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DNA Extraction from Blood

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Presentation on theme: "DNA Extraction from Blood"— Presentation transcript:

1 DNA Extraction from Blood

2 Introduction-DNA The genomes of almost all organisms are DNA, the only exceptions being some viruses that have RNA genomes. Genomic DNA molecules constitutes the total genetic information of an organism. They are generally large, and in most organisms are organized into DNA–protein complexes called chromosomes.

3 Objectives Studying DNA is very important, which aids in disease prevention, diagnosis and treatment. The first step to study DNA is to do extraction

4 Method Regardless of the used methods, they happen to follow some common procedures aimed to achieve effective cell lysis, proteins and RNA removal, and lastly DNA precipitation. Protocol: 1. Place 3 mL of whole blood in a 15-mL falcon tube (centrifuge tube). 2. Add 12 mL of reagent A. 3. Mix on a rolling or rotating blood mixer for 4 min at room temperature (to prevent leakage, close the lid tightly). 4. Centrifuge at 3000g for 5 min at room temperature. 5. Discard supernatant without disturbing cell pellet. Remove remaining moisture by inverting the tube and blotting onto tissue paper. 6. Add 1 mL of reagent B and vortex briefly to re-suspend the cell pellet. 7. Add 250 μL of 5 M sodium chloride and mix by inverting tube several times. 8. Place tube in water bath for 15 to 20 min at 65 °C. 9. Add 2 mL of ice-cold chloroform. 10. Mix on shaker for 20 min. 11. Centrifuge at 2400g for 2 min. 12. Transfer upper phase into a clean falcon tube using a sterile pipette.

5 13. Add 2 to 3 ml of ice-cold ethanol and invert gently to allow DNA to precipitate (if a cloudy did not form, add more ethanol). 14. Using a clean Pasteur pipette spool the DNA onto the hooked end. 15. Immediately transfer to a 1.5-mL microcentrifuge tube. 16. Spin the microcentrifuge tube at 6000 rpm for about 5 minutes. 17. Gently remove the supernatant (ethanol layer) without disrupting the DNA pellets, and leave it to dry. 18. Re-suspend in 200 μL of TE buffer OR doubled distal water and label the tube. 19. As a final step in nucleic acid isolation, the yield and purity of the extracted nucleic acid may need to be determined (Lab No. 3).

6 Thank You

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