Ultra-Low Flow Electrospray Ionization-Mass Spectrometry for Improved Ionization Efficiency in Phosphoproteomics

Heemskerk, Anthonius A. M.; Busnel, Jean‐Marc; Schoenmaker, Bart; Derks, Rico; Klychnikov, Oleg I.; Hensbergen, Paul J.; Deelder, André M.; Mayboroda, Oleg A.

doi:10.1021/ac300641x

Cited by 90 publications

(79 citation statements)

References 33 publications

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“…In addition, the ion suppression effect detrimental for attaining high sensitivity in the LC-MS analysis of complex mixtures was shown to be less pronounced at flow rates below 20 nL/min when the LC solvents were electrosprayed using 2-3 μm i.d. emitters [57,58]. Our data demonstrate that the ion suppression still exists even at very low flow rates but the suppression effect can be further reduced by heating both the LC column and ESI tip to high temperatures.…”

Section: Resultsmentioning

confidence: 74%

Comparative studies of peak intensities and chromatographic separation of proteolytic digests, PTMs, and intact proteins obtained by nanoLC-ESI MS analysis at room and elevated temperatures

Moskovets

Ivanov

2016

Anal Bioanal Chem

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This work demonstrates that the chromatographic separation performed at highly stabilized elevated temperature results in significant improvements in sensitivity, quantitative accuracy, chromatographic resolution, and run-to-run reproducibility of nanoLC-MS analysis of complex peptides mixtures. A newly developed platform was shown to provide conditions for accurate temperature stabilization and temperature homogeneity when performing nanoLC-ESI MS analysis. We quantitatively assessed and compared the recovery of peptides and small proteins from nanoLC columns at room and elevated temperatures. We found that analyses performed at highly stabilized elevated temperatures led to improved detection sensitivity, reproducibility, and chromatographic resolution in reversed-phase LC separation of unmodified peptides (both hydrophilic and hydrophobic), post-translationally modified peptides (O-phosphorylated), and small intact proteins. The analytical benefits of elevated temperatures for qualitative and quantitative proteomic LC-MS profiling were demonstrated using mixtures of synthetic peptides, tryptic digests of mixtures of model proteins, and digested total lysates of isolated rat kidney mitochondria. The effect of elevated temperature on the ion suppression was also demonstrated. Graphical Abstract A fragment of overlaid LC retention time-m/z planar views demonstrates the improved separation performance in the analysis of a complex peptide mixture at elevated temperature. Retention time-m/z 2D peptide features detected at 60 °C (magenta) were matched and aligned with features detected at room temperature (green).

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Section: Resultsmentioning

confidence: 74%

Comparative studies of peak intensities and chromatographic separation of proteolytic digests, PTMs, and intact proteins obtained by nanoLC-ESI MS analysis at room and elevated temperatures

Moskovets

Ivanov

2016

Anal Bioanal Chem

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“…The dual pump system with selection valve allows sample to be loaded onto the column at high flow rate but then eluted at a lower flow rate that gives better ESI sensitivity [40,41] and LC performance without requiring an extensive pressure equilibration [26]. Despite these steps, the rate limiting step of analysis is preconcentration and rinsing [17,26,27].…”

Section: Resultsmentioning

confidence: 99%

Rapid Preconcentration for Liquid Chromatography–Mass Spectrometry Assay of Trace Level Neuropeptides

Zhou

Mabrouk

Kennedy

2013

J. Am. Soc. Mass Spectrom.

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Measurement of neuropeptides in the brain through in vivo microdialysis sampling provides direct correlation between neuropeptide concentration and brain function. Capillary liquid chromatography-multistage mass spectrometry (CLC-MSn) has proven effective at measuring endogenous neuropeptides in microdialysis samples. In the method, microliter samples are concentrated onto nanoliter volume packed beds before ionization and mass spectrometry analysis. The long times required for extensive preconcentration present a barrier to routine use because of the many samples that must be analyzed and instability of neuropeptides. In this study, we evaluated the capacity of 75 µm inner diameter (I.D.) capillary column packed with 10 µm reversed phase particles for increasing the throughput in CLC-MSn based neuropeptide measurement. Coupling a high injection flow rate for fast sample loading/desalting with a low elution flow rate to maintain detection sensitivity, this column was reduced analysis time from ~30 min to 3.8 min for 5 µl sample, with 3 pM limit of detection (LOD) for enkephalins and 10 pM LOD for dynorphin A1–8 in 5 µl sample. The use of isotopic labeled internal standard lowered peptide signal variation to less than 5%. This method was validated for in vivo detection of Leu and Met Enkephalin with microdialysate collected from rat globus pallidus (GP). The improvement in speed and stability makes capillary LC-MSn measurement of neuropeptides in vivo more practical.

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“…A commercially available sheathless CESI source combines high resolution separation of CE with high resolution mass spectrometry. Because there is no sample dilution, as occurs in sheath-flow systems, the sheathless interface is more sensitive [235][236][237]. We [238] and others [229,239] have demonstrated the potential of high resolution CZE coupled to high resolution MS to analyze intact complex glycoproteins.…”

Section: Introductionmentioning

confidence: 99%

Top-down proteomic analysis of protein pharmaceuticals, mixtures of protein complexes, and ribosomal protein extracts by capillary zone electrophoresis-mass spectrometry

Belov¹

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Ultra-Low Flow Electrospray Ionization-Mass Spectrometry for Improved Ionization Efficiency in Phosphoproteomics

Cited by 90 publications

References 33 publications

Comparative studies of peak intensities and chromatographic separation of proteolytic digests, PTMs, and intact proteins obtained by nanoLC-ESI MS analysis at room and elevated temperatures

Comparative studies of peak intensities and chromatographic separation of proteolytic digests, PTMs, and intact proteins obtained by nanoLC-ESI MS analysis at room and elevated temperatures

Rapid Preconcentration for Liquid Chromatography–Mass Spectrometry Assay of Trace Level Neuropeptides

Top-down proteomic analysis of protein pharmaceuticals, mixtures of protein complexes, and ribosomal protein extracts by capillary zone electrophoresis-mass spectrometry

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