Abstract
Water has many roles in the context of life on Earth, however throughout the universe, other liquids may be able to support the emergence of life. We looked at the ability of amino acids, peptides, a depsipeptide, and proteins to partition into a non-polar decanol phase, with and without the addition of a phase transfer agent. Partitioning evaluated using UV detection, or with HPLC coupled to either charged aerosol detection or ESI-MS. For amino acids and short peptides, phase transfer agents were used to move the biomolecules to the decanol phase, and this transfer was pH dependent. For larger molecules, phase transfer agents did not seem to affect the transfer. Both the depsipetide, valinomycin, and the protein Taq DNA polymerase had solubility in the decanol phase. Additionally, valinomycin appeared to retain its biological ability to bind to potassium ions. These results show that most terrestrial biological molecules are not compatible with non-polar solvents, but it is possible to find and perhaps evolve polymers that are functional in such phases.
Highlights
Water has many roles in the context of life on Earth, throughout the universe, other liquids may be able to support the emergence of life
Peptides, a depsipetide, and proteins we have evaluated the partitioning between a water-decanol phase with and without phase transfer agents (PTAs)
Phase partitioning of biomolecules was undertaken for amino acids and their polymers to determine their solubility with and without the help of charged amphiphiles to serve as phase transfer agents (PTAs)
Summary
Water has many roles in the context of life on Earth, throughout the universe, other liquids may be able to support the emergence of life. We seek to evaluate if biomolecules can use phase transfer agents to increase solubility in the non-polar solvent decanol, and if function can be maintained within that solvent. Peptides, a depsipetide, and proteins we have evaluated the partitioning between a water-decanol phase with and without phase transfer agents (PTAs).
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