Quantum Reports (Jan 2021)

Quantum Biology: An Update and Perspective

  • Youngchan Kim,
  • Federico Bertagna,
  • Edeline M. D’Souza,
  • Derren J. Heyes,
  • Linus O. Johannissen,
  • Eveliny T. Nery,
  • Antonio Pantelias,
  • Alejandro Sanchez-Pedreño Jimenez,
  • Louie Slocombe,
  • Michael G. Spencer,
  • Jim Al-Khalili,
  • Gregory S. Engel,
  • Sam Hay,
  • Suzanne M. Hingley-Wilson,
  • Kamalan Jeevaratnam,
  • Alex R. Jones,
  • Daniel R. Kattnig,
  • Rebecca Lewis,
  • Marco Sacchi,
  • Nigel S. Scrutton,
  • S. Ravi P. Silva,
  • Johnjoe McFadden

DOI
https://doi.org/10.3390/quantum3010006
Journal volume & issue
Vol. 3, no. 1
pp. 80 – 126

Abstract

Read online

Understanding the rules of life is one of the most important scientific endeavours and has revolutionised both biology and biotechnology. Remarkable advances in observation techniques allow us to investigate a broad range of complex and dynamic biological processes in which living systems could exploit quantum behaviour to enhance and regulate biological functions. Recent evidence suggests that these non-trivial quantum mechanical effects may play a crucial role in maintaining the non-equilibrium state of biomolecular systems. Quantum biology is the study of such quantum aspects of living systems. In this review, we summarise the latest progress in quantum biology, including the areas of enzyme-catalysed reactions, photosynthesis, spin-dependent reactions, DNA, fluorescent proteins, and ion channels. Many of these results are expected to be fundamental building blocks towards understanding the rules of life.

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