Joseph S Carrier scite author profile

Joseph S Carrier

5Publications

57Citation Statements Received

202Citation Statements Given

How they've been cited

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163

196

Affiliations

University of Utah, University of Rochester

Publications

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Structural basis of Stu2 recruitment to yeast kinetochores

Zahm

Stewart

Carrier

et al. 2021

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Chromosome segregation during cell division requires engagement of kinetochores of sister chromatids with microtubules emanating from opposite poles. As the corresponding microtubules shorten, these 'bioriented' sister kinetochores experience tension-dependent stabilization of microtubule attachments. The yeast XMAP215 family member and microtubule polymerase, Stu2, associates with kinetochores and contributes to tension-dependent stabilization in vitro. We show here that a C-terminal segment of Stu2 binds the four-way junction of the Ndc80 complex (Ndc80c) and that residues conserved both in yeast Stu2 orthologs and in their metazoan counterparts make specific contacts with Ndc80 and Spc24. Mutations that perturb this interaction prevent association of Stu2 with kinetochores, impair cell viability, produce biorientation defects, and delay cell cycle progression. Ectopic tethering of the mutant Stu2 species to the Ndc80c junction restores wild-type function in vivo. These findings show that the role of Stu2 in tension-sensing depends on its association with kinetochores by binding with Ndc80c.

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Real-time Visualization and Analysis of Chondrocyte Injury Due to Mechanical Loading in Fully Intact Murine Cartilage Explants

Kotelsky

Carrier

Buckley

2019

JoVE

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Evidence that reduction in volume protects in situ articular chondrocytes from mechanical impact

Kotelsky

Carrier

Aggouras

et al. 2020

Connective Tissue Research

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Structural Basis of Stu2 Recruitment to Yeast Kinetochores

Zahm

Stewart

Carrier

et al. 2020

Preprint

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Accurate chromosome segregation during cell division requires engagement of the kinetochores of sister chromatids with microtubules emanating from opposite poles of the mitotic spindle. In yeast, these bioriented metaphase sister chromatids experience tension as the corresponding microtubules (one per sister chromatid) shorten. Spindle-assembly checkpoint signaling appears to cease from a kinetochore under tension, which also stabilizes kinetochore-microtubule attachment in single-kinetochore experiments in vitro. The microtubule polymerase, Stu2, the yeast member of the XMAP215/ch-TOG protein family, associates with kinetochores in cells and contributes to tension-dependent stabilization, both in vitro and in vivo. We show here that a C-terminal segment of Stu2 binds the four-way junction of the Ndc80 complex (Ndc80c) and that amino-acid residues conserved both in yeast Stu2 orthologs and in their metazoan counterparts make specific contacts with Ndc80 and Spc24. Mutations that perturb this interaction prevent association of Stu2 with kinetochores, impair cell viability, produce biorientation defects, and delay cell-cycle progression. Ectopic tethering of the mutant Stu2 species to the Ndc80c junction restores wild-type function. These findings show that the role of Stu2 in tension sensing depends on its association with kinetochores by binding with Ndc80c.

show abstract

Real-time Visualization and Analysis of Chondrocyte Injury Due to Mechanical Loading in Fully Intact Murine Cartilage Explants

Kotelsky

Carrier

Buckley

2019

JoVE

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Joseph S Carrier

Structural basis of Stu2 recruitment to yeast kinetochores

Real-time Visualization and Analysis of Chondrocyte Injury Due to Mechanical Loading in Fully Intact Murine Cartilage Explants

Evidence that reduction in volume protects in situ articular chondrocytes from mechanical impact

Structural Basis of Stu2 Recruitment to Yeast Kinetochores

Real-time Visualization and Analysis of Chondrocyte Injury Due to Mechanical Loading in Fully Intact Murine Cartilage Explants

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