Origins of life: first came evolutionary dynamics

Origins of life: first came evolutionary dynamics

When life arose from prebiotic molecules 3.5 billion years ago, what came first? Informational molecules (RNA, DNA), functional ones (proteins), or something else? We argue here for a different logic: rather than seeking a molecule type, we seek a dynamical process. Biology required an ability to ev...

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Bibliographic Details
Main Authors: Charles Kocher, Ken A. Dill
Format: Article
Language:English
Published: Cambridge University Press 2023-01-01
Series:QRB Discovery
Subjects:
Darwinian evolution
protein folding
origin of life
Online Access:https://www.cambridge.org/core/product/identifier/S2633289223000029/type/journal_article
Description
Summary:When life arose from prebiotic molecules 3.5 billion years ago, what came first? Informational molecules (RNA, DNA), functional ones (proteins), or something else? We argue here for a different logic: rather than seeking a molecule type, we seek a dynamical process. Biology required an ability to evolve before it could choose and optimise materials. We hypothesise that the evolution process was rooted in the peptide folding process. Modelling shows how short random peptides can collapse in water and catalyse the elongation of others, powering both increased folding stability and emergent autocatalysis through a disorder-to-order process.
ISSN:2633-2892

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