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An automated plasma protein fractionation design: high-throughput perspectives for proteomic analysis

Claudia Boccardi, Silvia Rocchiccioli, Antonella Cecchettini, Alberto Mercatanti, Lorenzo Citti

Year
2012
Citations
6
Access
Open access

Abstract

BACKGROUND: Human plasma, representing the most complete record of the individual phenotype, is an appealing sample for proteomics analysis in clinical applications. Up to today, the major obstacle in a proteomics study of plasma is the large dynamic range of protein concentration and the efforts of many researchers focused on the resolution of this important drawback. FINDINGS: In this study, proteins from pooled plasma samples were fractionated according to their chemical characteristics on a home-designed SPE automated platform. The resulting fractions were digested and further resolved by reversed-phase liquid chromatography coupled with MALDI TOF/TOF mass spectrometry. A total of 712 proteins were successfully identified until a concentration level of ng/mL. Pearson correlation coefficient was used to test reproducibility. CONCLUSIONS: Our multidimensional fractionation approach reduced the analysis time (2 days are enough to process 16 plasma samples filling a 96-well plate) over the conventional gel-electrophoresis or multi-LC column based methods. The robotic processing, avoiding contaminants or lack of sample handling skill, promises highly reproducible specimen analyses (more than 85% Pearson correlation). The automated platform here presented is flexible and easily modulated changing fractioning elements or detectors.

Keywords

ChromatographyFractionationProteomicsSample preparationPearson product-moment correlation coefficientProteomeMass spectrometryHuman plasmaCorrelation coefficientChemistry

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