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Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein

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Bibliographische Detailangaben
Zeitschriftentitel: The Journal of cell biology
Personen und Körperschaften: Page, BD, Satterwhite, LL, Rose, MD, Snyder, M
In: The Journal of cell biology, 124, 1994, 4, S. 507-519
Format: E-Article
Sprache: Englisch
veröffentlicht:
Rockefeller University Press
Schlagwörter:
Cell Biology
author_facet Page, BD
Satterwhite, LL
Rose, MD
Snyder, M
Page, BD
Satterwhite, LL
Rose, MD
Snyder, M
author Page, BD
Satterwhite, LL
Rose, MD
Snyder, M
spellingShingle Page, BD
Satterwhite, LL
Rose, MD
Snyder, M
The Journal of cell biology
Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
Cell Biology
author_sort page, bd
spelling Page, BD Satterwhite, LL Rose, MD Snyder, M 0021-9525 1540-8140 Rockefeller University Press Cell Biology http://dx.doi.org/10.1083/jcb.124.4.507 <jats:p>The Kar3 protein (Kar3p), a protein related to kinesin heavy chain, and the Cik1 protein (Cik1p) appear to participate in the same cellular processes in S. cerevisiae. Phenotypic analysis of mutants indicates that both CIK1 and KAR3 participate in spindle formation and karyogamy. In addition, the expression of both genes is induced by pheromone treatment. In vegetatively growing cells, both Cik1::beta-gal and Kar3::beta-gal fusions localize to the spindle pole body (SPB), and after pheromone treatment both fusion proteins localize to the spindle pole body and cytoplasmic microtubules. The dependence of Cik1p and Kar3p localization upon one another was investigated by indirect immunofluorescence of fusion proteins in pheromone-treated cells. The Cik1p::beta-gal fusion does not localize to the SPB or microtubules in a kar3 delta strain, and the Kar3p::beta-gal fusion protein does not localize to microtubule-associated structures in a cik1 delta strain. Thus, these proteins appear to be interdependent for localization to the SPB and microtubules. Analysis by both the two-hybrid system and co-immunoprecipitation experiments indicates that Cik1p and kar3p interact, suggesting that they are part of the same protein complex. These data indicate that interaction between a putative kinesin heavy chain-related protein and another protein can determine the localization of motor activity and thereby affect the functional specificity of the motor complex.</jats:p> Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein The Journal of cell biology
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series The Journal of cell biology
source_id 49
title Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_unstemmed Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_full Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_fullStr Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_full_unstemmed Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_short Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_sort localization of the kar3 kinesin heavy chain-related protein requires the cik1 interacting protein
topic Cell Biology
url http://dx.doi.org/10.1083/jcb.124.4.507
publishDate 1994
physical 507-519
description <jats:p>The Kar3 protein (Kar3p), a protein related to kinesin heavy chain, and the Cik1 protein (Cik1p) appear to participate in the same cellular processes in S. cerevisiae. Phenotypic analysis of mutants indicates that both CIK1 and KAR3 participate in spindle formation and karyogamy. In addition, the expression of both genes is induced by pheromone treatment. In vegetatively growing cells, both Cik1::beta-gal and Kar3::beta-gal fusions localize to the spindle pole body (SPB), and after pheromone treatment both fusion proteins localize to the spindle pole body and cytoplasmic microtubules. The dependence of Cik1p and Kar3p localization upon one another was investigated by indirect immunofluorescence of fusion proteins in pheromone-treated cells. The Cik1p::beta-gal fusion does not localize to the SPB or microtubules in a kar3 delta strain, and the Kar3p::beta-gal fusion protein does not localize to microtubule-associated structures in a cik1 delta strain. Thus, these proteins appear to be interdependent for localization to the SPB and microtubules. Analysis by both the two-hybrid system and co-immunoprecipitation experiments indicates that Cik1p and kar3p interact, suggesting that they are part of the same protein complex. These data indicate that interaction between a putative kinesin heavy chain-related protein and another protein can determine the localization of motor activity and thereby affect the functional specificity of the motor complex.</jats:p>
