In designing artificial noses modeled after biological olfaction, the challenge has been to generate a similarly large sensor repertoire with the requisite combinatorial complexity to detect odors in the real world. A further requirement is that the sensors can be manufactured with exact chemical precision and reproducibility.
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Accumulated bits of a cell's own DNA can trigger autoimmune disease
A security system wired within every cell to detect the presence of rogue viral DNA can sometimes go awry, triggering an autoimmune response to single-stranded bits of the cell's own DNA, according to a report in the August 22nd issue of the journal
Cell, a Cell Press publication. The source of that single-stranded DNA is so-called endogenous retroelements—genetic elements accounting for a substantial portion of the genome that can move to new locations using a "copy and paste" mechanism, according to the researchers.
Nano design adjustment may help find, clear some water contaminants
Experiments designed to test discrepancies in theoretical computational chemistry have turned up a barely two-angstrom difference that may lead to a new approach to locate and remove dangerous toxins such as perchlorate and nitrates from the environment.
'Cornell dots' replace quantum dots for biological tagging, imaging and optical computing
By surrounding fluorescent dyes with a protective silica shell, Cornell University researchers have created fluorescent nanoparticles with possible applications in displays, biological imaging, optical computing, sensors and microarrays such as
DNA chips. These are all applications for which quantum dots have been used or are being considered. But the new Cornell
nanoparticles offer an appealing alternative because of their greater chemical inertness and reduced cost.
Vaults: From Biological Mystery to Nanotech Workhorse?
Natural nano-capsules show promise for drug delivery, electrical switches and circuits
Naturally occurring nano-capsules, known as "vaults," could provide a whole new class of delivery vehicles for therapeutic drugs and DNA, according to recent research. Indeed, vaults could be used for a wide range of applications in nanotechnology -- even though no one can figure out how nature itself uses them.
Nanomaterials break out of laboratory into marketplace
Miniature medical machines that can bring sight to the blind and computers that work at the speed of light are no longer the stuff of futuristic novels. Argonne National Laboratory researchers are creating
nanomaterials and
nanotechnology to make these and other innovations possible, and collaborating with industry
to bring new technologies to the marketplace.
Arteries from distinct regions of the body have unique immune functions
Human arteries play distinct roles in the immune system depending on their anatomical location, researchers at Emory University School of Medicine have discovered.
Gene associated with pair-bonding in animals has similar effects in human males
Variation in the gene for one of the receptors for the hormone vasopressin appears to be associated with how human males bond with their partners, according to an international team of researchers.
Blood vessel cells are instructed to form tube-like structures
How do blood vessel cells understand that they should organise themselves in tubes and not in layers? A research group from Uppsala University shows for the first time that a special type of "instructor" molecule is needed to accomplish this. These findings, published in the scientific journal
Blood, might be an important step towards using stem cells to build new organs.