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Thermodynamic Insights into Symmetry Breaking: Exploring Energy Dissipation across Diverse Scales.

Andrés Arango-RestrepoJ Miguel Rubi
Published in: Entropy (Basel, Switzerland) (2024)
Symmetry breaking is a phenomenon that is observed in various contexts, from the early universe to complex organisms, and it is considered a key puzzle in understanding the emergence of life. The importance of this phenomenon is underscored by the prevalence of enantiomeric amino acids and proteins.The presence of enantiomeric amino acids and proteins highlights its critical role. However, the origin of symmetry breaking has yet to be comprehensively explained, particularly from an energetic standpoint. This article explores a novel approach by considering energy dissipation, specifically lost free energy, as a crucial factor in elucidating symmetry breaking. By conducting a comprehensive thermodynamic analysis applicable across scales, ranging from elementary particles to aggregated structures such as crystals, we present experimental evidence establishing a direct link between nonequilibrium free energy and energy dissipation during the formation of the structures. Results emphasize the pivotal role of energy dissipation, not only as an outcome but as the trigger for symmetry breaking. This insight suggests that understanding the origins of complex systems, from cells to living beings and the universe itself, requires a lens focused on nonequilibrium processes.
Keyphrases
  • amino acid
  • induced apoptosis
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  • risk factors
  • cell death
  • signaling pathway
  • mass spectrometry
  • multidrug resistant
  • capillary electrophoresis