The presently described and claimed disclosure relates to method for characterizing nucleic acid purity comprising denaturing a nucleic acid sample, loading the nucleic acid sample onto a capillary electrophoresis (CE) capillary, wherein the CE capillary is filled with a buffer comprising a polymer matrix, applying a separation voltage to the CE capillary, wherein during the separation of the nucleic acids, the temperature of the CE capillary is increased, and detecting nucleic acids separated from the nucleic acid sample with a detector. Kits and instructions for use are also described.

The presently described and claimed disclosure relates to method for characterizing nucleic acid purity comprising denaturing a nucleic acid sample, loading the nucleic acid sample onto a capillary electrophoresis (CE) capillary, wherein the CE capillary is filled with a buffer comprising a polymer matrix, applying a separation voltage to the CE capillary, wherein during the separation of the nucleic acids, the temperature of the CE capillary is increased, and detecting nucleic acids separated from the nucleic acid sample with a detector. Kits and instructions for use are also described.

This disclosure relates DNA based movement of objects. In certain embodiments, particles, pairs of particles, or a rods are conjugated with single stranded DNA that hybridizes to a single stranded RNA that is conjugated to a substrate. When the DNA particle, pair of particles, or rod interacts with the surface RNA in the presence of an endonuclease, such as RNase H and the DNA hybridizes to the RNA, then the particle, pair of particle, or rod moves along the surface. The complementarity of the DNA and RNA affect the velocity.

This disclosure relates DNA based movement of objects. In certain embodiments, particles, pairs of particles, or a rods are conjugated with single stranded DNA that hybridizes to a single stranded RNA that is conjugated to a substrate. When the DNA particle, pair of particles, or rod interacts with the surface RNA in the presence of an endonuclease, such as RNase H and the DNA hybridizes to the RNA, then the particle, pair of particle, or rod moves along the surface. The complementarity of the DNA and RNA affect the velocity.

The disclosure relates to systems and methods for binding payload moieties to a surface. In particular, the binding is mediated by nucleic acid nanostructures.

The disclosure relates to systems and methods for binding payload moieties to a surface. In particular, the binding is mediated by nucleic acid nanostructures.

This disclosure provides methods for generating functionalized nanoswitches, as well as the functionalized nanoswitches themselves, and methods of use thereof.

This disclosure provides methods for generating functionalized nanoswitches, as well as the functionalized nanoswitches themselves, and methods of use thereof.

This disclosure provides methods for generating functionalized nanoswitches, as well as the functionalized nanoswitches themselves, and methods of use thereof.

This disclosure provides methods for generating functionalized nanoswitches, as well as the functionalized nanoswitches themselves, and methods of use thereof.