Current Search: Honors Student Theses (x) » Cytoskeletal proteins (x) » Protoplasmic streaming (x)
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Title
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Characterization of the motor protein, KIF9, in mammalian cell mitotic progression.
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Creator
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Hoke, Jordan, Harriet L. Wilkes Honors College
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Abstract/Description
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The kinesin family of microtubule motors is divided into subfamilies based on structure and function. KIF9, founder of the Kinesin-9 family, has been found to interact with the GTPase Gem. Subsequent studies have shown that KIF9 is vital for flagellar movement and podosome regulation. Previous work has proposed KIF9 is required for microtubule organization as well as proper mitotic entry, progression and completion. In this study, I examined the function of KIF0 in mitotic progression using...
Show moreThe kinesin family of microtubule motors is divided into subfamilies based on structure and function. KIF9, founder of the Kinesin-9 family, has been found to interact with the GTPase Gem. Subsequent studies have shown that KIF9 is vital for flagellar movement and podosome regulation. Previous work has proposed KIF9 is required for microtubule organization as well as proper mitotic entry, progression and completion. In this study, I examined the function of KIF0 in mitotic progression using shRNA-mediated knockdown, and overexpression. In knockdown cells, I saw a significant delay in mitotic progression as well as an increase in multipolarity and multinuclearity, suggesting a failure of cytokinesis. Overexpression of KIF9 produced similar effects on mitotic progression, as well as a marked increase in chromosome distance during anaphase. Taken with previous results, my research indicated that KIF9 is required for normal mitotic progression and completion, possible via regulation of the contractile ring.
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Date Issued
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2012
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PURL
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http://purl.flvc.org/FAU/3359298
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Subject Headings
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Cells, Motility, Protoplasmic streaming, Cell organelles, Cellular signal transduction, Cytoskeletal proteins
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Format
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Document (PDF)