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Citations & References (3)
Thermo Scientific™
Pierce™ C18 Spin Tips & Columns
Thermo Scientific Pierce C18 Spin Columns (10–150 μL) and Spin Tips (10–100 μL) effectively remove interfering contaminants, while also maintaining excellent binding and recovery of peptide samples for use upstream of mass spectrometry and other high sensitivity detection methods.
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| Catalog Number | Quantity | Product Type |
|---|---|---|
| 87784 | 96 x 100 μL Tips | Pipette Tip |
| 89870 | 25 Columns | Column |
| 89873 | 50 Columns | Column |
| 84850 | 96 Tips | Spin Tip |
| 87782 | 96 x 10 μL Tips | Pipette Tip |
| C184850020 | 96 x 20 μL Tips | Spin Tip |
| C184850200 | 96 x 200 μL Tips | Spin Tip |
Catalog number 87784
Price (MXN)
-
Quantity:
96 x 100 μL Tips
Product Type:
Pipette Tip
C18 Spin Tips for Peptide Desalting and Cleanup
Pierce™ C18 spin tips are designed for rapid, reproducible peptide desalting, cleanup, and concentration prior to mass spectrometry analysis. Utilizing reversed-phase C18 chemistry, these tips help enable efficient peptide binding and recovery while removing salts, detergents, and other contaminants that can interfere with downstream applications.
Used in combination with Pierce Spin Tip Adaptors (Catalog No. A40011776) and low protein binding microcentrifuge tubes (Catalog No. 90410), C18 spin tips support a simple centrifugation-based workflow that delivers consistent and reliable results across a wide range of sample inputs.
Features of C18 Spin Tips
- Reliable – proven reversed-phase C18 chemistry
- Efficient – effectively removes interfering contaminants to improve spectral quality
- Streamlined – simple workflow using tip adaptor and centrifugation steps
Applications
- Peptide desalting prior to LC-MS analysis
- Cleanup following protein digestion workflows
- Removal of salts, buffers, and contaminants
- Peptide concentration and sample preparation
How to Use
C18 spin tips use a bind–wash–elute workflow performed by centrifugation. Tips are placed into a tip adaptor seated in a microcentrifuge tube for each step. Simply activate and equilibrate prior to adding your acidified sample. To enhance peptide binding repeat the sample loading step one time. Lastly, wash 2-3 times and elute into a fresh tube using an acetonitrile solution. Refer to Table 1 in the Figures for recommended buffers, volumes and spin speeds for each tip size.
For Research Use Only. Not for use in diagnostic procedures.
Specifications
Bed Volume100 μL
DescriptionPierce C-18 Tips, 100 μL bed
Final Product TypePeptides
For Use With (Equipment)Microcentrifuge, Mass Spectrometer
Quantity96 x 100 μL Tips
Workflow StepSample Clean Up
Detection MethodMass Spectrometry
FormatTip
Product LinePierce
Product TypePipette Tip
Starting MaterialPeptides, Protease-digested Protein
Unit SizeEach
Contents & Storage
Store at room temperature.
Citations & References (3)
Citations & References
Abstract
Carboxylate-Modified Magnetic Bead (CMMB)-Based Isopropanol Gradient Peptide Fractionation (CIF) Enables Rapid and Robust Off-Line Peptide Mixture Fractionation in Bottom-Up Proteomics.
Journal:Molecular & cellular proteomics : MCP
PubMed ID:33476790
Deep proteome coverage in bottom-up proteomics requires peptide-level fractionation to simplify the complex peptide mixture before analysis by tandem mass spectrometry. By decreasing the number of coeluting precursor peptide ions, fractionation effectively reduces the complexity of the sample leading to higher sample coverage and reduced bias toward high-abundance precursors that
Anti-inflammatory therapeutic biomarkers identified of human bone marrow mesenchymal stem cell therapy on aging mice by serum proteomics and peptidomics study.
Journal:Journal of proteomics
PubMed ID:37524227
Aging is accompanied by deterioration in physical condition, and creates high risks of diseases. Stem cell therapy exhibited promising potential in delaying aging. However, the unelucidated therapeutic mechanism limits future clinical application. Herein, to systematically understand the response to stem cell transfusion at the molecular level, we performed quantitative serum
An optimized co-immunoprecipitation protocol for the analysis of endogenous protein-protein interactions in cell lines using mass spectrometry.
Journal:STAR protocols
PubMed ID:35300004
This protocol represents an optimized proteomics-based protocol for the endogenous protein enrichment and protein-protein interaction analysis. This 2-step protocol consists of: 1) co-immunoprecipitation of the bait protein; 2) the bait-protein interactions analysis using LC-MS/MS. Here, we used Dynabeads® for the enrichment of the target protein (the bait) and its interactors.