Complexity through Recombination: From Chemistry to Biology

Complexity through Recombination: From Chemistry to Biology

Recombination is a common event in nature, with examples in physics, chemistry, and biology. This process is characterized by the spontaneous reorganization of structural units to form new entities. Upon reorganization, the complexity of the overall system can change. In particular the components of...

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Main Authors: Carolina Díaz Arenas, Wesley A. White, Niles Lehman, Francis J. Schmidt
Format: Article
Language:English
Published: MDPI AG 2010-12-01
Series:Entropy
Subjects:
recombination
transesterification
RNA
mutational robustness
genotypic landscape
naked genes
Online Access:http://www.mdpi.com/1099-4300/13/1/17/
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spelling doaj-87f03ae5b77940f893f00e3000da897c2020-11-24T22:04:59ZengMDPI AGEntropy1099-43002010-12-01131173710.3390/e13010017Complexity through Recombination: From Chemistry to BiologyCarolina Díaz ArenasWesley A. WhiteNiles LehmanFrancis J. SchmidtRecombination is a common event in nature, with examples in physics, chemistry, and biology. This process is characterized by the spontaneous reorganization of structural units to form new entities. Upon reorganization, the complexity of the overall system can change. In particular the components of the system can now experience a new response to externally applied selection criteria, such that the evolutionary trajectory of the system is altered. In this work we explore the link between chemical and biological forms of recombination. We estimate how the net system complexity changes, through analysis of RNA-RNA recombination and by mathematical modeling. Our results underscore the importance of recombination in the origins of life on the Earth and its subsequent evolutionary divergence. http://www.mdpi.com/1099-4300/13/1/17/recombinationtransesterificationRNAmutational robustnessgenotypic landscapenaked genes
collection DOAJ
language English
format Article
sources DOAJ
author Carolina Díaz Arenas
Wesley A. White
Niles Lehman
Francis J. Schmidt
spellingShingle Carolina Díaz Arenas
Wesley A. White
Niles Lehman
Francis J. Schmidt
Complexity through Recombination: From Chemistry to Biology
Entropy
recombination
transesterification
RNA
mutational robustness
genotypic landscape
naked genes
author_facet Carolina Díaz Arenas
Wesley A. White
Niles Lehman
Francis J. Schmidt
author_sort Carolina Díaz Arenas
title Complexity through Recombination: From Chemistry to Biology
title_short Complexity through Recombination: From Chemistry to Biology
title_full Complexity through Recombination: From Chemistry to Biology
title_fullStr Complexity through Recombination: From Chemistry to Biology
title_full_unstemmed Complexity through Recombination: From Chemistry to Biology
title_sort complexity through recombination: from chemistry to biology
publisher MDPI AG
series Entropy
issn 1099-4300
publishDate 2010-12-01
description Recombination is a common event in nature, with examples in physics, chemistry, and biology. This process is characterized by the spontaneous reorganization of structural units to form new entities. Upon reorganization, the complexity of the overall system can change. In particular the components of the system can now experience a new response to externally applied selection criteria, such that the evolutionary trajectory of the system is altered. In this work we explore the link between chemical and biological forms of recombination. We estimate how the net system complexity changes, through analysis of RNA-RNA recombination and by mathematical modeling. Our results underscore the importance of recombination in the origins of life on the Earth and its subsequent evolutionary divergence.
topic recombination
transesterification
RNA
mutational robustness
genotypic landscape
naked genes
url http://www.mdpi.com/1099-4300/13/1/17/
work_keys_str_mv AT carolinadiazarenas complexitythroughrecombinationfromchemistrytobiology
AT wesleyawhite complexitythroughrecombinationfromchemistrytobiology
AT nileslehman complexitythroughrecombinationfromchemistrytobiology
AT francisjschmidt complexitythroughrecombinationfromchemistrytobiology
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