(Phys.org)—A bit reminiscent of the Terminator T-1000, a new material created by Cornell researchers is so soft that it can flow like a liquid and then, strangely, return to its original shape.
Bio & Medicine
Dec 5, 2012
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0
(Phys.org) —In recent years, many popular cancer treatments have been using nano, that is, tiny particles of polymers or carbon-based materials to transport chemotherapy drugs to tumors in a way that specifically targets ...
Bio & Medicine
Apr 8, 2013
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0
In addition to providing a simple and much less expensive means of making artemisinin, the most powerful anti-malaria drug in use today, synthetic biology can also help to extend the effectiveness of this drug. Fermenting ...
Biotechnology
Mar 6, 2009
2
0
(PhysOrg.com) -- Small pieces of nucleic acid known as short interfering RNAs, or siRNAs, can turn off the production of specific proteins, a property that makes them one of the more promising new classes of anticancer drugs ...
Bio & Medicine
Sep 23, 2009
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0
The chemical compound known as "methylene blue" is a potential candidate for treating Alzheimer's, as it prevents the harmful clumping of so-called tau proteins typically associated with this disease. However, until now it ...
Biochemistry
Feb 20, 2013
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0
Bioengineers at the University of California San Diego have redesigned how harmless E. coli bacteria "talk" to each other. The new genetic circuit could become a useful new tool for synthetic biologists who, as a field, are ...
Molecular & Computational biology
Mar 5, 2020
1
368
(Phys.org) —Researchers from North Carolina State University have developed a method for creating "nano-volcanoes" by shining various colors of light through a nanoscale "crystal ball" made of a synthetic polymer. These ...
Nanophysics
Jun 13, 2013
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0
A strain of genetically enhanced bacteria developed by researchers at the Salk Institute for Biological Studies may pave the way for new synthetic drugs and new ways of manufacturing medicines and biofuels, according to a ...
Biochemistry
Sep 21, 2011
1
0
(PhysOrg.com) -- Dartmouth researcher Ivan Aprahamian and his team have developed a new molecular switch that changes its configuration as a function of the pH of the environment. This discovery might someday help lead to ...
Nanophysics
Feb 24, 2010
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0
In a study with implications for the future of drug discovery, Scripps Research scientists showed they were able to turn simple chemicals into unique 3-D structures resembling those found in nature—structures with desirable ...
Materials Science
Feb 10, 2020
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