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Serum/Plasma Proteomics

Overview of attention for book
Cover of 'Serum/Plasma Proteomics'

Table of Contents

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    Book Overview
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    Chapter 1 Direct Assessment of Plasma/Serum Sample Quality for Proteomics Biomarker Investigation
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    Chapter 2 A Protocol for the Preparation of Cryoprecipitate and Cryo-depleted Plasma for Proteomic Studies
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    Chapter 3 Preparation of Platelet Concentrates for Research and Transfusion Purposes
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    Chapter 4 Bead-Based and Multiplexed Immunoassays for Protein Profiling via Sequential Affinity Capture
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    Chapter 5 Affinity Proteomics for Fast, Sensitive, Quantitative Analysis of Proteins in Plasma
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    Chapter 6 Characterization of the Low-Molecular-Weight Human Plasma Peptidome
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    Chapter 7 In-Depth, Reproducible Analysis of Human Plasma Using IgY 14 and SuperMix Immunodepletion
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    Chapter 8 Low-Molecular-Weight Plasma Proteome Analysis Using Top-Down Mass Spectrometry
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    Chapter 9 Identification of Post-Translational Modifications from Serum/Plasma by Immunoaffinity Enrichment and LC-MS/MS Analysis Without Depletion of Abundant Proteins
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    Chapter 10 Identification of Core-Fucosylated Glycoproteome in Human Plasma
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    Chapter 11 Proteomic Analysis of Blood Extracellular Vesicles in Cardiovascular Disease by LC-MS/MS Analysis
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    Chapter 12 Targeted Approach for Proteomic Analysis of a Hidden Membrane Protein
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    Chapter 13 Red Blood Cells in Clinical Proteomics
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    Chapter 14 High-Throughput Quantitative Lipidomics Analysis of Nonesterified Fatty Acids in Plasma by LC-MS
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    Chapter 15 Simultaneous Enrichment of Plasma Extracellular Vesicles and Glycoproteome for Studying Disease Biomarkers
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    Chapter 16 Lipidomics of Human Blood Plasma by High-Resolution Shotgun Mass Spectrometry
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    Chapter 17 Proteomics Analysis of Circulating Serum Exosomes
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    Chapter 18 High-Density Serum/Plasma Reverse Phase Protein Arrays
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    Chapter 19 Antibody Colocalization Microarray for Cross-Reactivity-Free Multiplexed Protein Analysis
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    Chapter 20 Surface Profiling of Extracellular Vesicles from Plasma or Ascites Fluid Using DotScan Antibody Microarrays
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    Chapter 21 Serum Profiling for Identification of Autoantibody Signatures in Diseases Using Protein Microarrays
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    Chapter 22 Quantitative Comparisons of Large Numbers of Human Plasma Samples Using TMT10plex Labeling
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    Chapter 23 Efficient Quantitative Comparisons of Plasma Proteomes Using Label-Free Analysis with MaxQuant
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    Chapter 24 Blood and Plasma Proteomics: Targeted Quantitation and Posttranslational Redox Modifications
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    Chapter 25 SWATH Mass Spectrometry for Proteomics of Non-Depleted Plasma
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    Chapter 26 Shotgun and Targeted Plasma Proteomics to Predict Prognosis of Non-Small Cell Lung Cancer
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    Chapter 27 High-Throughput Parallel Proteomic Sample Preparation Using 96-Well Polyvinylidene Fluoride (PVDF) Membranes and C18 Purification Plates
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    Chapter 28 Targeted Quantification of the Glycated Peptides of Human Serum Albumin
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    Chapter 29 Absolute Quantification of Middle- to High-Abundant Plasma Proteins via Targeted Proteomics
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    Chapter 30 A Highly Automated Shotgun Proteomic Workflow: Clinical Scale and Robustness for Biomarker Discovery in Blood
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    Chapter 31 Mass Spectrometry-Based Serum Proteomics for Biomarker Discovery and Validation
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    Chapter 32 Metabolomics Toward Biomarker Discovery
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    Chapter 33 Plasma Biomarker Identification and Quantification by Microparticle Proteomics
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    Chapter 34 Bronchoalveolar Lavage: Quantitative Mass Spectrometry-Based Proteomics Analysis in Lung Diseases
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    Chapter 35 Protein Multiplexed Immunoassay Analysis with R
Attention for Chapter 6: Characterization of the Low-Molecular-Weight Human Plasma Peptidome
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Chapter title
Characterization of the Low-Molecular-Weight Human Plasma Peptidome
Chapter number 6
Book title
Serum/Plasma Proteomics
Published in
Methods in molecular biology, July 2017
DOI 10.1007/978-1-4939-7057-5_6
Pubmed ID
28674878
Book ISBNs
978-1-4939-7056-8, 978-1-4939-7057-5
Authors

David W. Greening, Richard J. Simpson, Greening, David W., Simpson, Richard J.

Editors

David W. Greening, Richard J. Simpson

Abstract

The human plasma proteome represents an important secreted sub-proteome. Proteomic analysis of blood plasma with mass spectrometry is a challenging task. The high complexity and wide dynamic range of proteins as well as the presence of several proteins at very high concentrations complicate the profiling of the human plasma proteome. The peptidome (or low-molecular-weight fraction, LMF) of the human plasma proteome is an invaluable source of biological information, especially in the context of identifying plasma-based markers of disease. Peptides are generated by active synthesis and proteolytic processing, often yielding proteolytic fragments that mediate a variety of physiological and pathological functions. As such, degradomic studies, investigating cleavage products via peptidomics and top-down proteomics in particular, have warranted significant research interest. However, due to their molecular weight, abundance, and solubility, issues with identifying specific cleavage sites and coverage of peptide fragments remain challenging. Peptidomics is currently focused toward comprehensively studying peptides cleaved from precursor proteins by endogenous proteases. This protocol outlines a standardized rapid and reproducible procedure for peptidomic profiling of human plasma using centrifugal ultrafiltration and mass spectrometry. Ultrafiltration is a convective process that uses anisotropic semipermeable membranes to separate macromolecular species on the basis of size. We have optimized centrifugal ultrafiltration (cellulose triacetate membrane) for plasma fractionation with respect to buffer and solvent composition, centrifugal force, duration, and temperature to facilitate recovery >95% and enrichment of the human plasma peptidome. This method serves as a comprehensive and facile process to enrich and identify a key, underrepresented sub-proteome of human blood plasma.

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The data shown below were compiled from readership statistics for 25 Mendeley readers of this research output. Click here to see the associated Mendeley record.

Geographical breakdown

Country Count As %
Unknown 25 100%

Demographic breakdown

Readers by professional status Count As %
Researcher 6 24%
Other 4 16%
Student > Ph. D. Student 4 16%
Student > Master 2 8%
Professor 1 4%
Other 2 8%
Unknown 6 24%
Readers by discipline Count As %
Biochemistry, Genetics and Molecular Biology 5 20%
Chemistry 4 16%
Agricultural and Biological Sciences 2 8%
Pharmacology, Toxicology and Pharmaceutical Science 1 4%
Unspecified 1 4%
Other 4 16%
Unknown 8 32%

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