Nobel Winners 2008 BBC

Nobel Prize in Chemistry 2008

F Video 2 of 5 L
Views: 1,218
Added: 13 years ago.
Watch Part Number: 1 | 2 | 3 | 4 | 5 |

Video Description

“for the discovery and development of the green fluorescent protein, GFP”

Osamu Shimomura, 1/3 of the prize

Born: 1928

Birthplace: Japan


Japanese citizen

Current position:

Professor Emeritus, Marine

Biological Laboratory (MBL),

Woods Hole, Massachusetts,

USA, and Boston

University Medical School,

Massachusetts, USA

Martin Chalfie, 1/3 of the prize

Born: 1947

Birthplace: United States


US citizen

Current position:

William R. Kenan Jr

Professor of Biological

Sciences, Columbia

University, New York,

New York, USA

Roger Y. Tsien, 1/3 of the prize

Born: 1952

Birthplace: United States


US citizen

Current position:

Professor, University of

California, San Diego,

La Jolla, California, USA


The discoveries awarded the one-hundredth Nobel Prize in Chemistry are a shining example of how fundamental research in one area of science can sometimes lead to highly beneficial applications in another. In this case, finding the key to how a marine organism produces light unexpectedly ended-up providing researchers with a powerful array of tools with which to visualise cell biology in action.

The story begins with Osamu Shimomura’s research into the phenomenon of bioluminescence, in which chemical reactions within living organisms give off light. While studying a glowing jellyfish in the early 1960s he isolated a bioluminescent protein that gave off blue light. But the jellyfish glowed green. Further studies revealed that the protein’s blue light was absorbed by a second jellyfish protein, later called green fluorescent protein (GFP), which in turn re-emitted green light. The ability of GFP to process blue light to green (its fluorescence) was found to be integral to its structure, occurring without the need for any accompanying factors.

In 1988, Martin Chalfie heard about GFP for the first time, and realised that its ability for independent fluorescence could perhaps make it an ideal cellular beacon for the model organisms he studied. Using molecular biological techniques, Chalfie succeeded in introducing the gene for GFP into the DNA of the small, almost transparent worm Caenorhabditis elegans. GFP was produced by the cells, giving off its green glow without the need for the addition of any extra components, and without any indication of causing damage to the worms. Subsequent work showed that it was possible to fuse the gene for GFP to genes for other proteins, opening-up a world of possibilities for tracking the localisation of specific proteins in living organisms. The opportunities offered by GFP were immediately obvious to many, as was the desirability of extending the range of available tags. Roger Tsien first studied precisely how GFP’s structure produces the observed green fluorescence, and then used this knowledge to tweak the structure to produce molecules that emit light at slightly different wavelengths, which gave tags of different colours. In time, his group added further fluorescent molecules from other natural sources to the tag collection, which continues to expand. Complex biological networks can now be labelled in an array of different colours, allowing visualisation of a multitude of processes previously hidden from view.


Documentary Description

A five parts documentary about the laureates in the 2008 Nobel Prize for Physics, Chemistry, Medicine, Economics and Literature


There are no comments. Be the first to post one.
  Post comment as a guest user.
Click to login or register:
Your name:
Your email:
(will not appear)
Your comment:
(max. 1000 characters)
Are you human? (Sorry)