Litcius/Paper detail

Dimensional reduction in complex living systems: Where, why, and how

Jean‐Pierre Eckmann, Tsvi Tlusty

2021BioEssays33 citationsDOIOpen Access PDF

Abstract

The unprecedented prowess of measurement techniques provides a detailed, multi-scale look into the depths of living systems. Understanding these avalanches of high-dimensional data-by distilling underlying principles and mechanisms-necessitates dimensional reduction. We propose that living systems achieve exquisite dimensional reduction, originating from their capacity to learn, through evolution and phenotypic plasticity, the relevant aspects of a non-random, smooth physical reality. We explain how geometric insights by mathematicians allow one to identify these genuine hallmarks of life and distinguish them from universal properties of generic data sets. We illustrate these principles in a concrete example of protein evolution, suggesting a simple general recipe that can be applied to understand other biological systems.

Topics & Concepts

Living systemsSimple (philosophy)Computer scienceReduction (mathematics)RecipeBiological evolutionQuantitative biologyBiological systemStatistical physicsProtein evolutionComplex systemDimensional reductionPhysical systemMathematicsArtificial intelligenceLiving matterTheoretical physicsBiologyLiving cellOrigins and Evolution of LifeGene Regulatory Network AnalysisEarth Systems and Cosmic Evolution