1. DNA sequencing
© 2016 Paul Billiet ODWS

2. Frederick Sanger
Nobel prize for chemistry (for his work on proteins)
“Dideoxy” technique for DNA sequencing.
© 2016 Paul Billiet ODWS

3. Dideoxyribonucleic acid
DNA uses deoxyribose
To replicate DNA you need nucleotides with deoxyribose
Deoxyribonucleoside triphosphates = dNTPs
There are four types (dATP, dCTP, dGTP and dTTP)
If a modified sugar is used replication stops
Modified sugar = dideoxyribose = ddNTP
ddNTPs can be made for each of the bases (ddATP, ddCTP etc).
© 2016 Paul Billiet ODWS

4. Dideoxycytidine triphosphate (ddCTP)
© 2016 Paul Billiet ODWS

5. “Russian Roulette” replication
Extract DNA to be sequenced
Add supplies of the four dNTPs
Split sample in four tubes
Add DNA polymerase and one of the ddNTPs
Replication will stop after a random number of base pairs at the point where a ddNTP is inserted.
© 2016 Paul Billiet ODWS

6. Gel electrophoresis
ddNTP produces a test tube with a mixture of DNA molecules that are different lengths
Wherever the ddNTP of that type (A, C, T or G) is inserted
They can be separated by gel electrophoresis.
© 2016 Paul Billiet ODWS

7. ELECTROPHORESIS
The migration of electrically charged particles in colloidal solution towards the oppositely charged electrode
© 2016 Paul Billiet ODWS

8. Similar to electrolysis
CATHODE -
+ ANODE
Solution of NaCl
Na+ Cl-
CATION
ANION
© 2016 Paul Billiet ODWS

9. Gel electrophoresis of proteins and DNA
The process of electrophoresis of large molecules such as proteins and nucleic acids is carried out on gels
No water currents in gels
Correct buffering conditions can be carefully controlled
Permits high resolution separation of very small samples.
© 2016 Paul Billiet ODWS

10. DNA
DNA is analysed on agarose gels which have big spaces to allow larger molecules of DNA to separate
Each nucleotide on the DNA molecule carries a negative charge
DNA molecules only move from the negative cathode to the positive anode.
© 2016 Paul Billiet ODWS

11. DNA
As the negative charge increases with size, big DNA molecules would move more quickly
But bigger molecules move more slowly through the gel
Gives a steady and fine separation of DNA molecules by size
Molecules which differ by only one nucleotide in their length can be separated.
© 2016 Paul Billiet ODWS

12. Analysis
The analysis of the gel by staining, spectroscopy or autoradiography
This reveals bands in the gel where the DNA fragments are located
Reference molecules are run in the gel at the same time so that the molecules in the mixture can be identified.
© 2016 Paul Billiet ODWS

13. Gel electrophoresis Buffer solution Agarose Gel CATHODE - + ANODE
Wells for the mixture
DNA fregments separating by size
Marker molecule indicates the front
© 2016 Paul Billiet ODWS

14. DNA sequence Run a gel with four columns
One from each tube treated with a different type of ddNTP (A, C, T or G)
The lengths of the fragments can be compared for each of ddNTPs
Read from bottom to top (why?)
What is your sequence?
© 2016 Paul Billiet ODWS

15. Answers
Bottom is the shortest so the beginning of the sequence TACGAGATATATGGCGTTAATACGATATATTGGAACTT C
© 2016 Paul Billiet ODWS

16. Sequencing today Uses fluorescent dyes not autoradiography
One colour for each ddNTP
Faster, cheaper, safer
Automated
Sequencing whole genomes becomes a reality.
© 2016 Paul Billiet ODWS

17. Up to 30 bases per second