Thermostable in vitro transcription-translation for enzyme screening in microdroplets
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Background
In vitro expression involves the utilization of the transcription and translation machinery derived from the cell to produce one or more proteins of interest and has found widespread application in the optimization of gene circuits or metabolic pathways in synthetic biology but also in pharmaceutical manufacturing. Most in vitro expression systems available are active at moderate temperatures but to screen large libraries of natural or artificial genetic diversity for highly thermostable enzymes or enzyme variants, it is instrumental to enable protein synthesis at high temperatures. Moreover, given the fact that the main barrier toward the general use of in vitro expression is its high price compared with host-based recombinant expression, there is a need to develop alternative in vitro expression systems operating at high temperatures and compatible with technologies that enable ultrahigh-throughput screening in reduced volumes, such as microfluidic water-in-oil (w/o) droplets.
Results
To this end, we produced high-expression cell-free extracts from Thermus thermophilus for in vitro translation and supplemented them with thermostable enzymatic cascades for energy regeneration and a moderately thermostable RNA polymerase for transcription, which ultimately limited the temperature of protein synthesis. The yield was comparable to other thermostable in vitro expression systems, while the preparation procedure is simpler and can be suited to different Thermus thermophilus strains. Furthermore, these extracts have enabled in vitro expression in microfluidic droplets at high temperatures for the first time. Although the composition of these extracts showed a high background in carboxyl esterase assays, β-glucosidase and cellobiose hydrolase activities could be measured with minimal background.
Conclusions
Cell-free extracts from Thermus thermophilus represent a simpler alternative to heavily optimized or pure component thermostable in vitro expression systems. Moreover, due to their compatibility with droplet microfluidics and enzyme assays at high temperatures, the reported system represents a convenient gateway for enzyme screening at higher temperatures with ultrahigh-throughput.
