The disclosure provides methods to calibrate polynucleotide seeding efficiency in flow cells.

The disclosure provides methods to calibrate polynucleotide seeding efficiency in flow cells.

The present invention provides detection systems and methods for detection of loci and genomic regions in a sample, including mixed samples, using hybridization to an array.

The present invention provides detection systems and methods for detection of loci and genomic regions in a sample, including mixed samples, using hybridization to an array.

The present disclosure is concerned with compositions and methods for reducing the steps used in the generation of monoclonal clusters by combining the enzymes used for linearization and removal of unused surface primers.

The present disclosure is concerned with compositions and methods for reducing the steps used in the generation of monoclonal clusters by combining the enzymes used for linearization and removal of unused surface primers.

Methods of detecting multiple nucleic acid targets in single cells through indirect capture of labels to nucleic acid are provided. Methods of assaying the relative levels of nucleic acid targets through normalization to levels of reference nucleic acids are also provided. Methods of detecting individual cells, particularly rare cells from large heterogeneous cell populations through detection of nucleic acids are described. Related compositions, systems, and kits are also provided.

Methods of detecting multiple nucleic acid targets in single cells through indirect capture of labels to nucleic acid are provided. Methods of assaying the relative levels of nucleic acid targets through normalization to levels of reference nucleic acids are also provided. Methods of detecting individual cells, particularly rare cells from large heterogeneous cell populations through detection of nucleic acids are described. Related compositions, systems, and kits are also provided.

Methods of detecting multiple nucleic acid targets in single cells through indirect capture of labels to the nucleic acids are provided. Methods of assaying the relative levels of nucleic acid targets through normalization to levels of reference nucleic acids are also provided. Methods of detecting individual cells, particularly rare cells from large heterogeneous cell populations, through detection of nucleic acids are described. Related compositions, systems, and kits are also provided.

Methods of detecting multiple nucleic acid targets in single cells through indirect capture of labels to the nucleic acids are provided. Methods of assaying the relative levels of nucleic acid targets through normalization to levels of reference nucleic acids are also provided. Methods of detecting individual cells, particularly rare cells from large heterogeneous cell populations, through detection of nucleic acids are described. Related compositions, systems, and kits are also provided.