AI Article Synopsis
- Most research on the origin of life has focused on analyzing specific biochemical syntheses or creating simple chemical systems that exhibit life-like traits.
- The authors suggest a novel experimental approach that mimics natural selection in ecosystems to find self-propagating chemical structures in the lab, with an emphasis on detecting responses to this selection as evidence for life-like systems.
- They aim to conduct high-throughput experiments to discover optimal conditions that encourage the formation of chemical consortia on surfaces, which could enhance our understanding of how self-replicating entities and adaptive evolution emerged in the early stages of life.
Article Abstract
Most experimental work on the origin of life has focused on either characterizing the chemical synthesis of particular biochemicals and their precursors or on designing simple chemical systems that manifest life-like properties such as self-propagation or adaptive evolution. Here we propose a new class of experiments, analogous to artificial ecosystem selection, where we select for spontaneously forming self-propagating chemical assemblages in the lab and then seek evidence of a response to that selection as a key indicator that life-like chemical systems have arisen. Since surfaces and surface metabolism likely played an important role in the origin of life, a key experimental challenge is to find conditions that foster nucleation and spread of chemical consortia on surfaces. We propose high-throughput screening of a diverse set of conditions in order to identify combinations of "food," energy sources, and mineral surfaces that foster the emergence of surface-associated chemical consortia that are capable of adaptive evolution. Identification of such systems would greatly advance our understanding of the emergence of self-propagating entities and the onset of adaptive evolution during the origin of life.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC5705744 | PMC |
| http://dx.doi.org/10.1007/s11084-016-9526-x | DOI Listing |
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