Peptide Purification: An RP-HPLC-based Technique to Extract Peptides from Digested Protein Lysates
Published: April 30, 2023
Abstract
Source: Cheng, L. C. et al. Phosphopeptide Enrichment Coupled with Label-free Quantitative Mass Spectrometry to Investigate the Phosphoproteome in Prostate Cancer. J. Vis. Exp. (2018)
In this video, we demonstrate reversed-phase high-performance liquid chromatography to purify peptides from a digested protein lysate mixture. These purified peptides are then lyophilized and stored for downstream applications. Analysis of peptides can help understand the mechanics involved in cellular signaling and cancer.
Protocol
1. Reverse Phase Extraction
- Start with a pre-digested protein lysate in a glass vial. Filter the sample by using a 15 mL 10 kDa cutoff filter. Centrifuge the sample at 3,500 x g using the swing bucket rotor (or 3,500 x g in a fixed angle rotor) at 15 °C until the retentate volume is less than 250 µL (this takes approximately 45 – 60 min). Collect the flow-through and discard the retentate.
NOTE: The experiment can be paused here. Freeze the samples at -80 °C for later use. - To acidify the sample, add approximately 20 µL of 5% trifluoroacetic acid (TFA) per mL of lysate. Mix them well and measure the sample pH by using pH strips. Adjust pH to 2.5 using 5% TFA.
- Connect the shorter end of a C-18 column to a vacuum manifold. Set the vacuum between 17 and 34 kPa (or according to the manufacturer’s instructions). Using glass pipettes, wet the column with 3 mL of 100% acetonitrile (ACN). Do not let the column dry.
- Using glass pipettes, equilibrate the column with 6 mL of 0.1% TFA applied as 2x 3 mL. Load the acidified sample into the column. Do not add more than 3 mL at a time. Adjust the vacuum to target about 1 to 2 drops per second.
- Using glass pipettes, wash the column with 9 mL of 0.1% TFA applied as 3x 3 mL. Elute the column with 2 mL of 40% ACN, 0.1% TFA. Collect two 2 mL fractions into glass culture tubes. Discard the column.
- Cover the eluate tubes with parafilm and punch 3-5 holes on the cover using a 20G needle. Freeze the eluate on dry ice for at least 30 min until it completely solidifies.
- Lyophilize the fractions overnight. On the following day, make sure the samples are completely dry before stopping the lyophilizer. Store the tubes in a 50 mL conical tube with delicate wipes at -80 °C.
Divulgations
The authors have nothing to disclose.
Materials
| Ultra-Low Temperature Freezer | Panasonic | MDF-U76V | |
| Freezer -20 °C | VWR | scpmf-2020 | |
| Swing rotor bucket | ThermoFisher Scientific | 75004377 | |
| Vacuum manifold | Restek | 26080 | |
| Lyophilizer | Labconco | 7420020 | |
| CentriVap Benchtop Vacuum Concentrator | Labconco | 7810010 | |
| Amicon Ultra-15 Centrifugal Filter Units | Millipore Sigma | UFC901024 | |
| End-over-end rotator | ThermoFisher Scientific | 415110Q | |
| Glass culture tubes | Fisher Scientific | 14-961-26 | |
| Parafilm | Fisher Scientific | 13-374-12 | |
| 20G needle | BD | B305175 | |
| Kimwipes | Fisher Scientific | 06-666A | |
| Screw cap cryotube | ThermoFisher Scientific | 379189 | |
| Nunc 15 mL conical tubes | ThermoFisher Scientific | 12-565-268 | |
| Low protein-binding Eppendorf tubes | Eppendorf | 22431081 | |
| 3 mL syringe | BD | 309657 | |
| Trifluoracetic Acid (TFA) | Fisher Scientific | PI-28904 | |
| Acetonitrile (ACN) | Fisher Scientific | A21-1 | |
| MilliQ water | Deionized water used to prepare all solutions and bufferes |
Citer Cet Article
Peptide Purification: An RP-HPLC-based Technique to Extract Peptides from Digested Protein Lysates. J. Vis. Exp. (Pending Publication), e20404, doi: (2023).