Impact of Changes in Buffer Ionic Concentration and Mutations on a GH1 β‑Glucosidase Homodimer.

Oligomerization is a key feature of protein function, with approximately 30% of proteins exhibiting this trait. The homodimeric form of proteins, such as the GH1 β-glucosidase from (Sfβgly), plays a significant role in enzyme activity. In this study, we investigate the homodimerization of Sfβgly, which forms a cyclic C2 dimer with a well-defined interface. Using size exclusion chromatography and SEC-MALS, we characterized the homodimerization behavior of Sfβgly at equilibrium conditions in different ionic concentrations of phosphate buffer. The dissociation constants ( ) increase with decreasing ionic concentration, suggesting that the hydrophobic effect is central to homodimer formation. Site-directed mutagenesis of key residues at the dimer interface further elucidated the contributions of specific amino acid residues to dimer stability. Mutations affecting both, apolar and hydrogen bond-forming residues, significantly increased the . However, mutations of hydrogen bond-forming residues caused a smaller change than apolar residue mutations, suggesting that while the latter is the driving factor in the dimerization, the former could play a role in guiding the monomers relative orientation. These findings enhance our understanding of protein oligomerization in GH1 β-glucosidases and its implications for protein design and function.