Researchers Establish First Electrical Connection Between Hydrogenase Enzymes and Nanotubes; Potential Biohybrid Catalyst for Hydrogen Production and Use
19 November 2007
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| Molecular model of CaHydI hydrogenase enzyme bound to a SWNT, one of several plausible arrangements. The yellow and green units show the FeS clusters. There are many possible geometries, but the existence of a strong electronic interaction demonstrates that at least one of the FeS clusters must be proximal to the tubes. Click to enlarge. Courtesy of Michael J. Heben, NREL |
Researchers at the National Renewable Energy Laboratory (NREL) in Colorado are reporting the first successful electrical connection between hydrogenase enzymes and carbon nanotubes.
Their work, which shows that surfactant-suspended carbon single-walled nanotubes (SWNTs) spontaneously self-assemble with [FeFe] hydrogenases in solution to form catalytically active biohybrids, is scheduled for publication in the November issue of the ACS journal Nano Letters.
Hydrogenase enzymes, comprising a polypeptide chain and abundant first-row transition metals, show promise as catalysts for use in hydrogen production and in fuel cells. However, establishing a robust electrical connection for use in an electric device between the enzyme and a support in a manner that does not compromise catalytic activity has proven difficult. Currently, precious metals such as platinum perform the requisite catalysis in devices.
In the new study, Michael J. Heben, Paul W. King, and colleagues selected the [FeFe] hydrogenase I (CaHydI) from the anaerobic bacterium Clostridium acetobutylicum. Neither CaHydI nor the SWNTs were specially modified to facilitate formation of complexes. The hydrogenase remains catalytically active so long as anaerobic conditions are maintained.
By carefully designed synthesis, it should be possible to tune the catalytic biohybrids for use as electrochemical probes for in vivo detection of hydrogenase activities. More importantly, this work offers the first step toward the construction of functional hydrogenase/SWNT hybrids for application in a variety of hydrogen production and fuel cell technologies.
The US Department of Energy, Office of Science, Office of Basic Energy Sciences, Division of Chemical Sciences, Geosciences, and Biosciences, supported this research.
Resources
Timothy J. McDonald, Drazenka Svedruzic, Yong-Hyun Kim, Jeffrey L. Blackburn, S. B. Zhang, Paul W. King, and Michael J. Heben. “Wiring-Up Hydrogenase with Single-Walled Carbon Nanotubes”, Nano Lett., 7 (11), 3528 -3534, 2007. 10.1021/nl072319o S1530-6984(07)02319-3
Really?
Excuse my Ignorance if I'm a bit off track here. What is the difference between self assembling nanotech structures and other life forms.
I mean as we all should know from Ben Eltons Classic "farewell carbon based life forms and thanks for all the fish" wich I plan to read afer the election here.
The curent definition If we can say there is one relates to carbon based life forms.
Ben's humourous predictions describe silicon based life forms "sounds like my experiences with 'this piece of silicon'.
I dont think we need to go there just yet.
Back to the subject.
The question is "To any one listening can we be properly describing a new life form if so,.....
.
Posted by: Arnold | 20 November 2007 at 12:54 PM
Correction:
Douglas Adams: Also ben Elton: Paperback classics.Including-
So long and thanks for all the fish.
Greetings carbon based lifeforms .
Life the universe and everthing,
Hitchikers guide to the universe,
Stark ,
Restraunt at the end of the universe.
These books are Excellent humourous and too close for comfort.
Posted by: Arnold | 20 November 2007 at 01:10 PM
Arnold, if we were to strap beating heart muscle to a crystal lattice yielding piezo-electric pulses - isn't that a new lifeform?
Live long and prosper...
Posted by: gr | 21 November 2007 at 06:08 PM
I think I need a babel fish for my ear to understand this post.
Posted by: Tagamet | 24 November 2007 at 11:31 AM