Molecular analysis of kinetochore-microtubule attachment in budding yeast

Cell

Volumn 106, Issue 2, 2001, Pages 195-206

  He, Xiangwei ^a   Rines, Daniel R ^a   Espelin, Christopher W ^a   Sorger, Peter K ^a  

^a MASSACHUSETTS INSTITUTE OF TECHNOLOGY   (United States)

Author keywords

[No Author keywords available]

Indexed keywords

BINDING PROTEIN; MICROTUBULE ASSOCIATED PROTEIN; MOLECULAR MOTOR; PROTEIN SUBUNIT;

ANIMAL CELL; ARTICLE; CENTROMERE; CHROMATIN; CHROMOSOME ABERRATION; CHROMOSOME ANALYSIS; CHROMOSOME MAP; CHROMOSOME SEGREGATION; DNA PROTEIN COMPLEX; IMMUNOPRECIPITATION; MICROTUBULE; MITOSIS; MUTATION; NONHUMAN; PRIORITY JOURNAL; PROTEIN LOCALIZATION; SACCHAROMYCES CEREVISIAE; YEAST;

ANIMALIA; SACCHAROMYCES CEREVISIAE; SACCHAROMYCETALES;

EID: 0035958556     PISSN: 00928674     EISSN: None     Source Type: Journal    
DOI: 10.1016/S0092-8674(01)00438-X     Document Type: Article

References (54)

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2. The conserved protein kinase Ipl1 regulates microtubule binding to kinetochores in budding yeast
3. It's a karo9chore to capture microtubules
4. CLIP170-like tip1p spatially organizes microtubular dynamics in fission yeast
5. Mitotic spindle integrity and kinetochore function linked by the Duo1p/Dam1p complex
6. Dynamic localization of CLIP-170 to microtubule plus ends is coupled to microtubule assembly
7. Identification of essential components of the S. cerevisiae kinetochore
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13. Motile properties of the kinesin-related Cin8p spindle motor extracted from Saccharomyces cerevisiae cells
14. NDC10: A gene involved in chromosome segregation in Saccharomyces cerevisiae
15. Establishing biorientation occurs with precocious separation of the sister kinetochores, but not the arms, in the early spindle of budding yeast
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23. The budding yeast proteins Spc24p and Spc25p interact with Ndc80p and Nuf2p at the kinetochore and are important for kinetochore clustering and checkpoint control
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44. Identification of cohesin association sites at centromeres and along chromosome arms
45. Cohesin ensures bipolar attachment of microtubules to sister centromeres and resists their precocious separation
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47. Control of microtubule dynamics by the antagonistic activities of XMAP215 and XKCM1 in Xenopus egg extracts
48. XMAP from Xenopus eggs promotes rapid plus end assembly of microtubules and rapid microtubule polymer turnover
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53. Hec1p, an evolutionarily conserved coiled-coil protein, modulates chromosome segregation through interaction with SMC proteins
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