The simple emergence of complex molecular function

TL;DR

This paper discusses how complex molecular functions can emerge de novo through intrinsic organizational mechanisms and ecological niches, rather than solely through descent with modification, highlighting the ease of functional emergence in early molecular evolution.

Contribution

It introduces a framework explaining the spontaneous emergence of molecular functions via intrinsic properties and ecological filtering, challenging traditional views of molecular evolution.

Findings

New functions can arise de novo with ease.

Intrinsic molecular mechanisms facilitate functional emergence.

Ecological niches filter and support new molecular functions.

Abstract

At odds with a traditional view of molecular evolution that seeks a descent-with-modification relationship between functional sequences, new functions can emerge {\it de novo} with relative ease. At early times of molecular evolution, random polymers could have sufficed for the appearance of incipient chemical activity, while the cellular environment harbors a myriad of proto-functional molecules. The emergence of function is facilitated by several mechanisms intrinsic to molecular organization, such as redundant mapping of sequences into structures, phenotypic plasticity, modularity, or cooperative associations between genomic sequences. It is the availability of niches in the molecular ecology that filters new potentially functional proposals. New phenotypes and subsequent levels of molecular complexity could be attained through combinatorial explorations of currently available molecular variants. Natural selection does the rest.