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Health
DN Bureau

Proteins guide electrons to right place

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Washington DC: Cells require energy to function. Researchers at the University of Gothenburg can now explain how energy travels through the cell by minute atomic movements to its target in the protein. Imitating the structural changes of the proteins may lead to more efficient solar cells in the future.

The sun's rays are the basis for all the energy that creates life on Earth. Photosynthesis in plants is a prime example, where solar energy is needed for the plant to grow. Special proteins absorb the sun's rays, and the energy is transported as electrons inside the protein, in a process called charge transfer. In a new study, researchers show how proteins deform to create efficient transport routes for the charges.

Guided electrons
"We studied a protein, photolyase, in the fruit fly, whose function is to repair damaged DNA. The DNA repair is powered by solar energy, which is transported in the form of electrons along a chain of four tryptophans (amino acids). The interesting discovery is that the surrounding protein structure was reshaped in a very specific way to guide the electrons along the chain," explains Sebastian Westenhoff, Professor of Biophysical Chemistry.

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The researchers noted how the changes in the structure followed precise timings in line with the transfer of the charge - important knowledge that could be used to design better solar panels, batteries or other applications that require energy transport.

Better able to imitate nature
"Evolution is nature's material development and it is always the best. What we have done is basic research. The more we understand about what happens when proteins absorb sunlight, the better we can imitate this conversion of solar energy into electricity," says Sebastian Westenhoff.

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The study, published in Nature Chemistry, is a clear step forward in the research on charge transfer in proteins. Studying the process in the fruit fly, using the Serial Femtosecond Crystallography (SFX) technique, can give researchers an insight into the dynamic interaction of the protein as the electrons move.

"This is going to open up new chapters in our understanding of life's mysteries at the molecular level," concludes Sebastian Westenhoff. (ANI)

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