Abstract: Disclosed herein are two related techniques for digital microfluidic (DMF) processing of liquids that rely on electrostatic actuation of fluid through a strip of solid, porous media. In the first technique, droplets in a DMF device containing particles of different sizes are driven through a solid porous medium, allowing for filtering, concentration, and recovery of the particles into droplets on the basis of size. In the second technique, an aliquot of liquid media is loaded directly onto a solid porous medium, where it is wicked into a DMF device, such that the filtrate can be collected into droplets. Both techniques may be useful for generating plasma from whole blood on a DMF device, an operation that will have far-reaching implications for diagnostic applications of digital microfluidics.

Abstract: The present disclosure provides a method for performing agglutination assays on a “two plate” DMF device format. Droplets containing analytes of interest (particles, cells, etc.) are loaded into the DMF device and mixed with solution-phase or dried agglutinating antibodies or antigens. The agglutinating agents bind to their complementary targets (e.g. antibodies or antigens for example) in the sample droplets, which leads to the formation of insoluble aggregates. Active mixing on a DMF device reduces the reaction time and enhances the agglutination effect. Since the agglutinated sample is sandwiched between two plates on the DMF device, it is straightforward to visualize the result by eye or via a digital camera.

Abstract: The disclosure provides methods and systems for sequencing long nucleic acid fragments. In one aspect, methods, systems and reagent kits are provided for sequencing nucleic acid target sequences. Some embodiments of the methods, systems and reagent kits are particularly suitable for sequencing a large number of fragments, particularly long fragments.

Abstract: The present invention provides methods and systems for sequencing long nucleic acid fragments. In one aspect of the invention, methods, systems and reagent kits are provided for sequencing nucleic acid target sequences. Some embodiments of the methods, systems and reagent kits are particularly suitable for sequencing a large number of fragments, particularly long fragments.

Abstract: Disclosed herein are two related techniques for digital microfluidic (DMF) processing of liquids that rely on electrostatic actuation of fluid through a strip of solid, porous media. In the first technique, droplets in a DMF device containing particles of different sizes are driven through a solid porous medium, allowing for filtering, concentration, and recovery of the particles into droplets on the basis of size. In the second technique, an aliquot of liquid media is loaded directly onto a solid porous medium, where it is wicked into a DMF device, such that the filtrate can be collected into droplets. Both techniques may be useful for generating plasma from whole blood on a DMF device, an operation that will have far-reaching implications for diagnostic applications of digital microfluidics.

Abstract: The present disclosure provides a system and method for identifying and targeting individual cells within a cell population for selective extraction of cellular content and a digital microfluidic device having at least one hydrophilic site for receiving cells, an imaging system including a stage for receiving the digital microfluidic device and an imaging module for identifying at least one targeted cell among the cells at the at least one hydrophilic site. The system includes a pulsed laser source for laser lysing the targeted cell thereby releasing the cell content to produce a lysate.

Abstract: The present invention provides methods and systems for sequencing long nucleic acid fragments. In one aspect of the invention, methods, systems and reagent kits are provided for sequencing nucleic acid target sequences. Some embodiments of the methods, systems and reagent kits are particularly suitable for sequencing a large number of fragments, particularly long fragments. Some embodiments of the methods, systems and reagent kits are for native extension parallel sequencing of polynucleotide.

Abstract: Provided herein are methods of capturing a nucleic acid comprising a target oligonucleotide sequence from a library of nucleic acid that include: contacting a library of nucleic acids comprising a nucleic acid comprising a target oligonucleotide sequence with a probe comprising a sequence that is complementary to the target oligonucleotide sequence, wherein the contacting is performed in a tetramethylammonium chloride (TMAC)-based buffer at a temperature of about 60° C. to about 70° C., and the contacting results in the hybridization of the target oligonucleotide sequence to the sequence that is complementary to the target oligonucleotide sequence, to thereby generate a hybridization product; and isolating the hybridization product from nucleic acids in the library that do not comprise the target oligonucleotide sequence. Also provided are compositions useful for performing these methods.

Abstract: Provided herein are methods of capturing a nucleic acid comprising a target oligonucleotide sequence from a library of nucleic acid that include: contacting a library of nucleic acids comprising a nucleic acid comprising a target oligonucleotide sequence with a probe comprising a sequence that is complementary to the target oligonucleotide sequence, wherein the contacting is performed in a tetramethylammonium chloride (TMAC)-based buffer at a temperature of about 60° C. to about 70° C., and the contacting results in the hybridization of the target oligonucleotide sequence to the sequence that is complementary to the target oligonucleotide sequence, to thereby generate a hybridization product; and isolating the hybridization product from nucleic acids in the library that do not comprise the target oligonucleotide sequence. Also provided are compositions useful for performing these methods.

Abstract: The present disclosure provides a system and method for identifying and targeting individual cells within a cell population for selective extraction of cellular content and a digital microfluidic device having at least one hydrophilic site for receiving cells, an imaging system including a stage for receiving the digital microfluidic device and an imaging module for identifying at least one targeted cell among the cells at the at least one hydrophilic site. The system includes a pulsed laser source for laser lysing the targeted cell thereby releasing the cell content to produce a lysate.

Abstract: The present invention provides methods and systems for sequencing long nucleic acid fragments.

Abstract: The present invention provides methods for native extension parallel sequencing of polynucleotide.

Abstract: The present invention provides methods and systems for sequencing long nucleic acid fragments. In one aspect of the invention, methods, systems and reagent kits are provided for sequencing nucleic acid target sequences. Some embodiments of the methods, systems and reagent kits are particularly suitable for sequencing a large number of fragments, particularly long fragments.

Abstract: The present invention provides methods and systems for sequencing long nucleic acid fragments.

Abstract: The present invention provides methods and systems for sequencing long nucleic acid fragments.

Abstract: The present invention provides methods for native extension parallel sequencing of polynucleotide.