Abstract
Flexizymes enable the stoichiometric acylation of tRNAs with a variety of compounds, enabling the in vitro translation of peptides with both non-natural backbones and side chains. However, flexizyme reactions have several drawbacks, including single-turnover kinetics, high Mg(II) carryover inhibiting in vitro translation, and rapid product hydrolysis. Here we present flexizyme reactions utilizing an ice-eutectic phase, with high yields, 30X lower Mg(II), and long-term product stability. The eutectic flexizyme reactions increase the ease of use and flexibility of flexizyme aminoacylation, and increase the in vitro protein production.
Competing Interest Statement
The authors have declared no competing interest.
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