Preparation and loading buffer study of polyvinyl alcohol‐based immobilized Ti4+ affinity chromatography for phosphopeptide enrichment

Despite recent advances in phosphoproteomics, an efficient and simple enrichment protocol is still a challenge and of high demand aiming at large‐scale plant phosphoproteomics studies. Here, we developed a novel loading buffer system for synthesized immobilized metal affinity chromatography material targeting plant samples, which was prepared by a simple one‐step esterification between polyvinyl alcohol and phosphoric acid and then was subjected to immobilize Ti⁴⁺. SEM and Fourier transform IR spectroscopy were used to assure the synthesis protocol of the polyvinyl alcohol‐based Ti⁴⁺ immobilized material, and the specific surface areas and pore volumes of the polymers were measured. The selectivity for phosphopeptide enrichment from α‐casein was improved by optimizing the pH and components of the loading buffer. By using potassium hydrogen phthalate/hydrochloric acid with pH at 2.50 as the loading buffer, 19 phosphopeptides with high intensity were identified. The final optimized protocol was adapted to salt‐stressed maize leaves for phosphoproteome analysis. A total of 57 phosphopeptides containing 59 phosphorylated sites from 50 phosphoproteins were identified in salt‐stressed maize leaf. The research was meaningful to obtain much more information about phosphoproteins leading to the comprehension of salt resistance and salt‐inducible phosphorylated processes of maize leaves.