![]() ![]() Why using a crystal? To date, the conception of an X-ray microscope encounters two obstacles. Why using X-rays? Their wavelength is of the order of the angström and thus corresponds to the distance between two bound atoms. The length of a 60 base pairs DNA double helix is 204 Å. ĭimension of biological macromolecules represented at the same scale (picture provided by Dr Jérémie Piton). To reach atomic details, the method of choice is crystallography, whose principle is based on the bombardment by X-ray of crystals composed of biological macromolecules. “Seeing” proteins or nucleic acids in three dimensions, a dream or a reality? Could microscopy, a technic known since more than 350 years that allows to visualize biological cells, be the right approach? Of course, the dimensions of these two objects, macromolecules and cells are very different: The cell size ranges generally from 10 to 100 microns (10 −6 m), the dimensions of biological macromolecules, proteins or nucleic acids, are of the order of tens of angstroms (10 −10 m) ( Figure 1). “Seeing” the structure of biological macromolecules, such as proteins or nucleic acids (RNA or DNA), allows researchers to elucidate the mechanisms of live in all organisms, and among many other applications, allows them to design new drugs. During their synthesis, proteins adopt a specific three-dimensional structure that allows them to perform their functions within the cell. Proteins, the nanomachines essential to living organisms, have their “manufacturing plan” encoded in their DNA gene sequence. ![]() In 1953, James Watson and Francis Crick revealed the double helical structure of DNA using the results of Rosalyn Franklin obtained by X-ray scattering on natural filaments formed by DNA molecules. ![]()
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