Disclosed is a method for obtaining a bifunctional complex comprising a display molecule part and a coding part, wherein a nascent bifunctional complex comprising a chemical reaction site and a priming site for enzymatic addition of a tag is reacted at the chemical reaction site with one or more reactants, and provided with respective tag(s) identifying the reactant(s) at the priming site is using one or more enzymes.

Disclosed is a novel method of allele profiling, or nucleic acid sieving, with pooled Sanger sequencing as a first (aka screening) stage; where the first step is: amplifying a single sequence, delineated by forward and reverse primers which may represent a single exon, or a segment thereof, or a contiguous stretch of multiple exons and introns. The amplicons produced from a pool of samples include the amplified sequence, and these are next converted into fragments in the standard Sanger labeling reaction. Ambiguities will appear as superposed peaks at any heterozygous position of interest, as the origin of the variant signal cannot be uniquely attributable to a specific sample, or samples, in the pool. These ambiguities may be resolved by the allele profiling process; or, resolution can be done with source-tagged primers generating source-tagged amplicons, which generate position shifts in labels, which can be decoded to resolve the ambiguities.

Disclosed is a novel method of allele profiling, or nucleic acid sieving, with pooled Sanger sequencing as a first (aka screening) stage; where the first step is: amplifying a single sequence, delineated by forward and reverse primers which may represent a single exon, or a segment thereof, or a contiguous stretch of multiple exons and introns. The amplicons produced from a pool of samples include the amplified sequence, and these are next converted into fragments in the standard Sanger labeling reaction. Ambiguities will appear as superposed peaks at any heterozygous position of interest, as the origin of the variant signal cannot be uniquely attributable to a specific sample, or samples, in the pool. These ambiguities may be resolved by the allele profiling process; or, resolution can be done with source-tagged primers generating source-tagged amplicons, which generate position shifts in labels, which can be decoded to resolve the ambiguities.

This invention relates to the synthesis of nucleic acid-encoded chemical libraries using common adaptor sequences. Nucleic acid strands coupled to chemical moieties may be contacted with identifier oligonucleotides comprising coding sequences encoding the chemical moieties and an adaptor oligonucleotides, such that the adaptor oligonucleotide hybridizes to both the nucleic acid strands and the identifier oligonucleotides to allow ligation of the identifier oligonucleotides to the nucleic acid strands. The adaptor oligonucleotide is then removed. Nucleic acid-encoded chemical libraries, and methods of producing or screening such libraries are provided.

This invention relates to the synthesis of nucleic acid-encoded chemical libraries using common adaptor sequences. Nucleic acid strands coupled to chemical moieties may be contacted with identifier oligonucleotides comprising coding sequences encoding the chemical moieties and an adaptor oligonucleotides, such that the adaptor oligonucleotide hybridizes to both the nucleic acid strands and the identifier oligonucleotides to allow ligation of the identifier oligonucleotides to the nucleic acid strands. The adaptor oligonucleotide is then removed. Nucleic acid-encoded chemical libraries, and methods of producing or screening such libraries are provided.

This disclosure describes compositions, methods, and systems for constructing defined variation in a contiguous functional genetic unit in association with a unique sequence identifier (a barcode) in a combinatorial manner.

The present invention provides a low-frequency mutation enrichment sequencing method for free target DNA in plasma, comprising plasma DNA extraction and library construction, general library TT COLD PCR amplification enrichment, probe enrichment capture, PCR and sequencing of captured products, and positive and negatice double-strand error-correction low-frequency information analysis.

The present invention provides a low-frequency mutation enrichment sequencing method for free target DNA in plasma, comprising plasma DNA extraction and library construction, general library TT COLD PCR amplification enrichment, probe enrichment capture, PCR and sequencing of captured products, and positive and negatice double-strand error-correction low-frequency information analysis.

The invention concerns a chemical compound comprising a chemical moiety (p) capable of performing a binding interaction with a target molecule (e.g. a biological target) and further comprising an oligonucleotide (b) or functional analogue thereof. In a first embodiment according to the invention, the chemical compound is characterized in that the oligonucleotide (b) or functional analogue comprises at least one self-assembly sequence (b1) capable of performing a combination reaction with at least one self-assembly sequence (b1) of a complementary oligonucleotide or functional analogue bound to another chemical compound comprising a chemical moiety (q). In a second embodiment according to the invention, the chemical compound which comprises a coding sequence (b1) coding for the identification of the chemical moiety (p) is characterized in that the chemical compound further comprises at least one self-assembly moiety (m) capable of performing a combination reaction with at least one self-assembly moiety (m) of a similar chemical compound comprising a chemical moiety (q). The invention comprises corresponding libraries of chemical compounds as well as methods of biopanning of target molecules and of identifying such targets.

Some embodiments of the present invention relate to the enrichment of non-host nucleic acids in a mixture of host and non-host nucleic acids. Some embodiments include methods for detecting pathogenic organisms from a nucleic acid sample comprising host nucleic acids and nucleic acids indicative of the pathogenic organism.