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IFT cargo and motors associate sequentially with IFT trains to enter cilia

Summary Intraflagellar transport (IFT) orchestrates entry of proteins into primary cilia. At the ciliary base, assembled IFT trains, driven by kinesin-2 motors, can transport cargo proteins into the cilium, across the crowded transition zone (TZ). How trains assemble at the base and how proteins associate with them is far from understood. Here, we use single-molecule imaging in the cilia of C. elegans chemosensory neurons to directly visualize the entry of kinesin-2 motors kinesin-II and OSM-3, as well as anterograde cargo proteins IFT dynein and tubulin. Single-particle tracking shows that IFT components associate with trains sequentially, both in time and space. Super-resolution maps of IFT components in wild-type and mutant worms reveal ciliary ultrastructure and show that kinesin-II is essential for axonemal organization. Finally, imaging cilia lacking kinesin-II and/or TZ function uncovers the interplay of kinesin-II and OSM-3 in driving efficient transport of IFT trains across the TZ.

openRxiv

Aniruddha Mitra Elizaveta Loseva Erwin J.G. Peterman

2023

Title: IFT cargo and motors associate sequentially with IFT trains to enter cilia

Description:

Summary Intraflagellar transport (IFT) orchestrates entry of proteins into primary cilia.

At the ciliary base, assembled IFT trains, driven by kinesin-2 motors, can transport cargo proteins into the cilium, across the crowded transition zone (TZ).

How trains assemble at the base and how proteins associate with them is far from understood.

Here, we use single-molecule imaging in the cilia of C.

elegans chemosensory neurons to directly visualize the entry of kinesin-2 motors kinesin-II and OSM-3, as well as anterograde cargo proteins IFT dynein and tubulin.

Single-particle tracking shows that IFT components associate with trains sequentially, both in time and space.

Super-resolution maps of IFT components in wild-type and mutant worms reveal ciliary ultrastructure and show that kinesin-II is essential for axonemal organization.

Finally, imaging cilia lacking kinesin-II and/or TZ function uncovers the interplay of kinesin-II and OSM-3 in driving efficient transport of IFT trains across the TZ.

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