Transmembrane proteins are intractable crystallization targets due to their low solubility and their substantial hydrophobic outer surfaces must be enclosed within a partial micelle composed of detergents to avoid aggregation. Unfortunately, encapsulation within a partial micelle diminishes specific protein-to-protein contacts needed for crystal lattice formation. In addition, the high conformational flexibility of certain transmembrane proteins reduces sample homogeneity causing difficulty in crystallization. Cocrystallization ligands, based on either antibody scaffolds or other proteinaceous non-antibody scaffolds, have greatly facilitated the crystallization of transmembrane proteins. Recently, in vitro selected macrocyclic peptide ligands have been shown to facilitate protein crystallization as well. In this review, we discuss selection strategies used for the discovery of macrocyclic peptide ligands and the three-dimensional crystal structure of the transporter PfMATE in complex with in vitro selected macrocyclic peptides.
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