2011
DOI: 10.1371/journal.pone.0019603
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High Abundance Proteins Depletion vs Low Abundance Proteins Enrichment: Comparison of Methods to Reduce the Plasma Proteome Complexity

Abstract: BackgroundTo date, the complexity of the plasma proteome exceeds the analytical capacity of conventional approaches to isolate lower abundance proteins that may prove to be informative biomarkers. Only complex multistep separation strategies have been able to detect a substantial number of low abundance proteins (<100 ng/ml). The first step of these protocols is generally the depletion of high abundance proteins by the use of immunoaffinity columns or, alternatively, the enrichment of by the use of solid phase… Show more

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Cited by 135 publications
(100 citation statements)
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“…It is known that more than 10 abundant proteins (about 90% of total protein in amount) are present in human serum. 29 In addition, our fluorescence emission spectroscopy and FA analysis suggest the diluted serum can produce a strong fluorescence background (see Figure S2 in the Supporting Information) and high FA response (r > 0.5).…”
mentioning
confidence: 75%
“…It is known that more than 10 abundant proteins (about 90% of total protein in amount) are present in human serum. 29 In addition, our fluorescence emission spectroscopy and FA analysis suggest the diluted serum can produce a strong fluorescence background (see Figure S2 in the Supporting Information) and high FA response (r > 0.5).…”
mentioning
confidence: 75%
“…The development and utilization of latest mass spectrometers have increased the sensitivity of the protein identification, fostering the identification of proteins present in extremely small amounts (up to attomoles, in isolation) [3]. However, the identification of low-abundance proteins during the analysis of whole cell/tissue proteome is still not achievable without any prefractionation of the samples [4]. One of the major reasons of this limited resolution, during total proteome analysis, is the presence of high-abundance proteins which occupies a major portion of the cell/ tissue proteome.…”
Section: Editorialmentioning
confidence: 99%
“…One of the most typical examples are biomedical projects where (human) serum/plasma samples are frequently used to deplete highly abundant proteins in order to decrease the dynamic range and thus to increase coverage of lower abundant proteins. Several different tools exist to achieve the depletion of most of the highly abundant proteins, including Multiple Affinity Removal System (MARS) and ProteoPrep [29].…”
Section: Co-purification: Pull-down / Depletion / Enrichmentmentioning
confidence: 99%