Fluorescent Protein Research Lands Scientists Nobel Prize

Iddo Genuth writes "The Royal Swedish Academy of Sciences has announced three recipients of the Nobel Prize in Chemistry award for 2008: jointly given to Osamu Shimomura, Martin Chalfie and Roger Y. Tsien 'for the discovery and development of the green fluorescent protein, GFP' — a remarkable brightly glowing green fluorescent protein first observed in the beautiful jellyfish, Aequorea victoria, in 1962."

Damn!

[$RANDOMLUSER (804576)]

I thought my BBQ sauce was going to win the Nobel Prize for Chemistry :(

Re:Damn!

[megamerican (1073936)]

I thought my BBQ sauce was going to win the Nobel Prize for Chemistry :(

Everyone knows that BBQ sauce goes under the peace category.

Re:

[$RANDOMLUSER (804576)]

I think you're wrong. BBQ sauce has started almost as many wars as Perl.

don't give them the money

[sgt scrub (869860)]

Hold onto the cash until they successfully splice it into the mosquito's DNA. Glowing mosquito == dead mosquito!

Glofish

[PoitNarf (160194)]

I think this is the same protein used in Glofish:
http://en.wikipedia.org/wiki/GloFish [wikipedia.org]

Got some here in our tank at work, they're pretty cool to look at.

Poor link choice?

[Prune (557140)]

Why was "beautiful jellyfish" selected as the portion of the text hyperlinking to the article? I clicked on it expecting to see a beautiful jellyfish, and instead saw three humans that are not quite beautiful...

The guy who discovered the gene

[Maximum Prophet (716608)]

There was a piece on NPR this morning on the guy, Douglas Prasher, who actually discovered the gene that makes this protein. (The winners came up with a way to use his gene) His funding was cut and he's now driving a courtesy car for a car dealership in Alabama.

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[virtualXTC (609488)]

...The next prize they will receive will probably be the Ig Nobel Prize in Biology!

Well, actually considering one of it's uses, I wouldn't be suprised: glowing cats [itchmo.com]

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[ceoyoyo (59147)]

Considering the other uses underlie much of modern genetics and molecular medical research, maybe not.

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[by Anonymous Coward]

Some info posted from the Nobel webpage so that those who won't RTFA can have some idea what they're talking about:

The remarkable brightly glowing green fluorescent protein, GFP, was first observed in the beautiful jellyfish, Aequorea victoria in 1962. Since then, this protein has become one of the most important tools used in contemporary bioscience. With the aid of GFP, researchers have developed ways to watch processes that were previously invisible, such as the development of nerve cells in the brain or how cancer cells spread.

Tens of thousands of different proteins reside in a living organism, controlling important chemical processes in minute detail. If this protein machinery malfunctions, illness and disease often follow. That is why it has been imperative for bioscience to map the role of different proteins in the body.

This year's Nobel Prize in Chemistry rewards the initial discovery of GFP and a series of important developments which have led to its use as a tagging tool in bioscience. By using DNA technology, researchers can now connect GFP to other interesting, but otherwise invisible, proteins. This glowing marker allows them to watch the movements, positions and interactions of the tagged proteins.

Researchers can also follow the fate of various cells with the help of GFP: nerve cell damage during Alzheimer's disease or how insulin-producing beta cells are created in the pancreas of a growing embryo. In one spectacular experiment, researchers succeeded in tagging different nerve cells in the brain of a mouse with a kaleidoscope of colours.

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[Wiarumas (919682)]

I would also like to add that they can use different colors (other than green) so they can observe several processes at once. Pretty neat stuff.

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[ceoyoyo (59147)]

Have you seen a confocal microscopy image of a bunch of neurons, each producing a different colour? The fluorescent proteins migrate down the dendrites and mix. You get a rainbow that indicates connectivity. And it's pretty.

Re:Good for them!

[philspear (1142299)]

There was a project with the goal to make a mouse that expressed a variety of different fluorophores in it's neurons so that you could tell one neuron from another, watch active processes, and so on.

The best part is the name: the brainbow mouse

http://www.wired.com/science/discoveries/multimedia/2007/10/gallery_fluorescentneurons [wired.com]

http://bioephemera.com/2007/11/13/the-brainbow-mouse/ [bioephemera.com]

http://www.boston.com/news/globe/health_science/articles/2006/11/06/microscope_renaissance/ [boston.com]

I think some of Tsien's work is more interesting, I believe he's made some fluorophores that you can turn on and off, or convert to different colors to identify specific cells, in addition to some dyes which fluoresce only in the presence of calcium.

