What does evolution make? Learning in living lineages and machines.
Journal:
Trends in genetics : TIG
Published Date:
Jun 10, 2025
Abstract
How does genomic information unfold, to give rise to self-constructing living organisms with problem-solving capacities at all levels of organization? We review recent progress that unifies work in developmental genetics and machine learning (ML) to understand mapping of genes to traits. We emphasize the deep symmetries between evolution and learning, which cast the genome as instantiating a generative model. The layer of physiological computations between genotype and phenotype provides a powerful degree of plasticity and robustness, not merely complexity and indirect mapping, which strongly impacts individual and evolutionary-scale dynamics. Ideas from ML and neuroscience now provide a versatile, quantitative formalism for understanding what evolution learns and how developmental and regenerative morphogenesis interpret the deep lessons of the past to solve new problems. This emerging understanding of the informational architecture of living material is poised to impact not only genetics and evolutionary developmental biology but also regenerative medicine and synthetic morphoengineering.
