The Use of Underloaded C(18) Solid-phase Extraction Plates Increases Reproducibility of Analysis of Tryptic Peptides from Unfractionated Human Plasma

Overview

Journal Anal Biochem

Publisher Elsevier

Specialty Biochemistry

Date 2012 Apr 12

PMID 22490468

Citations 4

Authors

Xiaofeng Guo

Bruce S Kristal

Affiliations

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Abstract

Bottom-up proteomics requires the digestion of proteins into peptides by processes that use salts for denaturing and buffering purposes. These salts need to be removed prior to mass spectrometry analysis to reduce ion suppression; solid-phase extraction (SPE) is a commonly used strategy. There are many commercially available SPE sorbent types and sizes, which are generally provided with manufacturer recommendations for use, including protein loading capacity. We found that these general suggestions were often not ideal, and our data suggest that context-specific evaluation of sorbent type and amount can improve reproducibility. Specifically, the universal Oasis HLB sorbent provided better retention of the more hydrophilic peptides than the traditional C(18) reversed-phase SPE, but it did so at the expense of an increased loss of the more hydrophobic peptides. We found that increasing the amount of the C(18) sorbent beyond the manufacturer's guidelines decreased breakthrough (i.e., increased retention) of 12 hydrophilic, identifiable peptides without loss of hydrophobic peptides. This procedure was robust in a 96-well plate format.

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