Physics of Life: Exploring Information as a Distinctive Feature of Living Systems

Creators: Bartlett, Stuart^{1, 2}; Eckford, Andrew W.³; Egbert, Matthew⁴; Lingam, Manasvi^{5, 6}; Kolchinsky, Artemy^{7, 8}; Frank, Adam⁹; Ghoshal, Gourab⁹

1. California Institute of Technology
2. Search for Extraterrestrial Intelligence
3. York University
4. University of Auckland
5. Florida Institute of Technology
6. The University of Texas at Austin
7. Pompeu Fabra University
8. University of Tokyo
9. University of Rochester

Abstract

This paper explores the idea that information is an essential and distinctive feature of living systems. Unlike nonliving systems, living systems actively acquire, process, and use information about their environments to respond to changing conditions, sustain themselves, and achieve other intrinsic goals. We discuss relevant theoretical frameworks such as semantic information and fitness value of information. We also highlight the broader implications of our perspective for fields such as origin-of-life research and astrobiology. In particular, we touch on the transition to information-driven systems as a key step in abiogenesis, informational constraints as determinants of planetary habitability, and informational biosignatures for detecting life beyond Earth. We briefly discuss experimental platforms which offer opportunities to investigate these theoretical concepts in controlled environments. By integrating theoretical and experimental approaches, this perspective advances our understanding of life's informational dynamics and its universal principles across diverse scientific domains.

Copyright and License

Published by the American Physical Society under the terms of the Creative Commons Attribution 4.0 International license. Further distribution of this work must maintain attribution to the author(s) and the published article’s title, journal citation, and DOI.

Acknowledgement

G.G., A.F., and A.K. acknowledge support through Grant No. 62417 from the John Templeton Foundation. A.F. and M.L. acknowledge support from the NASA Exobiology program under Grant No. 80NSSC20K0622. The opinions expressed in this publication are those of the author(s) and do not necessarily reflect the views of the Foundation. A.K. was partly supported by the European Union's Horizon 2020 research and innovation program under the Marie Skłodowska-Curie Grant Agreement No. 101068029. M.E. acknowledges and appreciates the support of the University of Auckland's Research and Study Leave Programme. A.W.E. acknowledges support from Discovery Grant No. RGPIN-2016-05288 from the Natural Sciences and Engineering Research Council.

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