Basal body organization and cell geometry during the cell cycle in Tetrahymena thermophila

Tetrahymena thermophila possesses arrays of motile cilia that promote fluid flow for cell motility. These consist of intricately organized basal bodies (BBs) that nucleate and position cilia at the cell cortex. Tetrahymena cell geometry and spatial organization of BBs play important roles in cell size, swimming, feeding, and division. How cell geometry and BB organization are established and maintained remains poorly understood, and prior studies have been limited due to difficulties in accurate BB identification and small sample size. We therefore developed an automated image processing pipeline that segments single cells, distinguishes unique BB populations, assigns BBs into distinct ciliary rows, and distinguishes new from mature BBs. We identified unique features to describe the variation of cell shape and BB spatial organization in unsynchronized single-cell images. The results reveal asymmetries in BB distribution and positioning of the cytokinetic furrow within the cell. Moreover, we establish novel spatial and temporal waves in new BB assembly through the cell cycle. Lastly, we used measurements from single cells across the cell cycle to construct a generative model that allows synthesis of movies depicting single cells progressing through the cell cycle. Our approach is expected to be of particular value for characterizing Tetrahymena mutants.

Movie S1: figure7d

https://ascb-prod-streaming.literatumonline.com/journals/content/mboc/0/mboc.ahead-of-print/mbc.e22-11-0508/20230109/media/mc-e22-11-0508-s01.,1200,900,768,652,642,.mp4.m3u8?b92b4ad1b4f274c70877518410abb28bf45a6fadfff54c0884ea58110075615c1d5919ea753725730a4097154a8f56c8491b2e70b0e87b5e9f35b4d61387d2130c8df350edbabb355e8ef985f87ced5b3045c057f8800fe991d2600bb6d6a1baf6b5941e2c6f8441c9b5d618762beeff96d6e704f827680afaec4bf43145a9d6fbcdc9393e1ce21df83ff83c5c9ff1ea92dd9318e9f1cc1980a1bdf9bd7bf805598cbce4d25219dbb58add9f16d0

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