A Long-Lived Batch Reaction System of Cell-Free Protein Synthesis

## Abstract Cell‐free translation systems generally utilize high‐energy phosphate compounds to regenerate the adenosine triphosphate (ATP) necessary to drive protein synthesis. This hampers the widespread use and practical implementation of this technology in a batch format due to expensive reagent

A new approach for the regeneration of adenosine triphosphate (ATP) during cell-free protein synthesis was developed to prolong the synthesis and also to avoid the accumulation of inorganic phosphate. This approach was demonstrated in a batch system derived from Escherichia coli. Contrary to the con

The properties of M-hirudin as a new reporter gene system were examined using rabbit reticulocyte lysate for cell-free protein expression. In contrast to the luciferase gene, in vitro translation of M-hirudin is highly robust against changes in concentrations of K ؉ (and Rb ؉ ). In addition, M-hirud

Protein synthesis in an aqueous two-phase system is reported here as a novel type of extractive bioconversion. Translation of BMV RNA was studied using either rabbit reticulocyte lysate or wheat-germ extract in aqueous dextran-PEG systems. Both polymers inhibited protein synthesis and the translatio