From each of the 6 fractions, ~5 μg was dissolved in 15% aqueous formic acid/5% acetonitrile prior to LC-MS/MS analysis on an Orbitrap Fusion Lumos mass spectrometer (Thermo Fisher Scientific, San Jose, CA) coupled to a Proxeon EASY-nLC 1200 liquid chromatography (LC) pump (Thermo Fisher Scientific). Peptides were fractionated on a 100-μm inner diameter microcapillary column packed with ~35 cm of Accucore resin (2.6 μm, 150 Å, ThermoFisher Scientific). For each analysis, we loaded ~1 μg onto the column. Subsequent separation and acquisition were performed as previously described5 (link),14 . Samples were analyzed in duplicate, one with advanced peak determination (ADP) activated and a second run with this option off. Both analyses used the real-time search (RTS) algorithm67 (link). Data was searched against the UniProt human database (downloaded: October, 2016).
Accucore resin
Manufactured by Thermo Fisher Scientific
Accucore resin is a high-performance chromatography sorbent designed for liquid chromatography applications. It is composed of solid, spherical particles with a defined pore structure and surface chemistry. The Accucore resin provides efficient separation and resolution of analytes in a variety of sample types.
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2 protocols using accucore resin
1
Quantitative Proteomics via LC-MS/MS
2
Quantitative Proteomic Analysis by Orbitrap MS
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All MS analyses were performed on an Oribtrap Fusion Lumos (Thermo Fisher Scientific) coupled to a Proxeon nLC-1200 ultra-high-pressure liquid chromatography (UPLC) pump (Thermo Fisher Scientific). Peptides were separated onto a packed 100 μM inner diameter column ∼35 cm of Accucore resin (2.6 μm, 150Å, Thermo Fisher Scientific), and a linear gradient of Buffer A (97.4% H2O, 2.5% ACN, 0.1% FA) to Buffer B (97.4% ACN, 2.5% H2O, 0.1% FA), consisting of 2%–23% of Buffer B over 120 min at ∼500 nl/min was used for separation. Each analysis used the MultiNotch MS3-based TMT method (McAlister et al., 2014 (link)). For analysis with the Orbitrap Fusion Lumos mass spectrometer, the scan sequence began with an MS1 spectrum collected at 50,000 orbitrap resolution with an automatic gain control (AGC) target of 4x105, max injection time of 50 ms, and mass range of 400-1500m/z, with centroid data collection. The 10 most intense ions were selected for MS2/MS3 analysis. MS2 analysis consisted of collision-induced dissociation (CID) with an AGC of 2x104, normalized collision energy (NCE) 35%, maximum injection time 120 ms, and isolation window of 0.7Da. For MS3 acquisition, the precursors were fragmented by high energy collision-induced dissociation (HCD) and analyzed via the orbitrap (AGC 1x105; NCE 65%, maximum injection time 150 ms; resolution was 50,000).
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