A Novel LC System Embeds Analytes in Pre-formed Gradients for Rapid, Ultra-robust Proteomics

Because of low throughput and limited robustness, nano-scale liquid chromatography has been a bottleneck for advancing proteomics in biomedical research. Here, we developed and evaluated two new LC concepts—“pre-formed gradients” and “offset gradients for peptide re-focusing”—that are both implement...

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Veröffentlicht in:	Molecular & cellular proteomics 2018-11, Vol.17 (11), p.2284-2296
Hauptverfasser:	Bache, Nicolai, Geyer, Philipp E., Bekker-Jensen, Dorte B., Hoerning, Ole, Falkenby, Lasse, Treit, Peter V., Doll, Sophia, Paron, Igor, Müller, Johannes B., Meier, Florian, Olsen, Jesper V., Vorm, Ole, Mann, Matthias
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Sprache:	eng
Schlagworte:	Automation Blood Proteins - metabolism Chromatography, Liquid - methods Clinical proteomics HeLa Cells High Throughput Screening HPLC Humans Mass Spectrometry Pre-formed gradient Proteome - metabolism Proteomics - methods Robustness StageTip Technological Innovation and Resources Ultraviolet Rays
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creator	Bache, Nicolai Geyer, Philipp E. Bekker-Jensen, Dorte B. Hoerning, Ole Falkenby, Lasse Treit, Peter V. Doll, Sophia Paron, Igor Müller, Johannes B. Meier, Florian Olsen, Jesper V. Vorm, Ole Mann, Matthias
description	Because of low throughput and limited robustness, nano-scale liquid chromatography has been a bottleneck for advancing proteomics in biomedical research. Here, we developed and evaluated two new LC concepts—“pre-formed gradients” and “offset gradients for peptide re-focusing”—that are both implemented in the Evosep One instrument. We evaluated robustness with more than 2000 HeLa runs, demonstrated absence of cross-contamination with crude plasma samples, high proteome coverage by fractionated HeLa and routinely measuring more than 5000 proteins/sample in just 21 minutes. [Display omitted] Highlights •Pre-formed and offset gradients for high throughput, robustness and peptide re-focusing.•Minimal cross-contamination by disposable trap columns and partial elution.•Single shot DIA measurements achieve >5000 proteins in 21 min. To further integrate mass spectrometry (MS)-based proteomics into biomedical research and especially into clinical settings, high throughput and robustness are essential requirements. They are largely met in high-flow rate chromatographic systems for small molecules but these are not sufficiently sensitive for proteomics applications. Here we describe a new concept that delivers on these requirements while maintaining the sensitivity of current nano-flow LC systems. Low-pressure pumps elute the sample from a disposable trap column, simultaneously forming a chromatographic gradient that is stored in a long storage loop. An auxiliary gradient creates an offset, ensuring the re-focusing of the peptides before the separation on the analytical column by a single high-pressure pump. This simplified design enables robust operation over thousands of sample injections. Furthermore, the steps between injections are performed in parallel, reducing overhead time to a few minutes and allowing analysis of more than 200 samples per day. From fractionated HeLa cell lysates, deep proteomes covering more than 130,000 sequence unique peptides and close to 10,000 proteins were rapidly acquired. Using this data as a library, we demonstrate quantitation of 5200 proteins in only 21 min. Thus, the new system - termed Evosep One - analyzes samples in an extremely robust and high throughput manner, without sacrificing in depth proteomics coverage.
