Standard Operating Procedure (SOP) for Bis-Tris Polyacrylamide Gel Electrophoresis (SDS-PAGE)
Standard Operating Procedure (SOP) for Bis-Tris Polyacrylamide Gel Electrophoresis (SDS-PAGE)
1. Experimental Apparatus
ØMeasuring and glassware: Graduated cylinders (100 mL, 500 mL, 1000 mL), volumetric flasks (100 mL), beakers, glass rods.
ØStorage and sampling containers: Reagent bottles (500 mL, 1000 mL), amber bottles (250 mL, 500 mL), centrifuge tubes (1.5 mL, 15 mL, 50 mL), amber centrifuge tubes (for aliquoting TEMED), plastic wrap/sealing bags.
ØElectrophoresis and gel-casting components: Vertical electrophoresis system (including power supply and tank), gel-casting glass plates (spacer plates of 0.75/1.0/1.5 mm thickness, short plates), and supporting frames.
ØPipetting tools: Micropipettes and compatible tips (10 μL, 200 μL, 1 mL, 5 mL).
ØFiltration and cleaning materials: Filter paper, lint-free wipes.
ØMeasuring/instrumentation: pH meter, analytical balance, vortex mixer.
2. Experimental Reagents
Ø32% Acrylamide/Bis-acrylamide Solution (Acr-Bis)
Component | Amount | Final Concentration |
Acrylamide (MW: 71.08) | 30 g | 30% |
N,N′-Methylenebisacrylamide (MW: 154.17) | 2 g | 2% |
To 100 mL | ||
Preparation (100 mL):
①Weigh 30.00 g of acrylamide and 2.00 g of N,N′-methylenebisacrylamide into a 100 mL beaker.
②Add 50 mL ultrapure water and stir magnetically until fully dissolved.
③Transfer the solution into a 100 mL graduated cylinder and make up to 100.0 mL with ultrapure water; mix gently to homogenize.
④Filter through paper (or 0.45 μm membrane), transfer to an amber bottle, store at 4°C in the dark. Recommended shelf life: 1–2 months.
Ø3.5× Bis-Tris Gel Buffer
Component | Quantity | Final Concentration (1×) |
Bis-Tris (MW: 209.24) | 2.616 g | 35 mM |
To 100 mL | ||
Preparation (100 mL):
①Weigh 2.616 g Bis-Tris into a 100 mL beaker.
②Add 50 mL deionized water and stir magnetically until fully dissolved.
③Adjust pH to 6.5–6.8 dropwise with concentrated HCl while monitoring pH.
④Transfer into a 100 mL graduated cylinder, make up to 100.0 mL with deionized water, filter, aliquot, seal, and store at 4°C.
Ø10% Ammonium Persulfate (APS) and Tetramethylethylenediamine (TEMED)
ØElectrophoresis Buffers (20× MES Running Buffer, 20× MOPS Running Buffer)
(1) 20× MES Running Buffer (for proteins <20 kDa)
Component | Quantity | Final Concentration (1×) |
MES·H₂O (MW: 213.25) | 213 g | 50 mM |
Tris (MW: 121.14) | 121.14 g | 50 mM |
EDTA·2Na·2H₂O (MW: 372.24) | 7.44 g | 1 mM |
SDS (MW: 288.38) | 20 g | 0.1% |
To 1000 mL | ||
pH7.3
Preparation (1000 mL):
①Weigh and add sequentially: MES·H₂O 213.0 g, Tris 121.14 g, EDTA·2Na·2H₂O 7.44 g, and SDS 20.00 g into a 1000 mL beaker.
②Add 600 mL deionized water and stir until fully dissolved.
③Transfer to a 1000 mL graduated cylinder and bring to volume with deionized water. pH adjustment not required.
④Aliquot, seal, and store at 4°C.
(2) 20× MOPS Running Buffer (for proteins >20 kDa)
Component | Quantity | Final Concentration (1×) |
MOPS (MW: 209.26) | 209.26 g | 50 mM |
Tris (MW: 121.14) | 121.14 g | 50 mM |
EDTA·2Na·2H₂O (MW: 372.24) | 7.44 g | 1 mM |
SDS (MW: 288.38) | 20 g | 0.1% |
To 1000 mL | ||
pH7.7
Preparation (1000 mL):
①Weigh and add into a 1000 mL beaker: MOPS 209.26 g, Tris 121.14 g, EDTA·2Na·2H₂O 7.44 g, and SDS 20.00 g.
