EU supports research towards the construction of nanomotors

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Structure of a bacterial flagellar motor. The stator (orange) is anchored to the cell membrane and encloses the rotor (diameter 50 nm) which turns at a rate of up to 1700 revolutions per second. (Courtesy R. Berry Oxford University)
Structure of a bacterial flagellar motor. The stator (orange) is anchored to the cell membrane and encloses the rotor (diameter 50 nm), which turns at a rate of up to 1700 revolutions per second. (Courtesy R. Berry, Oxford University)

Within an initiative aimed at supporting visionary research projects, the European Union has set aside research funds for the development of biological nanomotors. An international consortium of scientists, co-ordinated by Prof. Helmut Grubmüller at the Max Planck Institute for Biophysical Chemistry in Göttingen, envisages many applications for the results of this research, primarily in the field of biological medicine. The foundations for this will be laid by the creation of a “construction kit” of tailored nanomotor components.


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