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The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()

Peptide quantification using MS often relies on the comparison of peptide signal intensities between different samples, which is based on the assumption that observed signal intensity has a linear relationship to peptide abundance. A typical proteomics experiment is subject to multiple sources of va...

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Autores principales: Warwood, Stacey, Byron, Adam, Humphries, Martin J., Knight, David
Formato: Online Artículo Texto
Lenguaje:English
Publicado: Elsevier 2013
Materias:
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3694305/
https://www.ncbi.nlm.nih.gov/pubmed/23665148
http://dx.doi.org/10.1016/j.jprot.2013.04.034
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author Warwood, Stacey
Byron, Adam
Humphries, Martin J.
Knight, David
author_facet Warwood, Stacey
Byron, Adam
Humphries, Martin J.
Knight, David
author_sort Warwood, Stacey
collection PubMed
description Peptide quantification using MS often relies on the comparison of peptide signal intensities between different samples, which is based on the assumption that observed signal intensity has a linear relationship to peptide abundance. A typical proteomics experiment is subject to multiple sources of variance, so we focussed here on properties affecting peptide linearity under simple, well-defined conditions. Peptides from a standard protein digest were analysed by multiple reaction monitoring (MRM) MS to determine peptide linearity over a range of concentrations. We show that many peptides do not display a linear relationship between signal intensity and amount under standard conditions. Increasing the organic content of the sample solvent increased peptide linearity by increasing the accuracy and precision of quantification, which suggests that peptide non-linearity is due to concentration-dependent surface adsorption. Using multiple peptides at various dilutions, we show that peptide non-linearity is related to observed retention time and predicted hydrophobicity. Whereas the effect of adsorption on peptide storage has been investigated previously, here we demonstrate the deleterious effect of peptide adsorption on the quantification of fresh samples, highlight aspects of sample preparation that can minimise the effect, and suggest bioinformatic approaches to enhance the selection of peptides for quantification. BIOLOGICAL SIGNIFICANCE: Accurate quantification is central to many aspects of science, especially those examining dynamic processes or comparing molecular stoichiometries. In biological research, the quantification of proteins is an important yet challenging objective. Large-scale quantification of proteins using MS often depends on the comparison of peptide intensities with only a single-level calibrant (as in stable isotope labelling and absolute quantification approaches) or no calibrants at all (as in label-free approaches). For these approaches to be reliable, it is essential that the relationship between signal intensity and concentration is linear, without a significant intercept. Here, we show that peptide adsorption can severely affect this relationship, even under controlled conditions, and we demonstrate simple methodologies that can be used to moderate and predict this effect. These findings thus enable the quantification of proteins with increased robustness and reliability.
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spelling pubmed-36943052013-06-27 The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification() Warwood, Stacey Byron, Adam Humphries, Martin J. Knight, David J Proteomics Technical Note Peptide quantification using MS often relies on the comparison of peptide signal intensities between different samples, which is based on the assumption that observed signal intensity has a linear relationship to peptide abundance. A typical proteomics experiment is subject to multiple sources of variance, so we focussed here on properties affecting peptide linearity under simple, well-defined conditions. Peptides from a standard protein digest were analysed by multiple reaction monitoring (MRM) MS to determine peptide linearity over a range of concentrations. We show that many peptides do not display a linear relationship between signal intensity and amount under standard conditions. Increasing the organic content of the sample solvent increased peptide linearity by increasing the accuracy and precision of quantification, which suggests that peptide non-linearity is due to concentration-dependent surface adsorption. Using multiple peptides at various dilutions, we show that peptide non-linearity is related to observed retention time and predicted hydrophobicity. Whereas the effect of adsorption on peptide storage has been investigated previously, here we demonstrate the deleterious effect of peptide adsorption on the quantification of fresh samples, highlight aspects of sample preparation that can minimise the effect, and suggest bioinformatic approaches to enhance the selection of peptides for quantification. BIOLOGICAL SIGNIFICANCE: Accurate quantification is central to many aspects of science, especially those examining dynamic processes or comparing molecular stoichiometries. In biological research, the quantification of proteins is an important yet challenging objective. Large-scale quantification of proteins using MS often depends on the comparison of peptide intensities with only a single-level calibrant (as in stable isotope labelling and absolute quantification approaches) or no calibrants at all (as in label-free approaches). For these approaches to be reliable, it is essential that the relationship between signal intensity and concentration is linear, without a significant intercept. Here, we show that peptide adsorption can severely affect this relationship, even under controlled conditions, and we demonstrate simple methodologies that can be used to moderate and predict this effect. These findings thus enable the quantification of proteins with increased robustness and reliability. Elsevier 2013-06-24 /pmc/articles/PMC3694305/ /pubmed/23665148 http://dx.doi.org/10.1016/j.jprot.2013.04.034 Text en © 2013 The Authors https://creativecommons.org/licenses/by/3.0/ Open Access under CC BY 3.0 (https://creativecommons.org/licenses/by/3.0/) license
spellingShingle Technical Note
Warwood, Stacey
Byron, Adam
Humphries, Martin J.
Knight, David
The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
title The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
title_full The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
title_fullStr The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
title_full_unstemmed The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
title_short The effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
title_sort effect of peptide adsorption on signal linearity and a simple approach to improve reliability of quantification()
topic Technical Note
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC3694305/
https://www.ncbi.nlm.nih.gov/pubmed/23665148
http://dx.doi.org/10.1016/j.jprot.2013.04.034
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