Citation:
bioRxiv. 2022;[preprint] doi:10.1101/2022.03.27.486007
Abstract:
Comb plates (CPs) are large compound cilia uniquely seen in a basal metazoan group of ctenophores. Tens of thousands of cilia are bundled in a CP via structures connecting adjacent cilia, called compartmenting lamella (CL), which are the basis for the structural iridescent color and the coordination of ciliary movement of the CP. We previously reported the first component of CL, CTENO64, and found that it was convergently acquired in ctenophores and was essential for determination of ciliary orientation. However, CTENO64 is localized only in the proximal region of the CL; therefore, the molecular architecture of CL over the entire length has not been elucidated. Here, we identified a second CL component, CTENO189. This ctenophore-specific protein was present in the distal region of the CL, with a localization clearly segregated from CTENO64. Knockdown of the CTENO189 gene with morpholino antisense oligonucleotides resulted in complete loss of CLs in the distal region, but did not affect either the formation of CP or the orientation of each cilium. However, the hexagonal distribution of cilia was disarranged, and the metachronal coordination of CP along a comb row was lost in the CTENO189 morphants. The morphant CP showed asymmetric ciliary-type movement in normal seawater, and in a high-viscosity solution, it could not maintain the normal waveforms, becoming a symmetric flagellar-type. Our findings demonstrate a "two-story building" of CP, comprising the proximal CL, as the building foundation that rigidly fixes the ciliary orientation. The distal CL would reinforce the elastic connection among cilia to overcome the hydrodynamic drag of giant multiciliary plates.
Epub:
Not Epub
Link to Publication:
https://www.biorxiv.org/content/10.1101/2022.03.27.486007v1
Organism or Cell Type:
Bolinopsis mikado (ctenophore)
Delivery Method:
microinjection