Litcius/Paper detail

Fundamental constraints to the logic of living systems

Ricard V. Solé, Christopher P. Kempes, Bernat Corominas‐Murtra, Manlio De Domenico, Artemy Kolchinsky, Michael Lachmann, Eric Libby, Serguei Saavedra, Eric Smith, David H. Wolpert

2024Interface Focus30 citationsDOIOpen Access PDF

Abstract

It has been argued that the historical nature of evolution makes it a highly path-dependent process. Under this view, the outcome of evolutionary dynamics could have resulted in organisms with different forms and functions. At the same time, there is ample evidence that convergence and constraints strongly limit the domain of the potential design principles that evolution can achieve. Are these limitations relevant in shaping the fabric of the possible? Here, we argue that fundamental constraints are associated with the logic of living matter. We illustrate this idea by considering the thermodynamic properties of living systems, the linear nature of molecular information, the cellular nature of the building blocks of life, multicellularity and development, the threshold nature of computations in cognitive systems and the discrete nature of the architecture of ecosystems. In all these examples, we present available evidence and suggest potential avenues towards a well-defined theoretical formulation.

Topics & Concepts

Living systemsComputer scienceMulticellular organismLiving matterProcess (computing)Convergence (economics)Limit (mathematics)Outcome (game theory)Domain (mathematical analysis)Artificial lifeTheoretical computer scienceCognitive scienceArtificial intelligenceMathematicsMathematical economicsBiologyEconomicsBiochemistryEconomic growthOperating systemMathematical analysisPsychologyGeneOrigins and Evolution of LifeEvolutionary Game Theory and CooperationGene Regulatory Network Analysis