Capillary electrophoresis of synthetic peptide standards varying in charge and hydrophobicity

Abstract

A mixture of eight structurally closely related synthetic peptides as capillary electrophoretic (CE) standards is introduced. The almost identical mass-to-charge ratio of the standards, coupled with their random-coil (i.e., no secondary structure) nature, offer a potent analytical test for CE to separate peptides varying only subtly in hydrophobicity. Parameters varied to effect a separation included background electrolyte concentration, temperature, applied voltage in capillary zone electrophoresis (CZE in uncoated capillaries), as well as the introduction of hydrophobic mechanisms to the separation either through the use of micelles or C₈-coated capillaries. Our step-by-step approach culminated in an optimized combination of a CZE mechanism for separation of differently charged peptide groups (based on common mass-to-charge ratio) and an ion-pairing mechanism (effecting a separation within each group of identically charged peptides), which we have termed ion-interaction CZE or II-CZE. The study clearly shows how the peptide standards allow an excellent assessment of the resolving power of CE.