
- Regulation of
- Regulatory Role
- Nucleic Acid Information
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Other Topics
- Additional Information
KAR9 - Genetic Interactions (36)
| Reference | Other Genes Addressed |
|---|---|
| Hayakawa A, et al. (2012) Ubiquitylation of the nuclear pore complex controls nuclear migration during mitosis in S. cerevisiae. J Cell Biol 196(1):19-27 |
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| Hotz M, et al. (2012) Spindle pole bodies exploit the mitotic exit network in metaphase to drive their age-dependent segregation. Cell 148(5):958-72 |
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| Hotz M, et al. (2012) The MEN mediates the effects of the spindle assembly checkpoint on Kar9-dependent spindle pole body inheritance in budding yeast. Cell Cycle 11(16):3109-16 |
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| Tang X, et al. (2012) A novel patch assembly domain in Num1 mediates dynein anchoring at the cortex during spindle positioning. J Cell Biol 196(6):743-56 |
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| Caudron F, et al. (2010) Mutation of Ser172 in Yeast beta Tubulin Induces Defects in Microtubule Dynamics and Cell Division. PLoS One 5(10):e13553 |
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| Caydasi AK, et al. (2010) Elm1 kinase activates the spindle position checkpoint kinase Kin4. J Cell Biol 190(6):975-89 |
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| Chan LY and Amon A (2010) Spindle Position Is Coordinated with Cell-Cycle Progression through Establishment of Mitotic Exit-Activating and -Inhibitory Zones. Mol Cell 39(3):444-454 |
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| Konig C, et al. (2010) Mutual regulation of cyclin-dependent kinase and the mitotic exit network. J Cell Biol 188(3):351-68 |
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| Hoffman-Sommer M, et al. (2009) Mutations in the Saccharomyces cerevisiae vacuolar fusion proteins Ccz1, Mon1 and Ypt7 cause defects in cell cycle progression in a num1Delta background. Eur J Cell Biol 88(11):639-52 |
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| Markus SM, et al. (2009) Motor- and tail-dependent targeting of dynein to microtubule plus ends and the cell cortex. Curr Biol 19(3):196-205 |
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| Moore JK, et al. (2009) Neurodegeneration mutations in dynactin impair dynein-dependent nuclear migration. Proc Natl Acad Sci U S A 106(13):5147-52 |
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| Woodruff JB, et al. (2009) Dynein-driven mitotic spindle positioning restricted to anaphase by She1p inhibition of dynactin recruitment. Mol Biol Cell 20(13):3003-11 |
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| Amaro IA, et al. (2008) The Saccharomyces cerevisiae Homolog of p24 Is Essential for Maintaining the Association of p150Glued With the Dynactin Complex. Genetics 178(2):703-9 |
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| Delgehyr N, et al. (2008) Dissecting the involvement of formins in Bud6p-mediated cortical capture of microtubules in S. cerevisiae. J Cell Sci 121(Pt 22):3803-14 |
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| Meednu N, et al. (2008) The Spindle Positioning Protein Kar9p Interacts With the Sumoylation Machinery in Saccharomyces cerevisiae. Genetics 180(4):2033-55 |
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| Moore JK, et al. (2008) Dynactin function in mitotic spindle positioning. Traffic 9(4):510-27 |
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| Maekawa H, et al. (2007) The yeast centrosome translates the positional information of the anaphase spindle into a cell cycle signal. J Cell Biol 179(3):423-36 |
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| Moore JK and Miller RK (2007) The Cyclin-dependent Kinase Cdc28p Regulates Multiple Aspects of Kar9p Function in Yeast. Mol Biol Cell 18(4):1187-202 |
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| Moore JK, et al. (2006) The CLIP-170 homologue Bik1p promotes the phosphorylation and asymmetric localization of Kar9p. Mol Biol Cell 17(1):178-91 |
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| Li J, et al. (2005) NudEL targets dynein to microtubule ends through LIS1. Nat Cell Biol 7(7):686-90 |
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| Pereira G and Schiebel E (2005) Kin4 kinase delays mitotic exit in response to spindle alignment defects. Mol Cell 19(2):209-21 |
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| Huisman SM, et al. (2004) Differential contribution of Bud6p and Kar9p to microtubule capture and spindle orientation in S. cerevisiae. J Cell Biol 167(2):231-44 |
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| Maekawa H and Schiebel E (2004) Cdk1-Clb4 controls the interaction of astral microtubule plus ends with subdomains of the daughter cell cortex. Genes Dev 18(14):1709-24 |
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| Tong AH, et al. (2004) Global mapping of the yeast genetic interaction network. Science 303(5659):808-13 |
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| Hwang E, et al. (2003) Spindle orientation in Saccharomyces cerevisiae depends on the transport of microtubule ends along polarized actin cables. J Cell Biol 161(3):483-8 |
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| Tong AH, et al. (2001) Systematic genetic analysis with ordered arrays of yeast deletion mutants. Science 294(5550):2364-8 |
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| Daum JR, et al. (2000) The spindle checkpoint of Saccharomyces cerevisiae responds to separable microtubule-dependent events. Curr Biol 10(21):1375-8 |
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| Hoepfner D, et al. (2000) Time-lapse video microscopy analysis reveals astral microtubule detachment in the yeast spindle pole mutant cnm67. Mol Biol Cell 11(4):1197-211 |
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| Korinek WS, et al. (2000) Molecular linkage underlying microtubule orientation toward cortical sites in yeast. Science 287(5461):2257-9 |
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| Lee L, et al. (2000) Positioning of the mitotic spindle by a cortical-microtubule capture mechanism. Science 287(5461):2260-2 |
