The present disclosure provides methods, compositions, kits, and systems useful in the determination and evaluation of the immune repertoire using genomic DNA from a biological sample. In one aspect, target-specific primer panels provide for the effective amplification of sequences of T cell receptor and/or B cell receptor chains with improved sequencing accuracy and resolution over the repertoire. Nucleic acid sequences of variable regions associated with the immune cell receptor are determined to effectively portray clonal diversity of a biological sample and/or differences associated with the immune cell repertoire of a biological sample.

The present disclosure provides methods, compositions, kits, and systems useful in the determination and evaluation of the immune repertoire using genomic DNA from a biological sample. In one aspect, target-specific primer panels provide for the effective amplification of sequences of T cell receptor and/or B cell receptor chains with improved sequencing accuracy and resolution over the repertoire. Nucleic acid sequences of variable regions associated with the immune cell receptor are determined to effectively portray clonal diversity of a biological sample and/or differences associated with the immune cell repertoire of a biological sample.

Provided herein are methods and systems for detecting tissue conditions. In some aspects, levels of at least one marker of a disease or condition and at least one tissue-specific cell-free polynucleotide are quantified, levels are compared to a reference, and it is determined whether the tissue has been damaged by the disease or condition based on the comparing. Systems for performing the methods described herein are also provided.

Provided herein are methods and systems for detecting tissue conditions. In some aspects, levels of at least one marker of a disease or condition and at least one tissue-specific cell-free polynucleotide are quantified, levels are compared to a reference, and it is determined whether the tissue has been damaged by the disease or condition based on the comparing. Systems for performing the methods described herein are also provided.

The present disclosure provides methods to recover repertoires of T cell receptors (TCRs). In some embodiments, TCR repertoires are recovered from non-viable samples. In some embodiments, libraries of TCR pairs are created. In some embodiments, the methods disclosed are used for cancer immunotherapy or diagnostic purposes.

The present invention provides a new methodology combining MD simulations and database-guided high-throughput screening to rationally design pore forming membrane-active peptides. The present inventive methodology is able to allow tuning of a range of structural and functional properties such as pore size and selectively targeting membranes with specific lipid compositions. The present inventive methods will ultimately allow de novo design of membrane-active peptides for a wide range of biomedical applications, including for example, antimicrobial agents.

Embodiments in accordance with the present disclosure are directed to polymer beads and uses thereof, including forming libraries of compounds for screening and assay purposes. A polymer bead, in accordance with embodiments, has an interior surface and an exterior surface that are topologically segregated from one another. The interior surface includes a protecting group and the exterior surface includes a deprotected group, which can also be referred to as a deprotected functional group. The protecting group can includes a nitrobenzenesulfonamide group that protects an amine group.

Provided herein is technology relating to sensors for detecting an analyte and particularly, but not exclusively, to liquid crystal sensors, methods of producing liquid crystal sensors, and methods of using liquid crystal sensors.

The present invention relates to the field of proteases. More specifically, the present invention provides compositions and methods useful for profiling protease activity using phage display. In one embodiment, a display vector useful for profiling protease activity comprises a nucleic acid sequence encoding (a) a peptide to be displayed on the surface of the vector; (b) a first affinity tag C-terminal to the peptide; and (c) a second affinity tag N-terminal to the peptide. The display vector can comprise a virus, bacteriophage, yeast, bacteria, retrovirus, ribosome or mRNA. In particular embodiments, the peptide comprises a human peptidome library peptide.

The present invention provides a method of solid-phase synthesis of DNA-encoded compound library. The method includes following steps: a) reacting solid carrier G-1 with linker molecule L-1 to prepare L-G-1; b) reacting DNA with linker molecule L-0 to prepare L-2; c) reacting L-G-1 with L-2 to prepare L-G-2; d) removing protection group of the L-G-2 and obtaining L-G-2-1; e) reacting the L-G-2-1 with synthetic building block and performing DNA encoding; and f) removing the solid carrier and obtaining the DNA-encoded compound library. Compared with the prior art, the present invention can complete post-treatment purification of the reaction only by filtration and irrigation processes for several times. The present invention is simple to operate, can shorten the production cycle of DNA encoded compound library with more than 50%, significantly increases the production efficiency and the unicity as well as the purity of the final products.