②Add 600 mL deionized water, stir until dissolved.
③Transfer to a 1000 mL graduated cylinder, make up to volume with deionized water. pH adjustment not required.
④Aliquot, seal, and store at 4°C.
(3) Gel Composition Tables (1.5 mm thick gels)
| 8% | 12% | ||||||
Resolving Gel | 1gel | 2gels | 4gels | 6gels | 8gels | 1gel | 2gels | 4gels |
3.7 ml | 7.4 ml | 14.8 ml | 22.2 ml | 29.6 ml | 2.7 ml | 5.4 ml | 10.8 ml | |
3.5× Bis-Tris buffer | 2.3 ml | 4.6 ml | 9.2 ml | 13.8 ml | 18.4 ml | 2.3 ml | 4.6 ml | 9.2 ml |
32% Acrylamide stock | 2.0 ml | 4.0 ml | 8.0 ml | 12 ml | 16 ml | 3.0 ml | 4.0 ml | 8.0 ml |
10% APS | 75 µl | 150 µl | 300 µl | 450 µl | 600 µl | 50 µl | 100 µl | 200 µl |
5 µl | 10 µl | 20 µl | 30 µl | 40 µl | 3 µl | 6 µl | 12 µl | |
Total Volume | 8 ml | 16 ml | 32 ml | 48 ml | 64 ml | 8 ml | 16 ml | 32 ml |
Stacking Gel | 1gel | 2gels | 4gels | 6gels | 8gels |
1.76 ml | 3.52 ml | 7.04 ml | 10.56 ml | 14.08 ml | |
3.5× Bis-Tris buffer | 0.86 ml | 1.72 ml | 3.44 ml | 5.16 ml | 6.88 ml |
32% Acrylamide stock | 0.38 ml | 0.76 ml | 1.52 ml | 2.28 ml | 3.04 ml |
10% APS | 20 µl | 40 µl | 80 µl | 120 µl | 160 µl |
4 µl | 8 µl | 16 µl | 24 µl | 32 µl | |
Total Volume | 3 ml | 6 ml | 12 ml | 18 ml | 24 ml |
Note: Total volume refers to main components; APS and TEMED are added separately and not included in the total.
Ø4× LDS Loading Buffer
Component | Quantity | Final Concentration (1×) |
Tris·HCl (MW: 157.20) | 666 mg | 106 mM |
Tris (MW: 121.14) | 683 mg | 141 mM |
LDS (MW: 272.33) | 800 mg | 2% (w/v) |
EDTA·2Na·2H₂O (MW: 372.24) | 7.59 mg | 0.51 mM |
Glycerol (MW: 92.09) | 4.0 g | 10% (w/v) |
Coomassie Brilliant Blue G-250 (MW: 854.04) | 7.52 mg | 0.22 mM |
Phenol Red (MW: 354.38) | 2.48 mg | 0.175 mM |
To 10 mL | ||
Preparation (10 mL):
①Add sequentially: Tris·HCl 0.666 g, Tris 0.683 g, LDS 0.800 g, EDTA·2Na·2H₂O 7.59 mg, and glycerol 4.000 g.
②Add 7.52 mg Coomassie Brilliant Blue G-250 and 2.48 mg Phenol Red; dissolve completely.
③Add deionized water to ~8–9 mL, dissolve fully, then make up to 10.0 mL; vortex to mix.
④Aliquot 1.0 mL per 1.5 mL microcentrifuge tube, store at 4°C; valid for 6 months.
Sample Preparation
Reagent | Reduced Sample | Non-reduced Sample |
Sample | X μL | X μL |
4× LDS Loading Buffer | 2.5 μL | 2.5 μL |
1 μL | — | |
Deionized water | To make total volume 6.5 μL | To make total volume 7.5 μL |
Total Volume | 10 μL | 10 μL |
3. Polyacrylamide Gel Preparation
(1) Gel Mold Preparation
①Select glass plates of suitable thickness and size (with matching spacers).
