A recent breakthrough in nanotechnology has revealed a new way of using molecular motors to create a network of tiny, interconnected machines. Scientists from the Institute of Nanoscience and Engineering at the University of Missouri have developed a network of molecular motors that can be used to generate and store energy. This could lead to the development of tiny, self-powered machines that can be used in a variety of applications, from medical diagnostics to building materials. The network is composed of two types of molecular motors: an actin-based motor that can move along a track, and a kinesin-based motor that is capable of moving objects along a track. By combining the two motors, the researchers were able to create a network of tiny machines that can move objects between different points on a track. This could potentially be used to transport cargo, or to generate and store energy. The researchers are now looking to expand the network by adding other types of molecular motors, such as myosin-based motors, into the mix. The possibilities for this breakthrough are endless, and it could lead to a future where tiny, self-powered machines are used everywhere.

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source: Phys.org