Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.08.18.256065v1?rss=1 Authors: Pedebos, C., Verli, H. Abstract: Oligosaccharyltransferases (OSTs) are enzymes that catalyze the transfer of a glycan chain to an acceptor protein. Their structure is composed by a transmembrane domain and a periplasmic / C-terminal domain, which can be divided into structural units. The Archaeoglobus fulgidus OST, AfAglB, has unique structural units with unknown functions. Here, we evaluate the stability role proposed for AfAglB units by employing molecular modelling and molecular dynamics simulations, to examine the effect of single and double deletions in the enzyme structure. Our results show a strong effect on the dynamics of the C-terminal domain for the mutated systems with increased fluctuations near the deleted areas. Conformational profile and stability are deeply affected, mainly in the double unit deletion, modifying the enzyme behavior and binding interfaces. Coordination at the catalytic site was not disrupted, indicating that the mutated enzymes could retain activity at some level. Hotspots of variation were identified and rationalized with previous data. Our data shows that structural units may provide stabilization interactions, contributing for integrity of the wild-type enzyme at high temperatures. By correlating our findings to structural units mutagenesis experimental data available, it was observed that structural units deletion can interfere with OSTs stability and dynamics but it is not directly related to catalysis. Instead, they may influence the OST structural integrity, and, potentially, thermostability. This work offers a basis for future experiments involving OSTs structural and functional characterization, as well as for protein engineering. Copy rights belong to original authors. Visit the link for more info