Re:Good for them!

[by Anonymous Coward]

GFP is without a doubt the most commonly used fluorescent tag. It's the workhorse of biological fluorescence microscopy. Given the tens of thousands of publications that have used it, the Nobel prize is certainly deserved.

One of the great things about GFP is that it is a protein. So you can engineer an organism to express GFP. In fact you can engineer the fluorescent protein to be bound to whatever protein you want, just by splicing it into the correct place in the genome. So you can basically make any protein glow. So you can track proteins implicated in cell mobility, or vision, or signaling, or cancer, or some other disease, or whatever.

With modern fluorescent microscopes, you can actually imagine GFP at the single-molecule level. So you can build movies where quite literally you can track individual protein molecules as they move inside a cell. This obviously gives a whole new insight into cellular machinery, and hence everything based on cells (e.g. life and death).

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[philspear (1142299)]

They made glowing jellyfish! The next prize they will receive will probably be the Ig Nobel Prize in Biology!

They who?!? God? The jellyfish was where the protein was discovered, then they cloned it and co-opted it for use in other things. You have it 100% backwards.

Re:Good for them!

[Hatta (162192)]

It sounds silly, but this is one of the great success stories of pure research. GFP has proved to be an absolutely astounding tool for biologists, one that we'd never have if there weren't people curious enough to ask "why does that jellyfish glow?" and people willing to fund them.

I'll cite just one example of this protein being used in a completely novel and extremely powerful way. Fluorescent proteins absorb at one wavelength and emit at another longer wavelength. They've fiddled with the GFP sequence to make yellow and red versions that have overlapping spectra. So now you can tag any two proteins of interest in a cell with GFP and YFP. Next you expose them to light that excites GFP. If the two proteins of interest are closely associated there will be an efficient transfer of energy, and you'll see lots of yellow light emitted. If the proteins of interest are not associated, you'll get mostly green light.

That's right, you can measure the average distance between two proteins with nothing more than 2 fluorescent proteins, a laser and a spectrophotometer. Not only that, but you can do it in a living cell culture, apply pharmaceuticals to the cells and track the change in real time. That's just one of the more amazing uses of GFP, and a great example of why it's so important to fund research with no obvious practical value.

Re:Good for them!

[camperdave (969942)]

The questions remaining: Can they get blue as well as green and red? Can they be injected into skin cells? Can the glow be controlled by the nervous system? Which tattoo parlour can give me my glow in the dark thought controlled, full color tattoo?

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[Markspark (969445)]

yeah.. me too, so i started looking, and a lot of the guys who received nobel prices in physics, got it for discoveries i for one consider chemistry.. such as Rayleigh, Pauli, and some others.
so i guess it evens out, and besides, there's no price for biologists. and as some wise cartoonist once put it, Biology is just applied physics http://xkcd.com/435/ [xkcd.com]

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[ceoyoyo (59147)]

When Nobel was creating the prizes biology had more in common with being a librarian than it did with what we think of as biology today.

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[morgan_greywolf (835522)]

so i guess it evens out, and besides, there's no price for biologists

Cool! Biologists are free as in beer! Can I have 10, please? Oh, and can you make them female? And cute, too.

Re:Green Eggs and Ham

[reverseengineer (580922)]

The issue is that there is no Nobel in Biology- there are Nobels in Chemistry and in Physiology or Medicine. While there have been some fascinating experiments using GFP to illuminate (sorry) processes in human cells, what these three did probably is not best categorized as a medical advance. It's been pretty common practice, especially in the last couple decades, to consider advances in biochemistry/molecular biology as eligible for the Nobel in Chemistry.

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[reverseengineer (580922)]

I wouldn't go quite that far, at least not yet. Looking at the last ten Chemistry Nobels, it's about 50-50 between molecular biology and the rest of chemistry. Last year's prize went for work in surface catalysis, 2005 went to the olefin metathesis guys, 2001 was for chiral syntheses, 2000 was for conductive polymers, 1999 was for femtosecond kinetics, and 1998 was for quantum chemistry.

I'll grant that chemistry doesn't have the big questions to solve like physics does, but there are still substantial d

Re:Well....

[MyLongNickName (822545)]

You're not even trying, are you?

Actually, he is very trying.

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[HTH NE1 (675604)]

any green glowing food coming for halloween?

Gummy Bears under blacklights?

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[idontgno (624372)]

More to the point, they're gelatinous because they're made of gelatin. Which is protein.

So substitute GFP for boiled animal joints et voila phosphorescent gummis.