To extract DNA from a tissue sample, you need to prepare 500 ml extraction buffe

Question

To extract DNA from a tissue sample, you need to prepare 500 ml extraction buffer. You have thefollowing components, along with water:

Stocks

3 M NaCl

10% (w/v) sodium dodecyl sulfate

20 mg/ml Proteinase K

You need your extraction buffer to contain:

Final

30 mM NaCl

0.2% (w/v) sodium dodecyl sulfate

1.5 mg/ml Proteinase K

How much of each is needed to make your extraction buffer? How much water is needed?

Amount needed:         Component:

____________            3 M NaCl

____________            10% (w/v) sodium dodecyl sulfate

____________            20 mg/ml Proteinase K

____________           water

Explanation / Answer

We shall use the dilution equation

C1*V1 = C2*V2 where C1 = concentration of stock solution, V1 = volume of stock solution, C2 = concentration of the final solution and V2 = volume of the final solution.

NaCl

(3 M)*V1 = (30 mM)*(500 mL)

====> V1 = (30 mM)*(500 mL)/(3 M) = (30 mM)*(1 M/1000 mM)*(500 mL)/(3 M) = 5 mL.

Sodium Dodecyl sulfate

(10% w/v)*V1 = (0.2% w/v)*(500 mL)

====> V1 = (0.2% w/v)*(500 mL)/(10% w/v) = 10 mL.

Proteinase K

(20 mg/mL)*V1 = (1.5 mg/mL)*(500 mL)

====> V1 = (1.5 mg/mL)*(500 mL)/(20 mg/mL) = 37.5 mL.

The volume of water required = [500 – (5 + 10 + 37.5)] mL = 447.5 mL.

The solution is prepared by adding 5 mL of 3M NaCl, 10 mL of 10% (w/v) sodium dodecyl sulfate and 37.5 mL of 20 mg/mL Proteinase K to a 500 mL volumetric flask and making up the volume to the mark with water.

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