Abstract:
:Internal coordination models hold that early nervous systems evolved in the first place to coordinate internal activity at a multicellular level, most notably the use of multicellular contractility as an effector for motility. A recent example of such a model, the skin brain thesis, suggests that excitable epithelia using chemical signaling are a potential candidate as a nervous system precursor. We developed a computational model and a measure for whole body coordination to investigate the coordinative properties of such excitable epithelia. Using this measure we show that excitable epithelia can spontaneously exhibit body-scale patterns of activation. Relevant factors determining the extent of patterning are the noise level for exocytosis, relative body dimensions, and body size. In smaller bodies whole-body coordination emerges from cellular excitability and bidirectional excitatory transmission alone. Our results show that basic internal coordination as proposed by the skin brain thesis could have arisen in this potential nervous system precursor, supporting that this configuration may have played a role as a proto-neural system and requires further investigation.
journal_name
Front Comput Neuroscijournal_title
Frontiers in computational neuroscienceauthors
de Wiljes OO,van Elburg RA,Biehl M,Keijzer FAdoi
10.3389/fncom.2015.00110subject
Has Abstractpub_date
2015-09-15 00:00:00pages
110issn
1662-5188journal_volume
9pub_type
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