The present disclosure is directed to methods and kits for identifying, enriching, and evaluating templated assembly reactants. Some embodiments disclose methods for identifying templated assembly targets by synthesizing templated assembly reactants, hybridizing the templated assembly reactants to target nucleic acids, performing a templated assembly reaction, and identifying the target nucleic acids that hybridized to the templated assembly reactants. Libraries of templated assembly reactants, a kit for identifying templated assembly targets, and a pair of templated assembly targets enriched from a library of chemically-ligated oligonucleotides spatially elicited (CLOSE) products are also disclosed.

A cartridge for use in in-vitro diagnostics, the cartridge including a cartridge housing, a cartridge element, disposed within the cartridge housing and defining a plurality of operational volumes, at least some of the plurality of operational volumes being mutually linearly aligned, a fluid solution transporter operative to transfer fluid solutions from at least one of the plurality of operational volumes to at least another of the plurality of operational volumes, the fluid solution transporter including a linearly displaceable transport element operative to sequentially communicate with interiors of the at least some of the plurality of operational volumes and a venter, including a linearly displaceable venting element, operative in coordination with the fluid solution transporter to vent at least one of the plurality of operational volumes.

The present invention pertains to a system for the assembly and modification of non-ribosomal peptide synthases (NRPS). The system uses novel well defined building blocks (units) comprising condensation subdomains. This strategy allows for the efficient combination of assembly units referred to as eXchange Units (XU2.0) independent on their natural occurring specificity for the subsequent NRPS adenylation domain. The system of the invention allows for the easy assembly of NRPS having any amino acid sequence of choice, without any restrictions due to natural occurring NRPS units. The system also allows the exchange of natural NRPS building blocks with the inventive XU2.0 leading to the production of modified peptides. The invention provides the system, their individual exchange units, nucleic acids encoding these units, as well as methods and uses thereof.

The present disclosure is directed to methods and kits for identifying, enriching, and evaluating templated assembly reactants. Some embodiments disclose methods for identifying templated assembly targets by synthesizing templated assembly reactants, hybridizing the templated assembly reactants to target nucleic acids, performing a templated assembly reaction, and identifying the target nucleic acids that hybridized to the templated assembly reactants. Libraries of templated assembly reactants, a kit for identifying templated assembly targets, and a pair of templated assembly targets enriched from a library of chemically-ligated oligonucleotides spatially elicited (CLOSE) products are also disclosed.

The present invention relates to a technique for genomic library screening and provides a method for separating, capturing, analyzing, and retrieving cells and cell products by using a microstructure that can be preferentially applied to the field of antibody engineering for the development of new therapeutic antibodies and can be extensively applied to multiple genetic/phenotypic analysis of various biochemical molecules, for example, in the field of protein engineering and metabolic engineering.

The present invention relates to a technique for genomic library screening and provides a method for separating, capturing, analyzing, and retrieving cells and cell products by using a microstructure that can be preferentially applied to the field of antibody engineering for the development of new therapeutic antibodies and can be extensively applied to multiple genetic/phenotypic analysis of various biochemical molecules, for example, in the field of protein engineering and metabolic engineering.

Provided are populations of polypeptides, wherein each member of the population of polypeptides includes or is an amino sequence as set forth in SEQ ID NO: 5 or SEQ ID NO: 6. Also provided are methods for identifying polypeptides that bind to pre-selected target molecules, which in some embodiments can include providing a population of polypeptides as described herein, contacting the population of polypeptides with a pre-selected target molecule, and identifying a complex comprising at least one member of the population of polypeptides bound to the pre-selected target molecule; and populations of nucleic acid molecules that encode the presently disclosed populations of polypeptides.

This invention provides methods for attaching a nucleic acid to a solid surface and for sequencing nucleic acid by detecting the identity of each nucleotide analogue after the nucleotide analogue is incorporated into a growing strand of DNA in a polymerase reaction. The invention also provides nucleotide analogues which comprise unique labels attached to the nucleotide analogue through a cleavable linker, and a cleavable chemical group to cap the OH group at the 3-position of the deoxyribose.

This invention provides methods for attaching a nucleic acid to a solid surface and for sequencing nucleic acid by detecting the identity of each nucleotide analogue after the nucleotide analogue is incorporated into a growing strand of DNA in a polymerase reaction. The invention also provides nucleotide analogues which comprise unique labels attached to the nucleotide analogue through a cleavable linker, and a cleavable chemical group to cap the OH group at the 3-position of the deoxyribose.

The present invention relates to a method for synthesising templated molecules. In one aspect of the invention, the templated molecules are linked to the template which templated the synthesis thereof. The invention allows the generation of libraries which can be screened for e.g. therapeutic activity.