2020
DOI: 10.1101/2020.02.20.957647
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Evolution of multicellularity by collective integration of spatial information

Abstract: 10At the origin of multicellularity, cells may have evolved aggregation in 11 response to predation, for functional specialisation or to allow large-scale 12 integration of environmental cues. These group-level properties emerged 13 from the interactions between cells in a group, and determined the selection 14 pressures experienced by these cells. 15 We investigate the evolution of multicellularity with an evolutionary 16 model where cells search for resources by chemotaxis in a shallow, noisy 17 gradient.… Show more

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Cited by 4 publications
(4 citation statements)
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“…Parameter values are motivated throughout this section, and summarised in Table 1 . The custom software used for the simulations and to generate the figures is available at Colizzi and Vroomans, 2020 .…”
Section: Methodsmentioning
confidence: 99%
“…Parameter values are motivated throughout this section, and summarised in Table 1 . The custom software used for the simulations and to generate the figures is available at Colizzi and Vroomans, 2020 .…”
Section: Methodsmentioning
confidence: 99%
“…Examples of multi-scale models are: the coupling of large gene regulatory networks to tissue-level patterning, which have been used for hindcasting the order of evolutionary innovations in bilateral animals (Vroomans et al 2016), and estimating the likelihood that mutations increase morphological complexity (Hagolani et al 2021); models of genome evolution (Cuypers & Hogeweg 2012), which predict that genomically complex ancestors primarily adapted through gene loss during major radiation events (Deutekom et al 2019); and agent based models with rudimentary genomes, which predict emergent selective forces that can drive major evolutionary transitions (Colizzi et al 2020).…”
Section: Multi-scale Evolutionary Modellingmentioning
confidence: 99%
“…They yielded important insights, for instance, on how cells sort within tissues (Beatrici and Brunnet, 2011;Steinberg, 2007), and in particular on differentiation in Dictyostelium (Maree and Hogeweg, 2001). Although they remain simplified representations, these models are easier to interface with cell-level observations and can provide explicit descriptions of the origin of biases in aggregate composition and in spatial distribution of cells, as well as of the evolution of collective functionality (Colizzi et al, 2020;Garcia, Doulcier, et al, 2015;Gestel and Nowak, 2016;Guttal and Couzin, 2010;Joshi et al, 2017;Staps et al, 2019). Their integration into general evolutionary frameworks is, however, less straightforward.…”
Section: Describing Social Behaviour At Multiple Scalesmentioning
confidence: 99%