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Scientists like to actually see the things they research. But this isn't always possible.

Scientists like to actually see the things they research. But this isn't always possible. Source: Clipart ETC. Most of what we see is larger than the wavelength of visible light. Scientists occasionally want to study things that are smaller than the wavelength of visible light.

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Scientists like to actually see the things they research. But this isn't always possible.

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  1. Scientists like to actually see the things they research. But this isn't always possible. Source:Clipart ETC

  2. Most of what we see is larger than the wavelength of visible light. Scientists occasionally want to study things that are smaller thanthe wavelength of visible light. Wavelength of ultraviolet light: 400 nanometers One nanometer = one millionth of a millimeter Source:Wikipedia

  3. That was the case with the ribosome that Nobel Prize laureate Prof. Ada Yonath wanted to explore. The diameter of a ribosome is about 20 nanometers, which is approximately 20 times smaller than the ultraviolet wavelength. Wavelength of ultraviolet light: 400 nanometers One nanometer = one millionth of a millimeter

  4. To "see" the internal structure of bodies the size of a ribosome, scientists often expose them to x-rays. This reveals the location of single atoms. The wavelength of x-rays is about 20 times smaller than the diameter of ribosomes. Source: NASA

  5. The ribosome is a key component of living cells. Source: Wikipedia

  6. Living cells have a single nucleus and thousands of ribosomes. Source:Wikipedia

  7. Ribosomes translate the genetic information within the cell's nucleus into a process for producing proteins. SourceWikipedia

  8. Proteins are huge molecules, structured like folding chains and composed of a sequence of amino acids. Source: Wikipedia

  9. Proteins are one of the most important compounds that make up living organisms. They are found in every living cell. Ribosomes themselves are composed, in part, of proteins Source:Clipart ETC

  10. Prof. Ada Yonath and other researchers wanted to know which proteins are contained in the ribosome and how they are organized spatially. To find out, they needed to rely on x-rays. Source: Prof' Ada Yonaths' Lab

  11. The method for determining the structure of biological molecules using radiation is called x-ray crystallography. Prof. Ada Yonath uses x-ray crystallography to study ribosomes. SourceNASA

  12. To prepare a living substance for x-ray crystallography research, the substance itself needs to be crystallized. Source:NASA

  13. Different crystals diffract the x-rays directed at them in different ways. The particular composition and spatial structure of each crystal create a unique picture. This picture resembles a collection of dots. Source: Wikipedia

  14. All the pictures created during x-raying are entered into powerful computers, which feed them into a complex decoding process resulting in three-dimensional images. The computer-assisted decoding relies on mathematical formulas and hypothetical structural models, based on data gathered through other methods. Source: Wikipdia

  15. As the x-raying proceeds, it is crucial to maintain the stability of the substance being examined. In many cases, the substance becomes hotter and the crystal is destroyed. The substance changes form, preventing the researcher from determining its structure. Source:yomi955

  16. Prof. Ada Yonath was the first to deal successfully with two complex problems: crystallizing the ribosome and preparing the crystal for x-ray without changing its form during the examination process. Source: L'OREAL-UNESCO Awards For Women in Science

  17. The living substance that Prof. Yonath used to examine ribosome structure was bacteria drawn from hot springs, which are resistant to high temperatures. Prof. Yonath cooled samples of the substance to a temperature of -185º C, preventing its decomposition under experimental conditions. Source: David Lisbona

  18. This accomplishment earned her the 2009 Nobel Prize for Chemistry. She shared the prize with Thomas Steitz of Yale University in the U.S. and Venkatraman Ramakrishnan of Cambridge University in Britain. The three scientists were awarded the prize for their contribution to the study of ribosome structure and functioning.

  19. Most antibiotic medicines attach themselves to bacterial ribosomes, preventing them from acting. By understanding how antibiotics affect ribosomes, scientists can conduct research leading to the development of more effective drugs. Source: The lab of Prof' Ada Yonath

  20. Writing: Hanan Cohen Editing: Nurit Snir Graphic design: Vadik Bakman

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