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author Page, BD, Satterwhite, LL, Rose, MD, Snyder, M
author_facet Page, BD, Satterwhite, LL, Rose, MD, Snyder, M, Page, BD, Satterwhite, LL, Rose, MD, Snyder, M
author_sort page, bd
container_issue 4
container_start_page 507
container_title The Journal of cell biology
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description <jats:p>The Kar3 protein (Kar3p), a protein related to kinesin heavy chain, and the Cik1 protein (Cik1p) appear to participate in the same cellular processes in S. cerevisiae. Phenotypic analysis of mutants indicates that both CIK1 and KAR3 participate in spindle formation and karyogamy. In addition, the expression of both genes is induced by pheromone treatment. In vegetatively growing cells, both Cik1::beta-gal and Kar3::beta-gal fusions localize to the spindle pole body (SPB), and after pheromone treatment both fusion proteins localize to the spindle pole body and cytoplasmic microtubules. The dependence of Cik1p and Kar3p localization upon one another was investigated by indirect immunofluorescence of fusion proteins in pheromone-treated cells. The Cik1p::beta-gal fusion does not localize to the SPB or microtubules in a kar3 delta strain, and the Kar3p::beta-gal fusion protein does not localize to microtubule-associated structures in a cik1 delta strain. Thus, these proteins appear to be interdependent for localization to the SPB and microtubules. Analysis by both the two-hybrid system and co-immunoprecipitation experiments indicates that Cik1p and kar3p interact, suggesting that they are part of the same protein complex. These data indicate that interaction between a putative kinesin heavy chain-related protein and another protein can determine the localization of motor activity and thereby affect the functional specificity of the motor complex.</jats:p>
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imprint Rockefeller University Press, 1994
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spelling Page, BD Satterwhite, LL Rose, MD Snyder, M 0021-9525 1540-8140 Rockefeller University Press Cell Biology http://dx.doi.org/10.1083/jcb.124.4.507 <jats:p>The Kar3 protein (Kar3p), a protein related to kinesin heavy chain, and the Cik1 protein (Cik1p) appear to participate in the same cellular processes in S. cerevisiae. Phenotypic analysis of mutants indicates that both CIK1 and KAR3 participate in spindle formation and karyogamy. In addition, the expression of both genes is induced by pheromone treatment. In vegetatively growing cells, both Cik1::beta-gal and Kar3::beta-gal fusions localize to the spindle pole body (SPB), and after pheromone treatment both fusion proteins localize to the spindle pole body and cytoplasmic microtubules. The dependence of Cik1p and Kar3p localization upon one another was investigated by indirect immunofluorescence of fusion proteins in pheromone-treated cells. The Cik1p::beta-gal fusion does not localize to the SPB or microtubules in a kar3 delta strain, and the Kar3p::beta-gal fusion protein does not localize to microtubule-associated structures in a cik1 delta strain. Thus, these proteins appear to be interdependent for localization to the SPB and microtubules. Analysis by both the two-hybrid system and co-immunoprecipitation experiments indicates that Cik1p and kar3p interact, suggesting that they are part of the same protein complex. These data indicate that interaction between a putative kinesin heavy chain-related protein and another protein can determine the localization of motor activity and thereby affect the functional specificity of the motor complex.</jats:p> Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein The Journal of cell biology
spellingShingle Page, BD, Satterwhite, LL, Rose, MD, Snyder, M, The Journal of cell biology, Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein, Cell Biology
title Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_full Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_fullStr Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_full_unstemmed Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_short Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
title_sort localization of the kar3 kinesin heavy chain-related protein requires the cik1 interacting protein
title_unstemmed Localization of the Kar3 kinesin heavy chain-related protein requires the Cik1 interacting protein
topic Cell Biology
url http://dx.doi.org/10.1083/jcb.124.4.507