A Two-Dimensional Metallacycle Cross-Linked Switchable Polymer for Fast and Highly Efficient Phosphorylated Peptide Enrichment

04 December 2019, Version 1
This content is a preprint and has not undergone peer review at the time of posting.

Abstract

The selective and efficient capture of phosphopeptides is critical for comprehensive and in-depth phosphoproteome analysis. However, this remains a significant challenge due to the inherently low abundance of these species in complex bio-samples. In this paper, we report a switchable two-dimensional (2D) supramolecular polymer that can serve as an ideal platform for the enrichment of phosphopeptides. A positively charged metallacycle incorporated into the polymer endows the material with a high affinity for phosphopeptides. Importantly, the stimuli-responsive nature of the polymer facilitates switchable binding affinity of phosphopeptides, resulting in its excellent performance in phosphopeptide enrichment and separation from model proteins. The polymer has a high enrichment capacity (165 mg/g) and detection sensitivity (2 fmol), high enrichment recovery (88%), excellent specificity, and rapid enrichment and separation properties. Additionally, we have demonstrated the capture of phosphopeptides from the tryptic digest of real bio-samples illustrating the potential of this polymeric material in phosphoproteomic studies.

Keywords

phosphopeptide enrichment techniques
supramolecular chemistry

Supplementary materials

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