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Proper sample preparation is critical to reproducible and accurate mass spectrometry analysis results. Mass Spectrometry Core Labs strive to offer their users reliable, consistent data. We offer high quality reagents and complete, convenient kits that have been fully tested to enable optimal outcomes, from protein digestion to peptide enrichment, clean-up, and quantitation.
Workflow step | Products | |
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Rapid sample preparation | See more products | |
Abundant protein depletion | See more products | |
Protein enrichment | See more products | |
Protein digestion | See more products | |
Peptide enrichment and fractionation | See more products | |
Peptide desalting | See more products | |
Detergent removal | See more products | |
Peptide quantitation | See more products | |
QC standards | See more products | |
LC-MS solvents | See more products |
For protein quantitation applications, learn more about tandem mass tags, SILAC metabolic labeling systems, SureQuant targeted Mass Spec Assays or HeavyPeptide AQUA Custom Synthesis Service.
Figure 1. The EasyPep Mini MS Sample Prep Kit compared to a traditional protocol and another commercially available kit. The EasyPep Mini MS Sample Prep Kit provides a high peptide yield, and comparable peptide and protein identifications in cell lysates with good reproducibility.
Figure 2. Abundant protein depletion improves identification of unique proteins. Protein group identification profiles for normal human plasma samples which were (a) not depleted, or depleted using the HSA/Immunoglobulin (b) and Top14 (c) depletion resins, are shown. All samples were reduced/alkylated and digested with trypsin. Samples were analyzed by LC-MS on an Orbitrap Fusion Tribrid mass spectrometer over a 60 minute gradient using 750 ng of sample per injection (performed in triplicate). Raw files were searched against a human protein database using Thermo Scientific Proteome Discoverer 1.4 software. Non-redundant protein group identification numbers are reported for each sample type.
Figure 3. Comparison of the cleavage selectivity of MS-grade trypsin products. Five-protein mixture samples (10 μg) were digested with Pierce Trypsin Protease or Promega Trypsin Gold for 3 hr and analyzed by LC-MS using a Velos Pro Mass Spectrometer. Data analysis was performed using a Mascot search engine with “no enzyme” digestion settings. Greater than 95% cleavage selectivity for lysine and arginine (K/R) was observed for Pierce Trypsin Protease.
Figure 4. Peptide recovery of native peptides at various loads using the Pierce Peptide Desalting Spin Columns. Digested HeLa extracts (5–5,000 μg) were loaded onto Pierce Peptide Desalting Spin Columns and processed according to the protocol. Total recovered desalted peptides were estimated using the Pierce Quantitative Colorimetric Peptide Assay.
Figure 5. Sensitivity of the Pierce Quantitative Colorimetric Peptide Assay. (A) Sensitivity of Pierce Quantitative Colorimetric Peptide Assay compared to the Pierce Micro BCA Assay using BSA Digest. (B) Quantitation comparison between Pierce Quantitative Peptide Assays using 12 different cultured mammalian cell lysates.
Use this rapid mass spec sample prep kit for protein extraction, digestion and peptide clean-up in 2-4 hours.
仅供科研使用,不可用于诊断目的。