The Role of Information and Order in the Origin of Life View Full Text


Ontology type: schema:Chapter     


Chapter Info

DATE

2012

AUTHORS

B. Roy Frieden , Robert A. Gatenby

ABSTRACT

Living systems exist as dynamically ordered structures even despite limitations on order set by the 2nd law of thermodynamics and coarse graining. These famously state that, globally, disorder must increase. By comparison, living systems only exist locally and so can instead achieve states of increased order and information. This emergent property of spontaneous ordering is shared with other systems, such as crystals, that likewise overcome the 2nd law on a local basis. However, living systems obey certain properties that set them apart from these and which lead to their underlying biological function. Among these are the central roles played by the cell membrane, spatially local variability of order, information feedback, quorum sensing, and quantum-like behavior. Nevertheless, there is (at least) one distinct convergence between living and nonliving systems. This is a direct mathematical parallel between the forms of the Lotka-Volterra equations of biology and the Hartree scattering equations of physics. These indicate that particle-particle interaction potentials of physics have direct analogs to species-species fitness functions of biology. This correspondence is derived, explored, and used as a point of departure for finding further quantum-like mathematical properties of living systems by use of the principle of extreme physical information (EPI). The possibility of life’s origin as an inorganic polymer and/or micelles is discussed, as well as the possible central role played by the acquisition of our moon. Finally, a possible “aim” for life is discussed. More... »

PAGES

437-468

Book

TITLE

Genesis - In The Beginning

ISBN

978-94-007-2940-7
978-94-007-2941-4

Identifiers

URI

http://scigraph.springernature.com/pub.10.1007/978-94-007-2941-4_24

DOI

http://dx.doi.org/10.1007/978-94-007-2941-4_24

DIMENSIONS

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45 schema:description Living systems exist as dynamically ordered structures even despite limitations on order set by the 2nd law of thermodynamics and coarse graining. These famously state that, globally, disorder must increase. By comparison, living systems only exist locally and so can instead achieve states of increased order and information. This emergent property of spontaneous ordering is shared with other systems, such as crystals, that likewise overcome the 2nd law on a local basis. However, living systems obey certain properties that set them apart from these and which lead to their underlying biological function. Among these are the central roles played by the cell membrane, spatially local variability of order, information feedback, quorum sensing, and quantum-like behavior. Nevertheless, there is (at least) one distinct convergence between living and nonliving systems. This is a direct mathematical parallel between the forms of the Lotka-Volterra equations of biology and the Hartree scattering equations of physics. These indicate that particle-particle interaction potentials of physics have direct analogs to species-species fitness functions of biology. This correspondence is derived, explored, and used as a point of departure for finding further quantum-like mathematical properties of living systems by use of the principle of extreme physical information (EPI). The possibility of life’s origin as an inorganic polymer and/or micelles is discussed, as well as the possible central role played by the acquisition of our moon. Finally, a possible “aim” for life is discussed.
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