Traits as diverse as the color of a person's eyes and the scent of a rose are determined by the information contained in DNA. Learn how this information is coded by strings of molecules called ...

Rosalind Franklin made a crucial contribution to ... This X-ray diffraction picture of a DNA molecule was Watson's inspiration (the pattern was clearly a helix). Using Franklin's photograph ...

In 1952, Rosalind Franklin was at King's College London investigating the atomic arrangement of DNA, using her skills as an X-ray crystallographer to create images for analysis. One of her team's ...

A previously overlooked letter and a news article that was never published, both written in 1953, add to other lines of evidence showing Rosalind Franklin was an equal contributor — not a victim — in ...

Rosalind Franklin ... At 26, Franklin had her PhD and the war was just over. She began working in x-ray diffraction -- using x-rays to create images of crystalized solids. She pioneered the ...

When it comes to her place in the history of the double helix's delineation, Rosalind Franklin has not received ... have brought her to the structure of DNA faster than Watson and Crick?

Rosalind Franklin always liked facts ... Her work is still quoted today, and helped launch the field of high-strength carbon fibers. At 26, Franklin had her PhD and the war was just over. She began ...

Rosalind Franklin played an integral role in the discovery of the structure of deoxyribonucleic acid (DNA) Scientist Rosalind Franklin would have been "totally amazed" that 100 years after her ...

Rosalind Franklin and Dorothy Hodgkin made important breakthroughs in science, including many discoveries that are vital to our lives today. Performing early X-ray analysis on the DNA molecule.