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Spokane, Washington  Est. May 19, 1883

Nobel Prize honors method revealing details of molecules

Richard Henderson, one of the 2017 Nobel Prize winners in Chemistry, holds a bacterio rhodopsin model prior to a press conference at the Laboratory of Molecular Biology in Cambridge, England, Wednesday, Oct. 4, 2017. (Frank Augstein / Associated Press)
By Jim Heintz and David Keyton Associated Press

STOCKHOLM – Three researchers based in the U.S., U.K. and Switzerland won the Nobel Prize in Chemistry on Wednesday for developing a way to create exquisitely detailed images of the molecules driving life – a technology that the Nobel committee said allows scientists to visualize molecular processes they had never previously seen.

The $1.1 million prize is shared by Switzerland’s Jacques Dubochet of the University of Lausanne, German-born U.S. citizen Joachim Frank at New York’s Columbia University and Briton Richard Henderson of MRC Laboratory of Molecular Biology in Cambridge, England.

The Royal Swedish Academy of Sciences said their method, called cryo-electron microscopy, allows researchers to “freeze biomolecules” mid-movement. That technology is akin to “the Google Earth for molecules,” said American Chemical Society president Allison Campbell.

“This discovery allows the scientist to zoom in down to the fine detail (giving) that fine resolution that you want to have,” she told the Associated Press. “Having all the exquisite detail just gives you a wealth of information about that protein molecule and how it is interacting with its environment.”

Nobel chemistry committee member Heiner Linke added: “It’s the first time that we can see biological molecules in their natural environment and how they actually work together down to the individual atoms.”

The Nobel committee praised the technology for being “decisive for both the basic understanding of life’s chemistry and for the development of pharmaceuticals.”

For instance, the academy said the technique was used when scientists began suspecting the Zika virus was causing the epidemic of brain-damaged children in Brazil. Images of the virus allowed researchers to “start searching for potential targets” for Zika drugs.

Just a few years ago, electron microscope images of proteins resembled blobs. Now they can show intricately intertwined strands.

Frank said he was “fully overwhelmed” and speechless upon hearing he had won.

“I thought the chances of a Nobel Prize were minuscule because there are so many other innovations and discoveries that happen almost every day,” he said.

He said he hasn’t yet thought about what to do with the prize money, but added: “I was telling my wife that we don’t have to worry about a dog sitter anymore.”

Speaking in Cambridge, England, Henderson said he felt “the three of us have been awarded the prize acting on behalf of the entire field.”

Electron microscopes once were thought to be useful only for examining nonliving material because the electron beam destroys biological material. But cryo-technology – freezing material at extremely low temperatures – protected the examined material from damage.

Dubochet’s contribution was to freeze the water in the sample being examined so quickly that it vitrified – forming a kind of glass rather than ice, whose crystalline structure disrupted the electron beam used to make an image.

Frank developed mathematical models to sharpen fuzzy electron microscope images and Henderson, in 1990, was able to generate a 3-D image of a protein at atom-level resolution.

Dubochet “worked to essentially start it, kicked off the field; he invented this method of making specimens we now use,” Henderson said.

The annual prize rewards researchers for major advances in studying the infinitesimal bits of material that are the building blocks of life.

Recent prizes have gone to scientists who developed molecular “machines” – molecules with controllable motions – and who mapped how cells repair damaged DNA, leading to improved cancer treatments.

It’s the third Nobel announced this week.

The medicine prize went to three Americans studying circadian rhythms: Jeffrey C. Hall, Michael Rosbash and Michael W. Young. The physics prize went to Rainer Weiss, Barry Barish and Kip Thorne for detecting gravitational waves.

The literature winner will be named Thursday and the peace prize will be announced Friday.