Gaspar Jekely @jekely@qoto.org

We also mapped #motoneuron synapses to the desmosomal connectome to infer the extent of tissue influenced by motoneurons. We suggest that such cellular-level maps based on #volumeEM data and the integrative analysis of synaptic and adherent force networks will be important to elucidate body mechanics and the nervous control of movement.

The #endoskeleton formed by the #aciculae and supported by many muscles is quite unique to polychaete annelids and represents the only example outside the #tetrapods of animals with a trunk appendages rigidified by an endoskeleton. Aciculae evolved in stem errant #annelids in the Early #Ordovician indicating the deep ancestry of these structures, predating tetrapod limbs.

We analysed the network in many different ways and found that its structure is quite different from the synaptic #connectome and random networks. One of the interesting findings was that the #aciculae - chitin rods that form an #endoskeleton in the segmental #appendages - are highly connected hubs in the #network and a large number of #muscles is involved in moving them.

Sanja skeletonised all the 853 muscle cells in the larva and annotated their desmosomes and the partner cells and extracellular structures that the desmosomes attach to. This resulted in a single network of over 2,000 cells and extracellular structures (basal lamina, chitin endoskeleton etc) that we call the desmosomal #connectome. In synaptic connectomes the links are formed by #synapses, in a desmosomal connectome the links are desmosomes.

Finally, here is the Editor's evaluation from @elife

This paper reports on the development of an impressive microfluidic platform for the study of motility, and motility transitions, exhibited by single algal cells in circular confinement. Building on previous work that showed a three-state motility repertoire for certain green algae, the present work uses extremely long time series and a variety of physical perturbations to show how those dynamics can be altered by environmental conditions. The work will be of interest to a wide range of scientists studying motility and non-equilibrium dynamics.
https://doi.org/10.7554/eLife.76519.sa0

The authors also developed and tested a novel droplet-fusion assay to expose single cells in a controlled manner to chemicals. This could be a very elegant way to e.g., dissect #signalling mechanisms in the cells by #pharmacology.

The motility is light-switchable, which was known, but the long-term imaging of single cells in light and dark revealed a cellular #memory: the light-altered behavioural state persisted after light off.

The locomotion of single-cells is characterised by a trio of motility macrostates (run, stop, tumble) with distinct transition probabilities that could be quantified by long-term imaging.

..and the #axoneme, with some holes in it.
Now we would need a choanoflagellate ciliary #proteome.

and the ciliary vane, which is very different from the mastigonemes of e..g. #Chlamydomonas
A cilium with wings.

here is a picture of the central pair, tomographic slices and averages