Abstract
Interactions between a protein and a peptide motif of its protein partner are prevalent in nature. Often, a protein also has multiple interaction partners. X-ray protein crystallography is commonly used to examine these interactions in terms of bond distances and angles as well as to describe hotspots within protein complexes. However, the crystallization process presents a significant bottleneck in structure determination since it often requires notably time-consuming screening procedures, which involve testing a broad range of crystallization conditions via a trial-and-error approach. This difficulty is also increased as each protein-peptide complex does not necessarily crystallize under the same conditions. Here, a new co-crystallization/peptide-soaking method is presented which circumvents the need to return to the initial lengthy crystal screening and optimization processes for each consequent new complex. The 14-3-3σ protein, which has multiple interacting partners with specific peptidic motifs, was used as a case study. It was found that co-crystals of 14-3-3σ and a low-affinity peptide from one of its partners, c-Jun, could easily be soaked with another interacting peptide to quickly and easily generate new structures at high resolution. Not only does this significantly reduce the production time, but new 14-3-3-peptide structures that were previously not accessible with the 14-3-3σ isoform, despite screening hundreds of other different conditions, were now also able to be resolved. The findings achieved in this study may be considered as a supporting and practical guide to potentially enable the acceleration of the crystallization process of any protein-peptide system.
Highlights
Ample protein–protein interactions (PPIs) that occur within the cell are formed between proteins that contain peptidebinding domains and the short peptidic motifs of their partner proteins (Cunningham et al, 2020)
Structure determination with 14-3-3 was fruitful for each of the ten new structures that we present in this study, each with good observable electron density for the peptide (Figs. 3a–3k)
X-ray crystallography continues to remain the gold standard for protein structure determination
Summary
Ample protein–protein interactions (PPIs) that occur within the cell are formed between proteins that contain peptidebinding domains and the short peptidic motifs of their partner proteins (Cunningham et al, 2020). Decoding the 3D structure of a protein–peptide complex by using state-of-the-art X-ray protein crystallography is essential to obtain snapshots of the final state of the interactions within the complex and provides adequate insights into inter-residue interactions, the stability of protein structures and the recognition mechanism of the protein–peptide system (Gromiha et al, 2019), as well as determining potential ‘druggable’ hotspots in the context of drug discovery (McIntyre et al, 2017) Such interactions are numerous, thereby placing a significant burden on crystallization studies, which are normally a time-consuming process (Cunningham et al, 2020).
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