2015
DOI: 10.1021/acs.jproteome.5b00100
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Third-Generation Electrokinetically Pumped Sheath-Flow Nanospray Interface with Improved Stability and Sensitivity for Automated Capillary Zone Electrophoresis–Mass Spectrometry Analysis of Complex Proteome Digests

Abstract: We have reported a set of electrokinetically pumped sheath flow nanoelectrospray interfaces to couple capillary zone electrophoresis with mass spectrometry. A separation capillary is threaded through a cross into a glass emitter. A side arm provides fluidic contact with a sheath buffer reservoir that is connected to a power-supply. The potential applied to the sheath buffer drives electro-osmosis in the emitter to pump the sheath fluid at nanoliter/minute rates. Our first generation interface placed a flat-tip… Show more

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Cited by 188 publications
(192 citation statements)
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“…To assess proteins at trace levels, various CE approaches can help enrich molecules on-column and separate them in increased peak capacity (64). New-generation interfaces that minimize/ eliminate sample dilution between CE and ESI may be used to ionize peptides more efficiently (see reviews in Ref (33,(65)(66)(67)); electrokinetically pumped sheath-flow (32,38) and sheathless (68,69) interfaces are promising designs in this direction. Based on recent successes in proteome coverage and post-translational analysis by CE (35,37,69), we expect these innovative solutions combined with new-generation FIG.…”
Section: Label-free Quantification Of Single Embryonic Cellsmentioning
confidence: 99%
See 1 more Smart Citation
“…To assess proteins at trace levels, various CE approaches can help enrich molecules on-column and separate them in increased peak capacity (64). New-generation interfaces that minimize/ eliminate sample dilution between CE and ESI may be used to ionize peptides more efficiently (see reviews in Ref (33,(65)(66)(67)); electrokinetically pumped sheath-flow (32,38) and sheathless (68,69) interfaces are promising designs in this direction. Based on recent successes in proteome coverage and post-translational analysis by CE (35,37,69), we expect these innovative solutions combined with new-generation FIG.…”
Section: Label-free Quantification Of Single Embryonic Cellsmentioning
confidence: 99%
“…A microfluidic setting extended these electrophoretic studies to higher throughput, 12 erythrocytes/min (24). Continuous developments in CE separation (29,30) and lategeneration CE nano-flow ESI interfaces (31,32) (see reviews (33,34)) accomplished high-sensitivity detection of proteomes (35,36) and labile PTMs, such as phosphorylation (37). These developments enabled femtogram (zeptomole) limit of detection (38) for protein digests from cell populations.…”
mentioning
confidence: 99%
“…HRMS-based detection of globulins was accelerated to 12 erythrocytes/min using microfluidic devices [5] and, most recently,3 4t argeted proteins contributing to hematopoiesis were detected at % 1000 cell/s throughput using mass cytometry. [6] Continuous developments in HRMS sensitivity enabled untargeted (discovery) proteomics on progressively smaller populations of cells [1c, 7] with representative successes including the identification of 2000 proteins from 2000-4000 cells from single Langerhans islands, [8] 167 proteins from 500 breast cancer cells, [1a] 109 proteins from 100 HeLa cells, [9] and most recently, % 12 000 proteins in % 50 fertilized [10] and as ingle unfertilized egg of the South African clawed frog (Xenopus laevis). [11] Using advanced microsampling and discovery HRMS, [1c, 12] neuropeptides were characterized in single molluscan [13] and arthropod neurons [12] as well as cells in the mammalian pituitary gland and Langerhans islets.…”
mentioning
confidence: 99%
“…Yet another sheath-flow interface has been reported capable of delivering coaxial sheath-liquid flow rates in the nL/min range, thereby resulting in significantly less dilution at the CZE-ESI-MS junction [61,62]. Instead of using pressure to generate coaxial sheath-liquid flow, the sheath-liquid was supplied to the junction electrokinetically, which mitigates dilution effects at the interface between CZE and ESI-MS. Reports with this setup have shown performance comparable to LC-based platforms [63].…”
Section: Coupling Of Capillary Zone Electrophoresis To Mass Spectromementioning
confidence: 84%