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Evolving social behaviour through selection of single-cell adhesion in Dictyostelium discoideum
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International audience. The social amoeba Dictyostelium discoideum commonly forms chimeric fruiting bodies. Genetic variants that produce a higher proportion of spores are predicted to undercut multicellular organization unless cooperators assort positively. Cell adhesion is considered a primary factor driving such assortment, but evolution of adhesion has not been experimentally connected to changes in social performance. We modified by experimental evolution the efficiency of individual cells in attaching to a surface. Surprisingly, evolution appears to have produced social cooperators irrespective of whether stronger or weaker adhesion was selected. Quantification of reproductive success, cell-cell adhesion and developmental patterns, however, revealed two distinct social behaviours, as captured when the classical metric for social success is generalized by considering clonal spore production.Our work shows that cell mechanical interactions can constrain evolution of development and sociality in chimeras, and that elucidation of proximate mechanisms is necessary in order to understand the ultimate emergence of multicellular organization.
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