An Optimized Shotgun Strategy for the Rapid Generation of Comprehensive Human Proteomes

Bekker-Jensen, Dorte B.; Kelstrup, Christian D.; Batth, Tanveer S.; Buch-Larsen, Sara C.; Haldrup, Christa; Bramsen, Jesper B.; Sørensen, Karina Dalsgaard; Høyer, Søren; Ørntoft, Torben F.; Andersen, Claus Lindbjerg; Nielsen, Michael L.; Olsen, Jesper V.

doi:10.1016/j.cels.2017.05.009

Cited by 434 publications

(571 citation statements)

References 71 publications

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“…For example, two dimensional chromatography fractionation (8,9) and increased reverse phase column length (10,11) were reported to enhance peak capacity for proteome analyses. Improvements in quadrupole performance through higher resolution and scanning rate have enabled more efficient isolation and transmission of target ions with narrow isolation windows in turn reducing chimeric tandem mass spectra (12).…”

Section: Introductionmentioning

confidence: 99%

A Novel Differential Ion Mobility Device Expands the Depth of Proteome Coverage and the Sensitivity of Multiplex Proteomic Measurements

Pfammatter

Bonneil

McManus

et al. 2018

Molecular & Cellular Proteomics

113

142

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Section: Introductionmentioning

confidence: 99%

A Novel Differential Ion Mobility Device Expands the Depth of Proteome Coverage and the Sensitivity of Multiplex Proteomic Measurements

Pfammatter

Bonneil

McManus

et al. 2018

Molecular & Cellular Proteomics

113

142

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show abstract

“…26 Using a modified offline high-pH fractionation technique, Bekker-Jensen et al demonstrated that proteomic analysis can reach a similar depth as the next-generation RNA-seq technology. 25 These approaches reduced the complexity of peptide mixtures and enabled deep analysis of cellular proteomes. Substantial increments of instrument time and sample consumption are needed to compensate for the increased number of protein IDs, which not only reduce the throughput of the experiment, but also impede the automation of the entire procedure.…”

Section: Introductionmentioning

confidence: 99%

Surfactant and Chaotropic Agent Assisted Sequential Extraction/On-Pellet Digestion (SCAD) for Enhanced Proteomics

Liu

2018

J. Proteome Res.

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As a popular sample preparation approach, filter-aided sample preparation (FASP) has been widely used in proteomic analysis. However, several limitations have been noted, including sample loss during filtration, repetitive centrifugation steps, and the possibility of breakage of filtration membrane. Extraction bias among different sample preparation strategies presents another challenge. To overcome these limitations and address remaining challenges, we developed a novel surfactant and chaotropic agent assisted sequential extraction/on-pellet digestion (SCAD) protocol. The new strategy resulted in higher protein yield and improved peptide recovery and protein coverage compared to two conventional sample preparation methods (FASP and urea). In combination of three strategies, more than 10,000 distinct protein groups were identified with 1% FDR from MDA-MB-231 cells without any prefractionation. This in-depth proteome analysis was accomplished by optimization of protein extraction, enzymatic digestion, LC gradient, and peptide sequencing method. Ingenuity Pathways Analysis (IPA) of proteins exclusively identified in SCAD revealed several crucial signaling pathways that regulate breast cancer progression. SCAD also enabled an unbiased extraction of different categories of proteins (membrane, intracellular, nuclear) associated with tumorigenesis, which integrates the advantages of FASP and urea extraction. This novel strategy expedites comprehensive protein identification, which is applicable for biomarker discovery in various types of cancers.

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“…Such sensitivity is sufficient to detect the 2500 most abundant proteins in a single human cell 18 , which should be able to identify different states of cellular differentiation. Furthermore, unlike immunoassays that require significant amounts of development time and rely on the availability of high-quality antibodies 7,8 , cPRISM-SRM is relatively easy to implement in research laboratories with commercially available standard instruments 32 .…”

Section: Discussionmentioning

confidence: 99%

Facile carrier-assisted targeted mass spectrometric approach for proteomic analysis of low numbers of mammalian cells

et al. 2018

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There is an unmet technical challenge for mass spectrometry (MS)-based proteomic analysis of single mammalian cells. Quantitative proteomic analysis of single cells has been previously achieved by antibody-based immunoassays but is limited by the availability of high-quality antibodies. Herein we report a facile targeted MS-based proteomics method, termed cPRISM-SRM (carrier-assisted high-pressure, high-resolution separations with intelligent selection and multiplexing coupled to selected reaction monitoring), for reliable analysis of low numbers of mammalian cells. The method capitalizes on using “carrier protein” to assist processing of low numbers of cells with minimal loss, high-resolution PRISM separation for target peptide enrichment, and sensitive SRM for protein quantification. We have demonstrated that cPRISM-SRM has sufficient sensitivity to quantify proteins expressed at ≥200,000 copies per cell at the single-cell level and ≥3000 copies per cell in 100 mammalian cells. We envision that with further improvement cPRISM-SRM has the potential to move toward targeted MS-based single-cell proteomics.

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An Optimized Shotgun Strategy for the Rapid Generation of Comprehensive Human Proteomes

Cited by 434 publications

References 71 publications

A Novel Differential Ion Mobility Device Expands the Depth of Proteome Coverage and the Sensitivity of Multiplex Proteomic Measurements

A Novel Differential Ion Mobility Device Expands the Depth of Proteome Coverage and the Sensitivity of Multiplex Proteomic Measurements

Surfactant and Chaotropic Agent Assisted Sequential Extraction/On-Pellet Digestion (SCAD) for Enhanced Proteomics

Facile carrier-assisted targeted mass spectrometric approach for proteomic analysis of low numbers of mammalian cells

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