{Reference Type}: Journal Article
{Title}: Decrypting the functional design of unmodified translation elongation factor P.
{Author}: Tomasiunaite U;Kielkowski P;Krafczyk R;Forné I;Imhof A;Jung K;
{Journal}: Cell Rep
{Volume}: 43
{Issue}: 5
{Year}: 2024 May 28
暂无{DOI}: 10.1016/j.celrep.2024.114063
{Abstract}: Bacteria overcome ribosome stalling by employing translation elongation factor P (EF-P), which requires post-translational modification (PTM) for its full activity. However, EF-Ps of the PGKGP subfamily are unmodified. The mechanism behind the ability to avoid PTM while retaining active EF-P requires further examination. Here, we investigate the design principles governing the functionality of unmodified EF-Ps in Escherichia coli. We screen for naturally unmodified EF-Ps with activity in E. coli and discover that the EF-P from Rhodomicrobium vannielii rescues growth defects of a mutant lacking the modification enzyme EF-P-(R)-β-lysine ligase. We identify amino acids in unmodified EF-P that modulate its activity. Ultimately, we find that substitution of these amino acids in other marginally active EF-Ps of the PGKGP subfamily leads to fully functional variants in E. coli. These results provide strategies to improve heterologous expression of proteins with polyproline motifs in E. coli and give insights into cellular adaptations to optimize protein synthesis.