KIP3/YGL216W Literature Guide 
Other names published for KIP3: tubulin-dependent ATPase KIP3, YGL216W
KIP3 LITERATURE TOPICS
- Curated Literature
- Genetics/Cell Biology
- Gene Product Information
- Related Genes/Proteins
- Research Aids
- Genome-wide Analysis
- Proteome-wide Analysis
- Additional Information
KIP3 - Function/Process (24)
| Reference | Other Genes Addressed |
|---|---|
| Ten Hoopen R, et al. (2012) Mechanism for astral microtubule capture by cortical Bud6p priming spindle polarity in S. cerevisiae. Curr Biol 22(12):1075-83 |
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| Woodruff JB, et al. (2012) Spindle assembly requires complete disassembly of spindle remnants from the previous cell cycle. Mol Biol Cell 23(2):258-67 |
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| Su X, et al. (2011) Mechanisms underlying the dual-mode regulation of microtubule dynamics by kip3/kinesin-8. Mol Cell 43(5):751-63 |
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| Shimogawa MM, et al. (2010) Laterally attached kinetochores recruit the checkpoint protein Bub1, but satisfy the spindle checkpoint. Cell Cycle 9(17):3619-28 |
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| Wargacki MM, et al. (2010) Kip3, the yeast kinesin-8, is required for clustering of kinetochores at metaphase. Cell Cycle 9(13):2581-8 |
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| Woodruff JB, et al. (2010) Mitotic spindle disassembly occurs via distinct subprocesses driven by the anaphase-promoting complex, Aurora B kinase, and kinesin-8. J Cell Biol 191(4):795-808 |
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| Cui H, et al. (2009) The selfish yeast plasmid uses the nuclear motor Kip1p but not Cin8p for its localization and equal segregation. J Cell Biol 185(2):251-64 |
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| Varga V, et al. (2009) Kinesin-8 motors act cooperatively to mediate length-dependent microtubule depolymerization. Cell 138(6):1174-83 |
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| Gardner MK, et al. (2008) Chromosome congression by Kinesin-5 motor-mediated disassembly of longer kinetochore microtubules. Cell 135(5):894-906 |
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| Clark SW and Rose MD (2006) Arp10p is a pointed-end-associated component of yeast dynactin. Mol Biol Cell 17(2):738-48 |
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| Gupta ML Jr, et al. (2006) Plus end-specific depolymerase activity of Kip3, a kinesin-8 protein, explains its role in positioning the yeast mitotic spindle. Nat Cell Biol 8(9):913-23 |
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| Varga V, et al. (2006) Yeast kinesin-8 depolymerizes microtubules in a length-dependent manner. Nat Cell Biol 8(9):957-62 |
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| Krishnan V, et al. (2004) DNA replication checkpoint prevents precocious chromosome segregation by regulating spindle behavior. Mol Cell 16(5):687-700 |
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| Maddox PS, et al. (2003) The minus end-directed motor Kar3 is required for coupling dynamic microtubule plus ends to the cortical shmoo tip in budding yeast. Curr Biol 13(16):1423-8 |
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| Schuyler SC and Pellman D (2001) Search, capture and signal: games microtubules and centrosomes play. J Cell Sci 114(Pt 2):247-55 |
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| Severin F, et al. (2001) Stu2 promotes mitotic spindle elongation in anaphase. J Cell Biol 153(2):435-42 |
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| Heil-Chapdelaine RA, et al. (2000) Dynein-dependent movements of the mitotic spindle in Saccharomyces cerevisiae Do not require filamentous actin. Mol Biol Cell 11(3):863-72 |
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| Yeh E, et al. (2000) Dynamic positioning of mitotic spindles in yeast: role of microtubule motors and cortical determinants. Mol Biol Cell 11(11):3949-61 |
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| Cottingham FR, et al. (1999) Novel roles for saccharomyces cerevisiae mitotic spindle motors. J Cell Biol 147(2):335-50 |
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| Lee L, et al. (1999) Control of mitotic spindle position by the Saccharomyces cerevisiae formin Bni1p. J Cell Biol 144(5):947-61 |
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| Miller RK, et al. (1998) The kinesin-related proteins, Kip2p and Kip3p, function differently in nuclear migration in yeast. Mol Biol Cell 9(8):2051-68 |
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| Straight AF, et al. (1998) Time-lapse microscopy reveals unique roles for kinesins during anaphase in budding yeast. J Cell Biol 143(3):687-94 |
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| Cottingham FR and Hoyt MA (1997) Mitotic spindle positioning in Saccharomyces cerevisiae is accomplished by antagonistically acting microtubule motor proteins. J Cell Biol 138(5):1041-53 |
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| DeZwaan TM, et al. (1997) Kinesin-related KIP3 of Saccharomyces cerevisiae is required for a distinct step in nuclear migration. J Cell Biol 138(5):1023-40 |
