Effect of Peptide-to-TiO2 Beads Ratio on Phosphopeptide Enrichment Selectivity

Abstract

Titanium dioxide (TiO(2)) has been proven to be a highly efficient strategy and widely used for phosphopeptide enrichment. Many advances have been made recently, including online/offline mode and optimization of sample loading/elution buffer; however, beads usage has rarely been explored. In the current study, we found that the peptide-to-TiO(2) beads ratio was a significant factor for phosphopeptide enrichment, and insufficient or excessive beads could decrease the selectivity. Specifically, for HeLa total cell lysate, the optimum peptide-to-beads ratio is about 1:2-1:8 (mass/mass) to obtain the highest enrichment selectivity and the maximum phosphopeptides identification with single incubation. Pre-experiments are recommended to decide an optimum peptide-to-TiO(2) beads ratio when it comes to different samples. Interestingly, deficient beads can help identify much more multiphosphorylated peptides than the optimum peptide-to-beads ratio by consecutive incubations. Therefore, if multiphosphorylated peptides identification is desired, deficient beads amount is preferred. In addition, consecutive incubation using deficient beads could be used as a fractionation of phosphopeptides besides as an enrichment method.