Seyed Alireza Zamani-Dahaj, Anthony Burnetti, Thomas C. Day, Peter J. Yunker, William C. Ratcliff, and I have published a new article in the latest issue of Genes. This follows up on our previous paper on heritability with an empirical test of some of its assumptions and predictions.
Abstract:
The major transitions in evolution include events and processes that result in the emergence of new levels of biological individuality. For collectives to undergo Darwinian evolution, their traits must be heritable, but the emergence of higher-level heritability is poorly understood and has long been considered a stumbling block for nascent evolutionary transitions. Using analytical models, synthetic biology, and biologically-informed simulations, we explored the emergence of trait heritability during the evolution of multicellularity. Prior work on the evolution of multicellularity has asserted that substantial collective-level trait heritability either emerges only late in the transition or requires some evolutionary change subsequent to the formation of clonal multicellular groups. In a prior analytical model, we showed that collective-level heritability not only exists but is usually more heritable than the underlying cell-level trait upon which it is based, as soon as multicellular groups form. Here, we show that key assumptions and predictions of that model are borne out in a real engineered biological system, with important implications for the emergence of collective-level heritability.
Zamani-Dahaj, S.A., A. Burnetti, T.C. Day, P.J. Yunker, W.C. Ratcliff, and M.D. Herron. 2023. Spontaneous emergence of multicellular heritability. Genes 14: 1635. doi: 10.3390/genes14081635