Nature's tiniest rotor runs like clockwork.With amazing efficiency, cells synthesize and store energy in the form of adenosine adenosine /aden·o·sine/ (ah-den´o-sen) a purine nucleoside consisting of adenine and ribose; a component of RNA. It is also a cardiac depressant and vasodilator used as an antiarrhythmic and as an adjunct in myocardial perfusion imaging triphosphate triphosphate /tri·phos·phate/ (tri-fos´fat) a salt containing three phosphate radicals. tri·phos·phate n. A salt or ester containing three phosphate groups. , ATP ATP: see adenosine triphosphate. ATP in full adenosine triphosphate Organic compound, substrate in many enzyme-catalyzed reactions (see catalysis) in the cells of animals, plants, and microorganisms. for short. Bioengineers often regard the enzyme that makes this chemical energy as the ultimate molecular machine. Hiroyasu Itoh at Hamamatsu Photonics in Tsukuba, Japan, and his colleagues have found a way to use the same enzyme, ATP synthase An ATP synthase (EC 3.6.3.14) is a general term for an enzyme that can synthesize adenosine triphosphate (ATP) from adenosine diphosphate (ADP) and inorganic phosphate by utilizing some form of energy. , to power nanoscale devices. Embedded in the cell membrane Cell membrane The membrane that surrounds the cytoplasm of a cell; it is also called the plasma membrane or, in a more general sense, a unit membrane. This is a very thin, semifluid, sheetlike structure made of four continuous monolayers of molecules. , the enzyme is made of two protein units joined by a central rotor. Instead of using the entire enzyme, the researchers isolated the protein unit that binds to ATP, along with the rotor, and attached hundreds of these complexes to a glass surface. The researchers attached a magnetic bead to each rotor then and used electromagnets to induce the rotors to spin. When rotating clockwise, the nanomachines churned out ATP from ingredients in a solution surrounding the devices. During counterclockwise rotations, the nanomachines consumed ATP. The researchers describe their results in the Jan. 29 Nature. In the past, researchers have used ATP synthase to make structures that convert ATP into mechanical motion (SN: 11/9/02, p. 291). The new work shows that it's possible to reverse the process and generate chemical energy instead. --A.G |
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