Provided herein are devices, systems, kits and methods for obtaining genetic information from cell-free fetal nucleic acids in ultra-low amounts of biological samples. Due to the convenience of obtaining ultra-low amounts of samples, devices, systems, kits and methods can be at least partially employed at a point of need.

The present invention provides a fast and simple method for preparing a microbial profile of a human skin sample. The method can be performed using only portable devices, allowing for in-field profiling. The method is robust and has been found to work even with low DNA quantities and under difficult conditions.

A nucleic acid amplification method using a solid-phase carrier according to the present invention comprises: capturing a target nucleic acid comprising mRNA on a solid-phase carrier; carrying out complementary-strand synthesis on the solid phase; carrying out exonuclease treatment to degrade and remove unreacted target- capturing nucleic acid on the solid phase; and then carrying out mRNA degradation and homopolymer addition by TdT reaction in the presence of a chain-terminating nucleotide triphosphate. According to the method of the present invention, cDNA can be stably and highly efficiently amplified even from a small amount of sample even in cases where the ratio of the amount of enzyme to the DNA substrate on the solid phase is excessive, where the reaction time is excessive, and/or where reagents show lot-to-lot variation. Further, the amplification method of the present invention can broaden the range of applications of techniques in which analysis using a specific-binding molecule labeled with an oligonucleic acid such as a DNA-labeled antibody and analysis of transcripts are carried out simultaneously.

Provided herein are methods for preparing a sequencing library that includes nucleic acids from a plurality of single cells. In one embodiment, the sequencing library includes nucleic acids that represent the chromatin accessibility from the plurality of single cells. In one embodiment, the nucleic acids include three index sequences. In another embodiment, the present disclosure provides methods for characterizing rare events in isolated cells and nuclei.

This application provides a bead with a covalently attached chemical compound and a covalently attached DNA barcode and methods for using such beads. The bead has many substantially identical copies of the chemical compound and many substantially identical copies of the DNA barcode. The compound consists of one or more chemical monomers, where the DNA barcode takes the form of barcode modules, where each module corresponds to and allows identification of a corresponding chemical monomer. The nucleic acid barcode can have a concatenated structure or an orthogonal structure. Provided are method for sequencing the bead-bound nucleic acid barcode, for cleaving the compound from the bead, and for assessing biological activity of the released compound.

This application provides a bead with a covalently attached chemical compound and a covalently attached DNA barcode and methods for using such beads. The bead has many substantially identical copies of the chemical compound and many substantially identical copies of the DNA barcode. The compound consists of one or more chemical monomers, where the DNA barcode takes the form of barcode modules, where each module corresponds to and allows identification of a corresponding chemical monomer. The nucleic acid barcode can have a concatenated structure or an orthogonal structure. Provided are method for sequencing the bead-bound nucleic acid barcode, for cleaving the compound from the bead, and for assessing biological activity of the released compound.

Provided herein are methods for capturing a connected probe and/or a capture handle sequence to a capture domain of a capture probe.

Provided herein are compositions and methods for identifying genomic variants. Further provided herein are standards useful for determining the analytical sensitivity and/or accuracy of instruments configured to measure nucleic acid variant frequencies.

Methods and compositions for preparing nucleic acid libraries for nucleic acid sequencing are provided. In some embodiments, disclosed herein is a universal nucleic acid adaptor and methods of using same.

The invention provides compositions comprising nucleic acid complexes for use in screening compounds based on their ability to modulate binding interactions, wherein the compounds are barcoded.