- Neutralization solution (solution III) is used for the isolation of plasmid DNA by alkaline lysis method.
- Neutralization solution is nothing but a potassium acetate solution which has pH 4.8.
- Addition of neutralization solution in lysed bacterial cells brings the pH back, resulting in precipitation of protein and genomic DNA.
- Both plasmid and genomic DNA renatures upon addition of neutralization buffer. While plasmid DNA renatures in correct conformation due to its circular and covalent nature, therefore, remains in the solution, genomic DNA precipitates due to random association of both the strands.
- Sodium dodecyl sulfate (SDS) of the lysis buffer reacts with Potassium acetate and form insoluble Potassium dodecyl sulfate (KDS).
- 5 M Potassium acetate (CH3CO2K) solution
- Glacial acetic acid
- Deionized / Milli-Q water
- Equipment and disposables
- Measuring cylinder
- Conical flask / Beaker
- Magnetic stirrer (optional)
- 3 M Potassium
- 5 M Acetate
Preparation of 100 ml of Neutralization solution (solution III)
Step 1: To prepare, 100 ml of Neutralization solution, take 28.5 ml of Deionized / Milli-Q water in a 100 ml measuring cylinder.
Step 2: Add 60 ml of 5 M Potassium acetate and 11.5 ml of glacial acetic acid. Mix the solution.
- Solution can be stored at room temperature in a tightly closed bottle for 1 year.
- Plasmid isolation by alkaline lysis method
Follow the table To prepare Neutralization solution of various volume (10 ml, 25 ml, 50 ml and 1,00 ml).
|Reagents / Volume||10 ml||25 ml||50 ml||100 ml|
|5 M Potassium acetate||6.0 ml||15 ml||30 ml||60 ml|
|Glacial acetate acid||1.15 ml||2.875 ml||5.75 ml||11.5 ml|
|Water||2.85 ml||7.13 ml||14.25 ml||28.5 ml|