High-Throughput Experimentation Using Cell-Free Protein Synthesis Systems

“…The cell-free transcription-translation system is derived from E. coli extract and is capable of synthesizing approximately 1 mg/mL of proteins, including those up to 150 kDa in size, in less than 3 h. 70 Utilizing the open nature of cell-free protein synthesis, they have devised a rapid method for prototyping nanovesicles using a custom droplet printing robot. 71 The droplet printer uses a new impact-printing-based methodology to generate droplet arrays in nanoliter scale in 384-well plates. This method is highly adaptable, allowing them to vary lipid types, chemical environments, and chaperone proteins.…”

Cracking the Code: Enhancing Molecular Tools for Progress in Nanobiotechnology

“…The cell-free transcription-translation system is derived from E. coli extract and is capable of synthesizing approximately 1 mg/mL of proteins, including those up to 150 kDa in size, in less than 3 h. 70 Utilizing the open nature of cell-free protein synthesis, they have devised a rapid method for prototyping nanovesicles using a custom droplet printing robot. 71 The droplet printer uses a new impact-printing-based methodology to generate droplet arrays in nanoliter scale in 384-well plates. This method is highly adaptable, allowing them to vary lipid types, chemical environments, and chaperone proteins.…”

Cracking the Code: Enhancing Molecular Tools for Progress in Nanobiotechnology