②Wash thoroughly with neutral detergent to remove grease/residue, rinse with water, and air dry.
③Degrease evenly with 75% (v/v) ethanol, rinse again with distilled/deionized water, and dry completely in a dust-free environment.
④Before use, wipe contact surfaces with lint-free paper to remove fingerprints and particles.
⑤Assemble according to manufacturer instructions; check spacer orientation and seal integrity, ensure uniform clamping pressure, and perform a quick leak test with water before casting.
(2) Casting the Resolving Gel
①In a 50 mL centrifuge tube, sequentially add ultrapure water, 32% Acr-Bis solution, and 3.5× Bis-Tris buffer; mix gently until homogeneous.
②Add freshly prepared 10% APS and TEMED, and mix thoroughly but quickly.
③Using a 5 mL pipette, slowly pour the resolving gel solution along the inner wall of the glass plate; stop at ~1.5 cm below the top of the short plate (approximately 3.75 mL for a 6×8 cm, 1.5 mm gel).
④Overlay the gel surface with ~1 cm distilled water to level the interface and exclude air.
⑤Allow to polymerize for 20–40 min; once a clear interface forms between the gel and water, polymerization is complete. Discard the overlayer, tilt the plate, and remove residual water with filter paper.
(3) Casting the Stacking Gel
①In a 50 mL centrifuge tube, sequentially add ultrapure water, 32% Acr-Bis solution, and 3.5× Bis-Tris buffer; mix gently until homogeneous.
②Add freshly prepared 10% APS and TEMED; mix rapidly and thoroughly.
③Slowly pour the stacking gel solution along the inner plate wall up to near the top edge; insert the comb vertically to form wells. Allow to polymerize for 10–20 min at room temperature.
④Once polymerization is complete, use the gel within 30 min; if storage is required, seal the gel with glass plates in a self-sealing bag and store at 4°C (optionally adding a small amount of distilled water to maintain humidity).
⑤Before use, place the gel (with plates) into the electrophoresis tank, add running buffer, and gently remove the comb; prepare for loading.
(4) Practical Tips
①For mini gels, use 15 mL or 50 mL centrifuge tubes as mixing vessels; mix by gentle tube rotation or by pipetting up and down repeatedly.
②For larger volumes, use an appropriately sized beaker and mix thoroughly with a glass stir rod.
③Minimize bubbles regardless of the mixing method. If small bubbles form, allow them to rise along the wall and dissipate before casting the gel.
4. Protein Electrophoresis
(1) Sample Preparation
①Preheat the water bath or dry metal block to 70–100°C.
②Transfer the required volume of protein samples into 1.5 mL microcentrifuge tubes, label and record order.
③Add the sample buffer in the specified ratio, mix gently until homogeneous.
④Heat the samples at 70–100°C for 5 min.
⑤Cool to room temperature and briefly centrifuge (10–30 s) to collect condensate.
⑥Arrange samples in order and prepare for loading.
(2) Electrophoresis Operation
①Mount the gel (wells facing up) into the electrophoresis cell; add running buffer to both inner and outer chambers — ensure the outer buffer covers the electrodes/platinum wire and the inner buffer fully submerges the wells.
②Carefully and slowly remove the comb vertically. Before loading, aspirate and flush each well several times with a small amount of buffer to remove residual gel or bubbles.
③Load samples with a micropipette in the designated order, recording sample sequence and volume.
④Set constant voltage at 120 V and begin electrophoresis. Stop when the phenol red dye front reaches the bottom of the gel. Adjust run time based on the molecular weight of target proteins.
(3) Operational Notes
① Prefer using gel-loading pipette tips to ensure complete and accurate delivery of samples into the wells.
② Control the loading volume to avoid overloading or spilling into adjacent wells, which can cause band interference.
③ Do not insert the pipette tip too deeply — avoid touching the bottom of the well to prevent band distortion; likewise, avoid staying too high above the well to prevent sample diffusion into the buffer.
④ Complete sample loading continuously to minimize the residence time of samples in the wells and reduce the risk of diffusion.
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