From Molecular Recognition to the “Vehicles” of Evolutionary Complexity: An Informational Approach

From Molecular Recognition to the “Vehicles” of Evolutionary Complexity: An Informational Approach

Countless informational proposals and models have explored the singular characteristics of biological systems: from the initial choice of information terms in the early days of molecular biology to the current bioinformatic avalanche in this “omic” era. However, this was conducted, most often, withi...

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Auteurs principaux: Pedro C. Marijuán, Jorge Navarro
Format: article
Langue:EN
Publié: MDPI AG 2021
Sujets:
molecular recognition
informational architectures
information flow
signaling systems
biological complexity
evolutionary theory
Biology (General)
QH301-705.5
Chemistry
QD1-999
Accès en ligne:https://doaj.org/article/70f5b5ee511f4a4a8b9bf846f7e8d664
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Résumé:Countless informational proposals and models have explored the singular characteristics of biological systems: from the initial choice of information terms in the early days of molecular biology to the current bioinformatic avalanche in this “omic” era. However, this was conducted, most often, within partial, specialized scopes or just metaphorically. In this paper, we attempt a consistent informational discourse, initially based on the molecular recognition paradigm, which addresses the main stages of biological organization in a new way. It considers the interconnection between signaling systems and information flows, between informational architectures and biomolecular codes, between controlled cell cycles and multicellular complexity. It also addresses, in a new way, a central issue: how new evolutionary paths are opened by the cumulated action of multiple variation engines or mutational ‘vehicles’ evolved for the genomic exploration of DNA sequence space. Rather than discussing the possible replacement, extension, or maintenance of traditional neo-Darwinian tenets, a genuine informational approach to evolutionary phenomena is advocated, in which systemic variation in the informational architectures may induce differential survival (self-construction, self-maintenance, and reproduction) of biological agents within their open ended environment.

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