Litcius/Paper detail

Accumulation and maintenance of information in evolution

Michal Hledík, Nick Barton, Gašper Tkačik

2022Proceedings of the National Academy of Sciences27 citationsDOIOpen Access PDF

Abstract

Selection accumulates information in the genome-it guides stochastically evolving populations toward states (genotype frequencies) that would be unlikely under neutrality. This can be quantified as the Kullback-Leibler (KL) divergence between the actual distribution of genotype frequencies and the corresponding neutral distribution. First, we show that this population-level information sets an upper bound on the information at the level of genotype and phenotype, limiting how precisely they can be specified by selection. Next, we study how the accumulation and maintenance of information is limited by the cost of selection, measured as the genetic load or the relative fitness variance, both of which we connect to the control-theoretic KL cost of control. The information accumulation rate is upper bounded by the population size times the cost of selection. This bound is very general, and applies across models (Wright-Fisher, Moran, diffusion) and to arbitrary forms of selection, mutation, and recombination. Finally, the cost of maintaining information depends on how it is encoded: Specifying a single allele out of two is expensive, but one bit encoded among many weakly specified loci (as in a polygenic trait) is cheap.

Topics & Concepts

Selection (genetic algorithm)Fisher informationDivergence (linguistics)Upper and lower boundsPopulationBiologyKullback–Leibler divergenceMathematicsStatisticsGeneticsMathematical optimizationComputer scienceLinguisticsArtificial intelligenceSociologyPhilosophyDemographyMathematical analysisEvolution and Genetic DynamicsEvolutionary Game Theory and CooperationGene Regulatory Network Analysis