Haynes:PAGE: Difference between revisions
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EQUIPMENT | '''EQUIPMENT''' | ||
* Vertical gel electrophoresis chamber (e.g. Invitorgen XCell SureLock) | * Vertical gel electrophoresis chamber (e.g. Invitorgen XCell SureLock) | ||
** Note: make sure the gel cassette is compatible with the electrophoresis system | ** Note: make sure the gel cassette is compatible with the electrophoresis system | ||
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# Remove strip from the bottom of the gel to expose it. | # Remove strip from the bottom of the gel to expose it. | ||
# Secure the gel, exposed side facing the outer wall, inside the chamber. Note: If running a single gel, set up a dummy gel mold opposite the actual gel. | # Secure the gel, exposed side facing the outer wall, inside the chamber. Note: If running a single gel, set up a dummy gel mold opposite the actual gel. | ||
# '''IMPORTANT''': If using | # Use the 1x running buffer to fill the inner camber to the top (above the gel lanes). For a mini gel system, this will take about 200 mL. | ||
# '''IMPORTANT''': If using NuPAGE buffer, add 500 μL Antioxidant into the buffer in the inner chamber drop-wise, evenly over the surface of the buffer. | |||
# Next, fill the outer chamber just so that the bottom of the gel is submerged. | # Next, fill the outer chamber just so that the bottom of the gel is submerged. | ||
# Gently pull out the well comb and discard it. | # Gently pull out the well comb and discard it. | ||
# Carefully load the ladder, samples, and dummy samples using flexible skinny pipette tips. | # Carefully load the ladder, samples, and dummy samples using flexible skinny pipette tips. | ||
# Run the gel @ 120 V until the dye front reaches the very bottom. | # Run the gel @ 120 V until the dye front reaches the very bottom. | ||
'''HELPFUL RESOURCES''' | |||
* Gel setup: Video - [https://www.youtube.com/watch?v=wWFZ_Pf-hf4 Running the Gel on the XCell SureLock® system] | |||
</div> | </div> |
Revision as of 10:07, 20 March 2015
SDS-PAGE
by Karmella Haynes, 2015
Principle: Proteins are denatured and given a negative charge with a detergent (SDS), disulfide bonds are broken with a redox agent, samples are loaded to the top of a vertical gel, then separated by protein fragment size by applying an electric charge.
MATERIALS
- Protein sample buffer (e.g. NuPAGE® LDS Sample Buffer 4X)
- Redox agent - 1M DL-Dithiothreitol (DTT) (Sigma D0632-1G)
- Polyacrylamide gel (use the appropriate gel for your application)
- Bis-Tris - small to mid-size proteins
- Tris-Acetate - large proteins
- Running buffer (use the appropriate buffer for your gel)
- Bis-Tris gel - MES SDS or MOPS SDS (e.g., 20x NuPAGE® MOPS SDS Running Buffer, Life Technologies NP0001)
- Tris-Acetate gel - Tris-Acetate SDS
- Antioxidant - Only if using NuPAGE buffer, NuPAGE® Antioxidant (Life Technologies NP0005)
EQUIPMENT
- Vertical gel electrophoresis chamber (e.g. Invitorgen XCell SureLock)
- Note: make sure the gel cassette is compatible with the electrophoresis system
PROCEDURE
Prepare protein samples
- The final volume of each loaded sample is typically 20 μL. Check the specifications of the gel for well capacity.
- Add protein samples to 1.5 mL tubes. Dilute the stock proteins in an appropriate buffer. Make sure the protein sample volume = the final volume - (concentrated sample buffer volume + 1.0 μL 1M DTT)
- Example 1: 20 μL final loading volume - (5.0 μL 4x sample buffer + 1.0 μL 1M DTT) = 14.0 μL protein
- Example 1: 20 μL final loading volume - (10.0 μL 2x sample buffer + 1.0 μL 1M DTT) = 9.0 μL protein
- Calculate the number of lanes used = protein samples + protein standard(s). If this is less than the total number of lanes, prepare "dummy" samples (sample buffer + DTT + water) to fill empty wells
- Heat samples, excluding the protein standard(s), @ 100°C/ 5 min. Cool at room temp.
Prepare the gel and electrophoresis chamber
- Prepare the running buffer: dilute the buffer to make 500 mL of 1x running buffer.
- Note: 500 mL is sufficient for a mini gel system. For a larger chamber, make 1 L of 1x buffer.
- Remove strip from the bottom of the gel to expose it.
- Secure the gel, exposed side facing the outer wall, inside the chamber. Note: If running a single gel, set up a dummy gel mold opposite the actual gel.
- Use the 1x running buffer to fill the inner camber to the top (above the gel lanes). For a mini gel system, this will take about 200 mL.
- IMPORTANT: If using NuPAGE buffer, add 500 μL Antioxidant into the buffer in the inner chamber drop-wise, evenly over the surface of the buffer.
- Next, fill the outer chamber just so that the bottom of the gel is submerged.
- Gently pull out the well comb and discard it.
- Carefully load the ladder, samples, and dummy samples using flexible skinny pipette tips.
- Run the gel @ 120 V until the dye front reaches the very bottom.
HELPFUL RESOURCES
- Gel setup: Video - Running the Gel on the XCell SureLock® system