Abstract
Cell-free translation systems are indispensable for studying protein synthesis, enabling researchers to explore translational regulation across different cell types. The difficulties in producing cell-free translation systems from different cell types limit the ability to study regulatory mechanisms that depend on different biological contexts. Here, we present a scalable method for preparing translation-competent lysates from a range of frequently used human cell lines using dual centrifugation. We optimized lysis conditions for adherent and suspension cells, producing high-quality lysates from HEK-293 (adherent and in suspension), HeLa, SH-SY5Y, and U2OS cells. Our results demonstrate that cell-specific factors influence translation efficiency, with adherent HeLa cells showing the highest activity. We also observed that sensitivity to lysis conditions varies between cell lines, underscoring the importance of fine-tuning parameters for efficient protein production. Our method provides a robust and adaptable approach for generating cell-type-specific lysates, broadening the application of in vitro translation systems in studying translational mechanisms.
Keywords:
cell-free translation; cell-type-specific lysates; dual centrifugation; in vitro translation; protein synthesis; synthetic biology; translational regulation.