Reorganisation of complex ciliary flows around regenerating Stentor coeruleus

Abstract

SummaryThe phenomenon of ciliary coordination has garnered increasing attention in recent decades, with multiple theories accounting for its emergence in different contexts. The heterotrich ciliate Stentor coeruleus is a unicellular organism which boasts a number of features which present unrivalled opportunities for biophysical studies of cilia coordination. With their cerulean colour and distinctive morphology, these large protists possess a characteristic differentiation between cortical rows of short body cilia used for swimming, and an anterior ring structure of fused oral cilia forming a membranellar band. The oral cilia beat metachronously to produce strong feeding currents. In addition to this complex body plan, Stentor have remarkable regenerative capabilities. Minute fragments of single cells can over the period of hours or days, regenerate independently into new, proportional individuals. Certain environmental perturbations elicit a unique programmed response known as oral regeneration wherein only the membranellar band is shed and a new, ciliated oral primordium formed on the side of the body. Here, we target oral regeneration induced by sucrose-shock to reveal the complex interplay between ciliary restructuring and hydrodynamics in Stentor, which accompanies the complete developmental sequence from band formation, elongation, curling, and migration toward the cell anterior.“When the anterior part is open, one may perceive about its Edges a very lively Motion; and when the Polyps presents itself in a certain manner, it discovers, on either side of these edges of its anterior part, somewhat very much resembling the wheels of a little Mill, that move with great velocity.”A. Trembley F.R.S describing the membranellar band of Stentor, Phil. Soc. Trans. Royal Society (London), 1744.