A novel technique for reducing tumors in rats-using nano-sized, oil-based emulsions may be the latest weapon in fighting cancer.
The technique, part of the burgeoning field of nutraceuticals, involves creating nanoemu...
A biomedical engineering assistant professor at The University of Texas at Austin has been awarded a $1.5 million National Institutes of Health/National Cancer Institute grant to conduct nanoparticle cancer research.
...
A new method for reading DNA (or RNA) microarrays is based on measuring the electrostatic repulsion between silica microspheres and hybridized DNA. Surface areas containing double-stranded DNA (red) or single-stranded DNA (blue) can be easily distinguished from each other and from background areas by the naked eye. (Illustration Flavio Robles, Berkeley Lab Public Affairs)
Unidym, Inc, a majority-owned subsidiary of Arrowhead Research Corporation, announced today that MDA Co., LTD of South Korea has purchased an option to negotiate a future intellectual property (IP) license to Unidym'...
Following the launch at BIO International in San Diego last week of NanoInterventions, their cardiovascular joint venture partnership, Nanocopoeia and WORLDiscoveries(TM) are pleased to announce their broader agreement t...
Research and Markets has announced the addition of the "The Nanotechnology Opportunity Report (NOR) 2008, 3rd Edition" report to their offering.
The Nanotechnology Opportunity Report (NOR) 2008, 3rd Edition...
Potential risks from the use of nanomaterials will be explored by three Arizona State University engineering faculty in a project supported by a $400,000 grant from the U.S.Department of Energy Office of Biological and Environmental Research.
Nanoparticle characterization using the Zetasizer Nano from Malvern Instruments is providing essential information for researchers working on drug delivery systems at the UK’s newest School of Pharmacy and Pharmaceutical Sciences.
Mechanical engineering Assistant Professor Adela Ben-Yakar at The University of Texas at Austin has developed a laser "microscalpel" that destroys a single cell while leaving nearby cells intact, which could improve the precision of surgeries for cancer, epilepsy and other diseases.
Precision control of DNA separation using an electric field
An electric voltage can be used to propel DNA molecules through a channel a few nanometers deep, or to stop them in their tracks. In a strong electric field ...
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