The present invention relates to the field of genotyping samples containing short tandem repeat (STR) loci. More specifically, the present invention discloses a composition of matter containing an array of probes and a method to genotype these loci relying on the recognition of RNA:DNA base pairing followed by cleavage of the RNA containing strand. By measuring the temperature at which the chimeric DNA-RNA-DNA probe is cleaved, resulting in an increase of fluorescence of the probe, it can be assessed whether or not the probe and the sample share the same amount of repeats. An array of probes is utilised, covering all possible alleles of the investigated STR-locus. The probes and method of the present invention are well-suited to be used in a portable, less-expensive DNA analysis device and can be applied in other fields than forensics, like food fraud, diagnostics and many others.

Provided herein are devices and methods for rapid analysis of biological samples. In particular, devices and methods described herein can be applied to rapid nucleic acid analysis of solid tissue samples.

Provided herein are devices and methods for rapid analysis of biological samples. In particular, devices and methods described herein can be applied to rapid nucleic acid analysis of solid tissue samples.

Provided are methods for preparing a library of target nucleic acid sequences, as well as compositions and uses therefor. Methods comprise contacting a nucleic acid sample with a plurality of adaptors capable of amplification of one or more target nucleic acid sequences under conditions wherein the target nucleic acid(s) undergo a first amplification; digesting the resulting first amplification products; repairing the digested target amplicons; and amplifying the repaired products in a second amplification, thereby producing a library of target nucleic acid sequence. Each of the plurality of adaptor compositions comprise a handle and a targeted nucleic acid sequence and optionally one or more tag sequences. Provided methods may be carried out in a single, addition only workflow reaction, allowing for rapid production of highly multiplexed targeted libraries, optionally including unique tag sequences. Resulting library compositions are useful for a variety of applications, including sequencing applications.

Provided are methods for preparing a library of target nucleic acid sequences, as well as compositions and uses therefor. Methods comprise contacting a nucleic acid sample with a plurality of adaptors capable of amplification of one or more target nucleic acid sequences under conditions wherein the target nucleic acid(s) undergo a first amplification; digesting the resulting first amplification products; repairing the digested target amplicons; and amplifying the repaired products in a second amplification, thereby producing a library of target nucleic acid sequence. Each of the plurality of adaptor compositions comprise a handle and a targeted nucleic acid sequence and optionally one or more tag sequences. Provided methods may be carried out in a single, addition only workflow reaction, allowing for rapid production of highly multiplexed targeted libraries, optionally including unique tag sequences. Resulting library compositions are useful for a variety of applications, including sequencing applications.

Described herein is a method for detecting an oligonucleotide in a sample, and in particular, to a method for detecting sense and antisense strands of an oligonucleotide duplex in a sample.

Described herein is a method for detecting an oligonucleotide in a sample, and in particular, to a method for detecting sense and antisense strands of an oligonucleotide duplex in a sample.

Methods and compositions for maintaining DNA contiguity for sequencing is provided. For example, a plurality of partitions is provided comprising a bead, a forward primer oligonucleotide cleaved from the bead, the forward primer oligonucleotide having a bead-specific barcode and a 3′ end specific for and complementary to a first or second adaptor; a reverse primer oligonucleotide having a 3′ end complementary to the first or second adaptor, wherein the forward primer 3′ end and the reverse primer 3′ end are complementary to different adaptors selected from the first adaptor and the second adaptor; and fragments of genomic DNA reacted with an adapter-loaded tagmentase such that the DNA fragments comprise breakpoints in the fragments and an inserted adaptor at the break points, wherein the tagmentase binds the breakpoints to form linked DNA segments in the form of DNA segment-first adaptor tagmentase second adaptor-(DNA segment-first adaptor tagmentase second adaptor)n-DNA segment, where n is any integer and “-” indicates a covalent linkage.

Methods and compositions for maintaining DNA contiguity for sequencing is provided. For example, a plurality of partitions is provided comprising a bead, a forward primer oligonucleotide cleaved from the bead, the forward primer oligonucleotide having a bead-specific barcode and a 3′ end specific for and complementary to a first or second adaptor; a reverse primer oligonucleotide having a 3′ end complementary to the first or second adaptor, wherein the forward primer 3′ end and the reverse primer 3′ end are complementary to different adaptors selected from the first adaptor and the second adaptor; and fragments of genomic DNA reacted with an adapter-loaded tagmentase such that the DNA fragments comprise breakpoints in the fragments and an inserted adaptor at the break points, wherein the tagmentase binds the breakpoints to form linked DNA segments in the form of DNA segment-first adaptor tagmentase second adaptor-(DNA segment-first adaptor tagmentase second adaptor)n-DNA segment, where n is any integer and “-” indicates a covalent linkage.

The invention is a novel method of separately sequencing each strand of a nucleic acid involving the use of an adaptor comprising a strand cleavage site or a strand synthesis termination site. The adaptor may also be self-priming at the strand cleavage site.