Reagents List
|
Product Name |
Cat.NO. |
|
40801ES |
U251-siRNA Transfection Protocol
Cell Culture and Passaging (T25 Flask)
- Washing: Aspirate the old medium, add 3–4 mL of room-temperature PBS, gently swirl to rinse for 10–20 seconds, then aspirate.
- Digestion: Add 1 mL of trypsin to cover the bottom of the flask and incubate at 37°C for digestion.
- Detachment: When cells begin to separate and round up, gently pipette the trypsin up and down to dislodge the cells.
- Termination: Add 2–3 mL of complete medium to inactivate the trypsin, then pipette to resuspend and create a uniform cell suspension.
- Seeding: Transfer the suspension to a centrifuge tube, centrifuge at 200 × g for 3–5 minutes, aspirate the supernatant, resuspend the cell pellet in fresh medium, seed into new culture vessels, and add fresh medium to the required volume for continued culture.
Cell Transfection (6-well-plate)
I. Preparation
1. Cell Preparation:
- 24 hours before transfection, detach cells using trypsin, resuspend, and perform cell counting.
- Seed cells at an appropriate density into a 6-well plate with 2 mL complete growth medium per well/flask, respectively.
- The target confluency at the time of transfection should be 60%–80%.
2. Reagent Preparation:
- siRNA: Reconstitute the lyophilized powder to a stock concentration of 20 μM.
- Transfection Reagent: Allow Hieff Trans™Booster Transfection Reagent to equilibrate to room temperature before use. Mix gently by pipetting.
- Serum-free Medium: Prepare a serum-free base medium (e.g., Opti-MEM) for diluting siRNA and transfection reagent.
II. Preparation of Transfection Complexes
1. Dilute siRNA:
In a sterile microcentrifuge tube, add 125 μL of serum-free medium, followed by 5 μL of the 20 μM siRNA stock to achieve a final siRNA concentration of 50 nM. Mix thoroughly by pipetting up and down.
2. Dilute Transfection Reagent:
In a separate sterile tube, combine 125 μL of serum-free culture medium with 7.5 μL of Booster Transfection Reagent. Mix gently by pipetting.
3. Complex Formation:
Add the diluted siRNA solution to the diluted Booster solution. Mix gently by pipetting. Incubate the mixture at room temperature for 10–15 minutes to allow formation of stable siRNA–transfection reagent complexes.
III. Transfection
1. Medium Replacement: Before adding the complexes, carefully remove the old culture medium and replace it with 2 mL fresh, pre-warmed complete medium.
2. Add Complexes: Add the siRNA–Booster complexes dropwise and evenly to the cells. Gently rock the plate/flask to ensure uniform distribution.
3. Incubation: Return cells to a 37°C, 5% CO₂ incubator for culture.
IV. Post-Transfection Handling
1. Medium Replacement: At 4–6 hours after transfection, carefully examine the cell morphology.
If significant cytotoxicity is observed, aspirate the medium containing the transfection complexes and replace it with 2 mL of fresh, pre-warmed complete medium. If the cells appear healthy, medium change is not required.
(In this experiment, the medium was replaced with complete medium at 6 hours post-transfection.)
2. Analysis: After 48 hours of continued incubation, perform qPCR analysis.
Tips:
1. If significant cytotoxicity occurs, replace medium after 6 h or reduce Enhancer volume by half to mitigate toxicity.
2. If transfection efficiency is low, increasing the amount of transfection reagent may improve results.
3. For optimal performance, dilute siRNA and transfection reagent in Opti-MEM rather than DMEM.
4. The transfection system is compatible with serum and antibiotics; however, siRNA and reagent dilutions must be performed in serum- and antibiotic-free medium.
Experimental Results Analysis
siRNA was transfected into U251 glioblastoma cells using Yeasen Booster Transfection Reagent, and knockdown efficiency was evaluated by qPCR.
Figure 1. siRNA transfection in U251 cells using Yeasen Booster. Results demonstrate that Yeasen Booster enables highly efficient siRNA delivery.
Different Cell Culture Vessel Transfection Volumes (for reference only):
|
Culture vessel |
Medium Volume |
DNA Transfection |
siRNA Transfection (Final Concentration 50 nM) |
||||
|
Volume of Medium
|
Volume of Opti-MEM Complex
|
DNA(μg) |
Booster Transfection Reagent (μL) |
Transfection Enhancer (μL) |
Volume of siRNA (Initial Concentration 20 μM) |
Booster Transfection Reagent (μL) |
|
|
96-well |
100 μL |
2×5 μL |
0.1 |
0.2 |
0.2 |
0.25 μL |
0.3 |
|
48-well |
250 μL |
2×12.5 μL |
0.25 |
0.5 |
0.5 |
0.625 μL |
0.75 |
|
24-well |
500 μL |
2×25 μL |
0.5 |
1 |
1 |
1.25 μL |
1.5 |
|
12-well |
1 mL |
2×50 μL |
1 |
2 |
2 |
2.5 μL |
3 |
|
6-well |
2 mL |
2×125 μL |
2.5 |
5 |
5 |
5 μL |
7.5 |
|
60 mm |
5 mL |
2×250 μL |
5-10 |
10-20 |
10-20 |
12.5 μL |
20 |
|
10 cm |
10 mL |
2×500 μL |
15-25 |
30-50 |
30-50 |
25 μL |
40 |
|
T25 |
6 mL |
2×250 μL |
6-12 |
12-24 |
12-24 |
15 μL |
24 |
|
T75 |
15 mL |
2×750 μL |
20-40 |
40-80 |
40-80 |
37.5 μL |
60 |
[Note]: The volumes provided in this table are for reference only and are suitable for both suspension and adherent cells. For suspension cells, the test can be performed at a cell density of 0.5–1×10⁶ cells/mL. The actual amounts of DNA and Booster DNA/RNA transfection reagent should be optimized depending on cell type and other experimental conditions. It is recommended to maintain a ratio between 1:0.5 and 1:5 (DNA : Booster transfection reagent). The amount and experimental conditions for mRNA are the same as those for DNA. If the cells are particularly fragile and excessive cell death is observed, better results may be achieved by reducing the amount of enhancer by half.
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