doi_str_mv	10.1074/mcp.TIR118.000853
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Here, we developed and evaluated two new LC concepts—“pre-formed gradients” and “offset gradients for peptide re-focusing”—that are both implemented in the Evosep One instrument. We evaluated robustness with more than 2000 HeLa runs, demonstrated absence of cross-contamination with crude plasma samples, high proteome coverage by fractionated HeLa and routinely measuring more than 5000 proteins/sample in just 21 minutes. [Display omitted] Highlights •Pre-formed and offset gradients for high throughput, robustness and peptide re-focusing.•Minimal cross-contamination by disposable trap columns and partial elution.•Single shot DIA measurements achieve >5000 proteins in 21 min. To further integrate mass spectrometry (MS)-based proteomics into biomedical research and especially into clinical settings, high throughput and robustness are essential requirements. They are largely met in high-flow rate chromatographic systems for small molecules but these are not sufficiently sensitive for proteomics applications. Here we describe a new concept that delivers on these requirements while maintaining the sensitivity of current nano-flow LC systems. Low-pressure pumps elute the sample from a disposable trap column, simultaneously forming a chromatographic gradient that is stored in a long storage loop. An auxiliary gradient creates an offset, ensuring the re-focusing of the peptides before the separation on the analytical column by a single high-pressure pump. This simplified design enables robust operation over thousands of sample injections. Furthermore, the steps between injections are performed in parallel, reducing overhead time to a few minutes and allowing analysis of more than 200 samples per day. 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Here, we developed and evaluated two new LC concepts—“pre-formed gradients” and “offset gradients for peptide re-focusing”—that are both implemented in the Evosep One instrument. We evaluated robustness with more than 2000 HeLa runs, demonstrated absence of cross-contamination with crude plasma samples, high proteome coverage by fractionated HeLa and routinely measuring more than 5000 proteins/sample in just 21 minutes. [Display omitted] Highlights •Pre-formed and offset gradients for high throughput, robustness and peptide re-focusing.•Minimal cross-contamination by disposable trap columns and partial elution.•Single shot DIA measurements achieve >5000 proteins in 21 min. To further integrate mass spectrometry (MS)-based proteomics into biomedical research and especially into clinical settings, high throughput and robustness are essential requirements. They are largely met in high-flow rate chromatographic systems for small molecules but these are not sufficiently sensitive for proteomics applications. Here we describe a new concept that delivers on these requirements while maintaining the sensitivity of current nano-flow LC systems. Low-pressure pumps elute the sample from a disposable trap column, simultaneously forming a chromatographic gradient that is stored in a long storage loop. An auxiliary gradient creates an offset, ensuring the re-focusing of the peptides before the separation on the analytical column by a single high-pressure pump. This simplified design enables robust operation over thousands of sample injections. Furthermore, the steps between injections are performed in parallel, reducing overhead time to a few minutes and allowing analysis of more than 200 samples per day. From fractionated HeLa cell lysates, deep proteomes covering more than 130,000 sequence unique peptides and close to 10,000 proteins were rapidly acquired. Using this data as a library, we demonstrate quantitation of 5200 proteins in only 21 min. 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Here, we developed and evaluated two new LC concepts—“pre-formed gradients” and “offset gradients for peptide re-focusing”—that are both implemented in the Evosep One instrument. We evaluated robustness with more than 2000 HeLa runs, demonstrated absence of cross-contamination with crude plasma samples, high proteome coverage by fractionated HeLa and routinely measuring more than 5000 proteins/sample in just 21 minutes. [Display omitted] Highlights •Pre-formed and offset gradients for high throughput, robustness and peptide re-focusing.•Minimal cross-contamination by disposable trap columns and partial elution.•Single shot DIA measurements achieve >5000 proteins in 21 min. To further integrate mass spectrometry (MS)-based proteomics into biomedical research and especially into clinical settings, high throughput and robustness are essential requirements. They are largely met in high-flow rate chromatographic systems for small molecules but these are not sufficiently sensitive for proteomics applications. Here we describe a new concept that delivers on these requirements while maintaining the sensitivity of current nano-flow LC systems. Low-pressure pumps elute the sample from a disposable trap column, simultaneously forming a chromatographic gradient that is stored in a long storage loop. An auxiliary gradient creates an offset, ensuring the re-focusing of the peptides before the separation on the analytical column by a single high-pressure pump. This simplified design enables robust operation over thousands of sample injections. Furthermore, the steps between injections are performed in parallel, reducing overhead time to a few minutes and allowing analysis of more than 200 samples per day. 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subjects	Automation Blood Proteins - metabolism Chromatography, Liquid - methods Clinical proteomics HeLa Cells High Throughput Screening HPLC Humans Mass Spectrometry Pre-formed gradient Proteome - metabolism Proteomics - methods Robustness StageTip Technological Innovation and Resources Ultraviolet Rays
title	A Novel LC System Embeds Analytes in Pre-formed Gradients for Rapid, Ultra-robust Proteomics
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