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Autori principali: Menon, Shakti N., Sinha, Sitabhra
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2506.07210
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author Menon, Shakti N.
Sinha, Sitabhra
author_facet Menon, Shakti N.
Sinha, Sitabhra
contents The discipline of `theoretical biology' has been developing from its inception several decades ago almost in parallel with the advances in biology, so much so that the latter is often considered to be almost exclusively an empirical science. However, the scenario has been changing in recent years with statistical mechanics, nonlinear dynamics and soft-matter physics being more and more frequently invoked to explain various biological observations. As distinct from computational biology, theoretical biology is not just an attempt to reproduce in-silico experimental phenomena, but asks more general and abstract questions. It strives to attain a more fundamental understanding of the mechanisms underlying biological phenomena, ranging from oscillations to strategic actions, that can be unified through the perspective that views organisms as processing information to respond appropriately despite the noise in their environment. We show through a number of investigations carried out by our group, on the emergence of systems-level phenomena through interactions between components, how an approach melding physics, and the theory of information & computation can act as an unifying framework for biological processes across a wide range of temporal and spatial scales.
format Preprint
id arxiv_https___arxiv_org_abs_2506_07210
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Broken Symmetries, Information and Emergence: What is theory, that biology should be mindful of it?
Menon, Shakti N.
Sinha, Sitabhra
Biological Physics
The discipline of `theoretical biology' has been developing from its inception several decades ago almost in parallel with the advances in biology, so much so that the latter is often considered to be almost exclusively an empirical science. However, the scenario has been changing in recent years with statistical mechanics, nonlinear dynamics and soft-matter physics being more and more frequently invoked to explain various biological observations. As distinct from computational biology, theoretical biology is not just an attempt to reproduce in-silico experimental phenomena, but asks more general and abstract questions. It strives to attain a more fundamental understanding of the mechanisms underlying biological phenomena, ranging from oscillations to strategic actions, that can be unified through the perspective that views organisms as processing information to respond appropriately despite the noise in their environment. We show through a number of investigations carried out by our group, on the emergence of systems-level phenomena through interactions between components, how an approach melding physics, and the theory of information & computation can act as an unifying framework for biological processes across a wide range of temporal and spatial scales.
title Broken Symmetries, Information and Emergence: What is theory, that biology should be mindful of it?
topic Biological Physics
url https://arxiv.org/abs/2506.07210