Rosalind Franklin and the Structure of DNA

Three men, James Dewey Watson,  Francis Harry Compton Crick and Maurice Hugh Frederick Wilkins, shared the The Nobel Prize in Physiology or Medicine 1962 "for their discoveries concerning the molecular structure of nucleic acids and its significance for information transfer in living material.", that is, they  modeled DNA as a double helix, each strand of the helix has a backbone of  sugar molecules held together by phosphate groups. The two strands are twisted together and held together by hydrogen bonds. But how did they learn what DNA was made up of?

 This is where Rosalind Elsie Franklin enters the story of DNA. In 1951 she was a Research Associate at Kings College London where she worked on  X-ray diffraction studies with her colleague Maurice Wilkins. Her x-ray diffraction images of DNA led to the discovery of the DNA helix. The image on the left is known as "photograph 51" and was an x-ray diffraction image of DNA obtained by Franklin's Ph.D student Raymond Gosling.

X-ray diffraction is an instrumental technique used to elucidate the structure of crystals of chemical compounds. Incoming x-rays are diffracted by the crystal lattice and they exit the crystal at different angles. An x-ray crystallographer like Franklin can measure the angles and intensities of these diffracted x-rays to produce a 3-dimensional picture of the density of electrons in the crystal lattice. The electron density can then be used to determine the locations of atoms within the crystal lattice.

Without Franklin's knowledge, Maurice Wilkins showed this image to James Watson who used it, along with other evidence, to develop a model of DNA. Science historians still debate whether Franklin would have determined the structure of DNA on her own had her images not been shared with Watson.

Rosalind Franklin made important scientific contributions, not only to the discovery of the structure of DNA and RNA, but also in helping us to understand the structure of viruses, coal and graphite.
Unfortunately, Rosalind Franklin died of ovarian cancer in 1958. Nobel Prizes are not generally awarded posthumously so her contribution to the elucidation of the structure of DNA is not well-known.


Further Reading:
Chemistry of DNA
Intramolecular Forces
Intermolecular Forces

Suggested Study Questions:

1. Explain the terms crystalline and amorphous.
2. Give an example of a crystalline substance and an example of an amorphous substance.
3. Explain why DNA had to be crystallised before useful information could be obtained using x-ray diffraction.
4. What does the abbreviation DNA stand for?
5. What are the 4 principle bases that make up DNA?
6. These principle bases occur in pairs; what are these 2 pairs?
7. What kind of chemical bonds act between the atoms making up each base in a strand of DNA?
8. What kind of chemical forces join one of the bases on one strand of DNA to its corresponding pair on the other strand of DNA?
9. If you wanted to separate the 2 strands of a DNA double helix, what sort of chemical bonds would you need to break?
10. If you wanted to separated each base from the backbone of sugar molecules, what sort of chemical bonds would you need to break?