NMR relaxation analysis of pharmaceutically active peptides

Nuclear spin relaxation (NSR) is a powerful approach for studying dynamics at the ps-ns timescale, and is typically used to characterize fundamental biophysical phenomena such as bond vibrations and fluctuations, which affect the activity of the molecule in question. Here, this chapter will look to the application of NSR to study peptides, which are short chains of amino acids and have shown promise as modalities in drug design. This chapter will begin with a brief description of theoretical and practical aspects related to the use of NSR, such as experimental considerations during data acquisition and processing. As an example of this approach for studying peptide dynamics, this chapter will step through a case study that examines the effect of backbone cyclization on the dynamics of polycyclic disulfide-rich peptides. This case study will focus on a cyclic and linear variant of a promising drug scaffold isolated from sunflower seeds called SFTI-1 (sunflower trypsin inhibitor-1), which is a naturally backbone-cyclic peptide that comprises one cross-bracing disulfide bond