Electronics of nature's nano machines

Nov 23, 2012
Electronics of nature's nano machines
ingle molecule of electron transfer protein cytochrome b562 bound between two gold electrode surfaces.

(Phys.org)—A team from the Cardiff University's Schools of Biosciences and Physics and Astronomy have made a breakthrough in our understanding of proteins - the workhorse molecules of the cell and nature's very own nano machines.

The group has successfully detected electric current through a single molecule of a , measuring just 5 nanometres long.

Electric current is key in many natural processes including detection of light in the eye, photosynthesis and respiration.

The team showed that the protein could carry large currents, equivalent to a carrying one amp. The team also discovered that current flow could be regulated in much the same way as , the tiny devices driving computers and smartphones, work but on a smaller scale: the proteins are only a quarter of the size of current silicon based transistors.

To access this molecular information, the team has pioneered the use of synthetic biology with a technique called STM () so that electrical current flowing through a protein can be measured right down to the single individual molecule.

Prior to this work, measurement of millions, if not billions of proteins was only possible, so losing crucial details of how an individual molecule functions.

Dr Jones, School of Biosciences, said: "If you step back and listen to the sound of a large crowd, this sound is an accumulation of many individual voices and conversations. What we have done is the molecular equivalent to listening to individual voices in the crowd.

"By marrying our knowledge and ability to manipulate proteins at the molecular level with advanced approaches developed in the School of Physics and Astronomy and DTU Denmark we can examine the individual complex molecules fundamental to all life. The transistor behavior is particularly interesting but in time, it may be possible to integrate proteins with ."

Collaborators Dr Martin Elliott and Dr Emyr Macdonald, School of Physics and Astronomy added: "The highly conducting nature of this protein was a surprise and the result raises questions about the fundamental nature of electron transfer in proteins.

"This gives a new powerful tool for studying enzymes and other important biological ''.

The team's findings have been published as a series of papers in the journals Nano Letters, ACS Nano, Small and Nanoscale.

Much of the research was carried out by Eduardo Della Pia under the University's Richard Whipp Studentship scheme, designed to promote interdisciplinary research.

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not rated yet Nov 29, 2012
Electronics of nature's nano machines is a good article and also the another article Nanoscale.Carbon Nano tubes gives a new tool for studying enzymes and other important biological molecules.