Provided herein are systems and methods for detecting genomic structural variants using a non-application gene-editing sample preparation followed by long-read sequencing.

Provided herein are systems and methods for detecting genomic structural variants using a non-application gene-editing sample preparation followed by long-read sequencing.

Methods for CRISPR Enabled DNA Synthesis and compositions arising from the methods are provided. The methods may include ligation of partially single stranded DNA donor and acceptor oligonucleotides that are covalently linked to a subsequence of the target DNA to be sequenced followed by cleavage of the ligated product. In this manner the donor and acceptor oligonucleotides shuttle a growing subsequence of the target DNA with each cycle. A mutant Cpfl nuclease is missing non-specific ssDNA nuclease activity may be used for cleavage of the ligation product. Fourteen ligation/cleavage cycles can result in synthesis of ssDNA of greater than 10,000 bp in length.

Methods for CRISPR Enabled DNA Synthesis and compositions arising from the methods are provided. The methods may include ligation of partially single stranded DNA donor and acceptor oligonucleotides that are covalently linked to a subsequence of the target DNA to be sequenced followed by cleavage of the ligated product. In this manner the donor and acceptor oligonucleotides shuttle a growing subsequence of the target DNA with each cycle. A mutant Cpfl nuclease is missing non-specific ssDNA nuclease activity may be used for cleavage of the ligation product. Fourteen ligation/cleavage cycles can result in synthesis of ssDNA of greater than 10,000 bp in length.

The present invention provides methods for high throughput screening and detection of nucleic acids from pathogens, such as SARS CoV-2, using nucleic acid amplification with nanoparticle binding complex formation and MRI or NMR detection. In certain embodiments, the MRI is three-dimensional MRI that simultaneously detects a plurality of amplified nucleic acid-nanoparticle complexes. In certain embodiments, the nucleic acids are amplified by isothermal LAMP techniques. In other embodiments, the nucleic acids are amplified by PCR. Methods of the invention are particularly useful rapid screening of large number of samples during pandemic situations.

The present invention provides methods for high throughput screening and detection of nucleic acids from pathogens, such as SARS CoV-2, using nucleic acid amplification with nanoparticle binding complex formation and MRI or NMR detection. In certain embodiments, the MRI is three-dimensional MRI that simultaneously detects a plurality of amplified nucleic acid-nanoparticle complexes. In certain embodiments, the nucleic acids are amplified by isothermal LAMP techniques. In other embodiments, the nucleic acids are amplified by PCR. Methods of the invention are particularly useful rapid screening of large number of samples during pandemic situations.

Systems, methods, and apparatuses are provided for self-contained nucleic acid preparation, amplification, and analysis.

Systems, methods, and apparatuses are provided for self-contained nucleic acid preparation, amplification, and analysis.

Methods and systems for sorting particles are provided. Methods and systems for sorting cell beads are provided. In some cases, cell beads may be sorted from particles unoccupied with cell derivatives. In some cases, singularly occupied cell beads may be sorted from unoccupied particles and multiply occupied cell beads.

Methods and systems for sorting particles are provided. Methods and systems for sorting cell beads are provided. In some cases, cell beads may be sorted from particles unoccupied with cell derivatives. In some cases, singularly occupied cell beads may be sorted from unoccupied particles and multiply occupied cell beads.