In some aspects, the present disclosure relates to methods for reducing the crowding of signals, for example optical crowding, that can occur when nucleic acids are detected in a sample in multiplex, which can make it difficult to resolve individual signals and can lead to a reduced dynamic range. In some aspects, the present disclosure relates to methods for reducing signal crowding in the detection of multiple target nucleic acid sequences in a sample, e.g., using hybridization probes, wherein signal crowding from said hybridization probes is reduced. The methods herein have particular applicability in the detection of barcode sequences by sequencing-by-hybridization (SBH) methods, including those relying on combinatorial labelling schemes and decoding of the barcodes by sequential cycles of decoding using hybridization probes. Also provided are kits comprising probes for use in such methods.

In some aspects, the present disclosure relates to methods for reducing the crowding of signals, for example optical crowding, that can occur when nucleic acids are detected in a sample in multiplex, which can make it difficult to resolve individual signals and can lead to a reduced dynamic range. In some aspects, the present disclosure relates to methods for reducing signal crowding in the detection of multiple target nucleic acid sequences in a sample, e.g., using hybridization probes, wherein signal crowding from said hybridization probes is reduced. The methods herein have particular applicability in the detection of barcode sequences by sequencing-by-hybridization (SBH) methods, including those relying on combinatorial labelling schemes and decoding of the barcodes by sequential cycles of decoding using hybridization probes. Also provided are kits comprising probes for use in such methods.

The present invention, among other things, provides technologies for detecting and/or quantifying nucleic acids in cells, tissues, organs or organisms. In some embodiments, through sequential barcoding, the present invention provides methods for high-throughput profiling of a large number of targets, such as transcripts and/or DNA loci.

The present invention, among other things, provides technologies for detecting and/or quantifying nucleic acids in cells, tissues, organs or organisms. In some embodiments, through sequential barcoding, the present invention provides methods for high-throughput profiling of a large number of targets, such as transcripts and/or DNA loci.

The present disclosure provides materials and methods for co-determining the cellular location and nucleotide sequence of a DNA that is contacted by (or in close proximity to) a protein of interest in a single cell. Thus the present disclosure provides methods and materials wherein the cellular location of the DNA comprising a DNA-binding site or otherwise in close proximity to a protein of interest is coupled to the sequence of said DNA to provide contemporaneous imaging and sequence measurement of a protein-DNA interaction.

The present disclosure provides materials and methods for co-determining the cellular location and nucleotide sequence of a DNA that is contacted by (or in close proximity to) a protein of interest in a single cell. Thus the present disclosure provides methods and materials wherein the cellular location of the DNA comprising a DNA-binding site or otherwise in close proximity to a protein of interest is coupled to the sequence of said DNA to provide contemporaneous imaging and sequence measurement of a protein-DNA interaction.

Provided herein are compositions, devices, systems and methods for the generation and use of secured biomolecule-based information for storage. Further described herein are compositions, devices, systems and methods for bioencryption or biodecryption of information. Conversion of a digital sequence to a nucleic based sequence includes a step of selection of one or more bioencryption methods.

Provided herein are compositions, devices, systems and methods for the generation and use of secured biomolecule-based information for storage. Further described herein are compositions, devices, systems and methods for bioencryption or biodecryption of information. Conversion of a digital sequence to a nucleic based sequence includes a step of selection of one or more bioencryption methods.

Methods of volumetric imaging of a three-dimensional matrix of nucleic acids within a cell is provided. An automated apparatus for sequencing and volumetric imaging of a three-dimensional matrix of nucleic acids is provided.

Methods of volumetric imaging of a three-dimensional matrix of nucleic acids within a cell is provided. An automated apparatus for sequencing and volumetric imaging of a three-dimensional matrix of nucleic acids is provided.