Chlamydomonas

Separating cilia with a oh-so-thin blade

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Multiple beating cilia need some form of coupling to synchronise. In groups of cells, hydrodynamic coupling can be enough… but for single cells, it seems to be essential to have internal mechanical connections. In this case, does hydrodynamics play any role at all? In a new paper, just out in Physical Review Letters (Editors’ Suggestion; preprint available on the ArXiv), we use a tip-less AFM cantilever (sub-micron thin) to block hydrodynamic coupling between the two flagella of a single Chlamydomonas cell. The results highlight a striking difference between wild type, with its two different flagella, and the flagellar dominance mutant ptx1. This work was spearheaded by Luc Zorrilla (who’s just defended his thesis!), in collaboration with Antoine Allard (LOMA, U. Bordeaux) and Krish Desai (former MPhys student, Physics Department, U. Warwick).

Chlamydomonas Phototaxis: turn and what?

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Phototaxis is one of the main categories of motility regulation by microorganisms. Arguably, it is particularly important for motile micro algae, due to their photosynthetic activity. One of the organisms where it has been studied the most is our beloved micro alga Chlamydomonas reinhardtii. Currently, we have a pretty good idea of the mechanism leading the cells to reorient towards/away from the light, but not much is known about what happens after they’ve reoriented…. In our recent paper we start looking into this, with surprising results.