Biotin-painted proteins have thermodynamic stability switched by kinetic folding routes.

Frederico Campos Freitas, Michelli Maldonado, Antonio Bento Oliveira Junior, José Nelson Onuchic, Ronaldo Junio de Oliveira

The Journal of chemical physics 2022 May 21

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Biotin-labeled proteins are widely used as tools to study protein-protein interactions and proximity in living cells. Proteomic methods broadly employ proximity-labeling technologies based on protein biotinylation in order to investigate the transient encounters of biomolecules in subcellular compartments. Biotinylation is a post-translation modification in which the biotin molecule is attached to lysine or tyrosine residues. So far, biotin-based technologies proved to be effective instruments as affinity and proximity tags. However, the influence of biotinylation on aspects such as folding, binding, mobility, thermodynamic stability, and kinetics needs to be investigated. Here, we selected two proteins [biotin carboxyl carrier protein (BCCP) and FKBP3] to test the influence of biotinylation on thermodynamic and kinetic properties. Apo (without biotin) and holo (biotinylated) protein structures were used separately to generate all-atom structure-based model simulations in a wide range of temperatures. Holo BCCP contains one biotinylation site, and FKBP3 was modeled with up to 23 biotinylated lysines. The two proteins had their estimated thermodynamic stability changed by altering their energy landscape. In all cases, after comparison between the apo and holo simulations, differences were observed on the free-energy profiles and folding routes. Energetic barriers were altered with the density of states clearly showing changes in the transition state. This study suggests that analysis of large-scale datasets of biotinylation-based proximity experiments might consider possible alterations in thermostability and folding mechanisms imposed by the attached biotins.

Citation

Frederico Campos Freitas, Michelli Maldonado, Antonio Bento Oliveira Junior, José Nelson Onuchic, Ronaldo Junio de Oliveira. Biotin-painted proteins have thermodynamic stability switched by kinetic folding routes. The Journal of chemical physics. 2022 May 21;156(19):195101