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  • Dynein-2 intermediate chains play crucial but distinct roles in primary cilia formation and function.

Dynein-2 intermediate chains play crucial but distinct roles in primary cilia formation and function.

eLife (2018-10-16)
Laura Vuolo, Nicola L Stevenson, Kate J Heesom, David J Stephens
要旨

The dynein-2 microtubule motor is the retrograde motor for intraflagellar transport. Mutations in dynein-2 components cause skeletal ciliopathies, notably Jeune syndrome. Dynein-2 contains a heterodimer of two non-identical intermediate chains, WDR34 and WDR60. Here, we use knockout cell lines to demonstrate that each intermediate chain has a distinct role in cilium function. Using quantitative proteomics, we show that WDR34 KO cells can assemble a dynein-2 motor complex that binds IFT proteins yet fails to extend an axoneme, indicating complex function is stalled. In contrast, WDR60 KO cells do extend axonemes but show reduced assembly of dynein-2 and binding to IFT proteins. Both proteins are required to maintain a functional transition zone and for efficient bidirectional intraflagellar transport. Our results indicate that the subunit asymmetry within the dynein-2 complex is matched with a functional asymmetry between the dynein-2 intermediate chains. Furthermore, this work reveals that loss of function of dynein-2 leads to defects in transition zone architecture, as well as intraflagellar transport.

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製品内容

Millipore
モノクローナル抗HA抗体-アガロース結合 マウス宿主抗体, clone HA-7, purified immunoglobulin, PBS suspension
Sigma-Aldrich
モノクロナール抗チューブリン, アセチル化 マウス宿主抗体, clone 6-11B-1, ascites fluid
Sigma-Aldrich
Anti-Dynein Antibody, 74 kDa Intermediate chains, cytoplasmic, clone 74.1, clone 74.1, Chemicon®, from mouse
Sigma-Aldrich
Anti-WDR60 antibody produced in rabbit, Prestige Antibodies® Powered by Atlas Antibodies, affinity isolated antibody, buffered aqueous glycerol solution, Ab2