AI Article Synopsis
- A key challenge in origins of life research is understanding how the first RNA-like polymers formed on early Earth and became part of living systems.
- Researchers found that RNA-like polymers can form without enzymes from 5'-phosphate mononucleosides when in salty conditions.
- The study demonstrates that the creation of phosphodiester bonds in these polymers is influenced by the changing hydration levels in hydrothermal environments near volcanic regions.
Article Abstract
A fundamental problem in origins of life research is how the first polymers with the properties of nucleic acids were synthesized and incorporated into living systems on the prebiotic Earth. Here, we show that RNA-like polymers can be synthesized non-enzymatically from 5'-phosphate mononucleosides in salty environments. The polymers were identified and analyzed by gel electrophoresis, nanopore analysis, UV spectra, and action of RNases. The synthesis of phosphodiester bonds is driven by the chemical potential made available in the fluctuating hydrated and anhydrous conditions of hydrothermal fields associated with volcanic land masses.
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| http://dx.doi.org/10.1007/s00239-014-9661-9 | DOI Listing |
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