Provided herein are fragment length profiles of nucleic acid libraries, methods of generating fragment length profiles of nucleic acid libraries and methods of using fragment length profiles for diagnostics and/or prognostics. The application further provides methods, compositions and kits for determining the infection stage or the site of localization in a subject.

The present disclosure relates to improved methods for preparing, sequencing and analyzing short DNA fragments using handheld, nanopore-based sequencing technology as well as improved methods for extracting DNA, in particular genomic DNA, for any downstream application.

The present disclosure relates to improved methods for preparing, sequencing and analyzing short DNA fragments using handheld, nanopore-based sequencing technology as well as improved methods for extracting DNA, in particular genomic DNA, for any downstream application.

A non-specific-binding inhibitor enables, in detection of a target nucleic acid by hybridization, effective inhibition of cross-hybridization between the target nucleic acid and complementary strands of sequences similar thereto, which non-specific-binding inhibitor has a stable quality among production lots, and a hybridization method for nucleic acid uses the inhibitor. The non-specific-binding inhibitor for nucleic acid includes a nucleic acid which has a base length of 2 to 11 bases and in which the content of a guanine base(s) and/or methylated guanine base(s) in the entire base sequence is not less than 70%.

A non-specific-binding inhibitor enables, in detection of a target nucleic acid by hybridization, effective inhibition of cross-hybridization between the target nucleic acid and complementary strands of sequences similar thereto, which non-specific-binding inhibitor has a stable quality among production lots, and a hybridization method for nucleic acid uses the inhibitor. The non-specific-binding inhibitor for nucleic acid includes a nucleic acid which has a base length of 2 to 11 bases and in which the content of a guanine base(s) and/or methylated guanine base(s) in the entire base sequence is not less than 70%.

The present document describes nucleic acid structures comprising a plurality of annealed motifs that are made from complementary oligonucleotides having domains with sequences complementary to other nucleotides of the motif. The annealed motifs may be anchored to surfaces, and functional elements may be attached to the annealed motifs. The nucleic acid structures may used to make sensors therefrom. The present document also describes methods to generate said nucleic acid structures.

The present document describes nucleic acid structures comprising a plurality of annealed motifs that are made from complementary oligonucleotides having domains with sequences complementary to other nucleotides of the motif. The annealed motifs may be anchored to surfaces, and functional elements may be attached to the annealed motifs. The nucleic acid structures may used to make sensors therefrom. The present document also describes methods to generate said nucleic acid structures.

The present invention relates to nucleic acid libraries, peptide libraries and uses thereof. The invention relates to libraries of nucleic acids that encode a plurality of peptides that represent fragments of naturally occurring proteins. In particular, the invention relates to a library of nucleic acids, each nucleic acid comprising a coding region of defined nucleic acid sequence encoding for a peptide having a length of between 25 and 110 amino acids, and having an amino acid sequence being a region of a sequence selected from the amino acid sequence of a naturally occurring protein of one or more organisms; wherein the library comprises nucleic acids that encode for a plurality of at least 10,000 different such peptides, and wherein the amino acid sequence of each of at least 50 of such peptides is a sequence region of the amino acid sequence of a different protein of a plurality of different such naturally occurring proteins.

The present invention relates to nucleic acid libraries, peptide libraries and uses thereof. The invention relates to libraries of nucleic acids that encode a plurality of peptides that represent fragments of naturally occurring proteins. In particular, the invention relates to a library of nucleic acids, each nucleic acid comprising a coding region of defined nucleic acid sequence encoding for a peptide having a length of between 25 and 110 amino acids, and having an amino acid sequence being a region of a sequence selected from the amino acid sequence of a naturally occurring protein of one or more organisms; wherein the library comprises nucleic acids that encode for a plurality of at least 10,000 different such peptides, and wherein the amino acid sequence of each of at least 50 of such peptides is a sequence region of the amino acid sequence of a different protein of a plurality of different such naturally occurring proteins.

Electrical detection methods are used to identify and further characterize single-molecule target analytes such as proteins and nucleic acids. A composition including a probe region and a tail region is contacted with a target analyte. The probe region specifically binds to the target analyte. The tail region is coupled to the probe region, and includes a nucleic acid template for polynucleotide synthesis. When conditions are such that polynucleotide synthesis occurs along the tail region, one hydrogen ion is released for every nucleotide that is incorporated into the tail region. A transistor such as an ISFET detects and measures changes in ion concentration, and these measurements can be used to identify the tail region and thus characterize the corresponding target analyte.