Abstract
Tetrahymena thermophila is a ciliate with hundreds of cilia primarily used for cellular motility. These cells propel themselves by generating hydrodynamic forces through coordinated ciliary beating. The coordination of cilia is ensured by the polarized organization of basal bodies (BBs), which exhibit remarkable structural and molecular conservation with BBs in other eukaryotes. During each cell cycle, massive BB assembly occurs and guarantees that future Tetrahymena cells gain a full complement of BBs and their associated cilia. BB duplication occurs next to existing BBs, and the predictable patterning of new BBs is facilitated by asymmetric BB accessory structures that are integrated with a membrane-associated cytoskeletal network. The large number of BBs combined with robust molecular genetics merits Tetrahymena as a unique model system to elucidate the fundamental events of BB assembly and organization.
Highlights
Tetrahymena thermophila is a ciliate with hundreds of cilia primarily used for cellular motility
Basic Tetrahymena basal body structure Tetrahymena BBs are structurally similar to BBs in other eukaryotes
The proximal 60–90 nm of the BB contains a cartwheel structure composed of a central hub and nine spokes that connect to the A-tubule of each triplet microtubule blade (Fig. 2b)
Summary
Tetrahymena thermophila is a ciliate with hundreds of cilia primarily used for cellular motility. Outstanding cellular model for investigating the basic mechanisms of polarized BB assembly, stability, and organization. The proximal 60–90 nm of the BB contains a cartwheel structure composed of a central hub and nine spokes that connect to the A-tubule of each triplet microtubule blade (Fig. 2b).
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