Publication Date

3-1-2024

Journal

Life Science Alliance

DOI

10.26508/lsa.202302409

PMID

38182160

PMCID

PMC10770417

PubMedCentral® Posted Date

1-5-2024

PubMedCentral® Full Text Version

Post-print

Published Open-Access

no

Keywords

Humans, Animals, Mice, Centrioles, Cilia, Electron Microscope Tomography, Microscopy, Electron, Transmission, Basal Bodies

Abstract

Primary cilia mediate sensory signaling in multiple organisms and cell types but have structures adapted for specific roles. Structural defects in them lead to devastating diseases known as ciliopathies in humans. Key to their functions are structures at their base: the basal body, the transition zone, the "Y-shaped links," and the "ciliary necklace." We have used cryo-electron tomography with subtomogram averaging and conventional transmission electron microscopy to elucidate the structures associated with the basal region of the "connecting cilia" of rod outer segments in mouse retina. The longitudinal variations in microtubule (MT) structures and the lumenal scaffold complexes connecting them have been determined, as well as membrane-associated transition zone structures: Y-shaped links connecting MT to the membrane, and ciliary beads connected to them that protrude from the cell surface and form a necklace-like structure. These results represent a clearer structural scaffold onto which molecules identified by genetics, proteomics, and superresolution fluorescence can be placed in our emerging model of photoreceptor sensory cilia.

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