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Researchers at Princeton University have developed an improved method for
loading macro-molecules, subject to shearing, such as genomic DNA, from gel
plugs into micro or nanofluidic devices.
Current methods using electroelution for extraction of DNA from agarose
gel plugs are extremely time-consuming due to the weak electrical fields
developed...
Published: 3/15/2018
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Inventor(s): Lotien Huang, James Sturm
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
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Researchers at Princeton University
have developed three new methods for manipulation of DNA and other large
macromolecules in microfluidic environments.
The
first method permits fractionation of DNA continuously on micro or
nano-fabricated support materials.
Current methods to fractionate larger (greater than 30kb) DNA molecules
by size...
Published: 3/15/2018
|
Inventor(s): James Sturm, Lotien Huang, Robert Austin
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
|
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Researchers at
Princeton University have developed three new methods for manipulation of DNA
and other large macromolecules in microfluidic environments.
The first method
permits fractionation of DNA continuously on micro or nano-fabricated support
materials. Current methods to
fractionate larger (greater than 30kb) DNA molecules by size use...
Published: 3/15/2018
|
Inventor(s): Lotien Huang, James Sturm, Robert Austin
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
|
|
Researchers at
Princeton University have developed three new methods for manipulation of DNA
and other large macromolecules in microfluidic environments.
The first method
permits fractionation of DNA continuously on micro or nano-fabricated support
materials. Current methods to
fractionate larger (greater than 30kb) DNA molecules by size use...
Published: 3/15/2018
|
Inventor(s): James Sturm, Lotien Huang, Robert Austin
Keywords(s):
Category(s): Biotechnology/Pharmaceuticals
|