Among other things, motility of at least one individual microorganism or a change in motility of at least one individual microorganism or both is or are characterized. The characterized motility or change in motility is used to detect the presence or count of the at least one individual microorganism, or determine the identity of a species or strain of the at least one individual microorganism, or determine a susceptibility of the at least one individual microorganism to one or more antibiotics or other antimicrobials.

This application provides a bead with a covalently attached chemical compound and a covalently attached DNA barcode and methods for using such beads. The bead has many substantially identical copies of the chemical compound and many substantially identical copies of the DNA barcode. The compound consists of one or more chemical monomers, where the DNA barcode takes the form of barcode modules, where each module corresponds to and allows identification of a corresponding chemical monomer. The nucleic acid barcode can have a concatenated structure or an orthogonal structure. Provided are method for sequencing the bead-bound nucleic acid barcode, for cleaving the compound from the bead, and for assessing biological activity of the released compound.

Disclosed are systems and methods for utilizing electronic health record data (EHR) to group patients with diagnoses of a common disease of interested (e.g. Parkinson's disease) into phenotype clusters that share common clusters of other diagnosis codes (in addition to the Parkinson's diagnosis, for example). The phenotype clusters can be processed with genetic data to identify convergent genetic mutations within each phenotype cluster and output phenotypic-genomic clusters. Then, stem cells from the patients (e.g. iPSCs) may be differentiated into a desired cell type within each phenotypic-genomic cluster, and these differentiated cells may be assayed to identify defects in the various tissues types or organoids. Additionally, the differentiated cells can then be tested with candidate agents to determine whether the agents reverse the defective phenotypes identified in the differentiated tissues or organoids.

Provided herein are compositions and methods of use thereof for screening a plurality of uniquely identifiable therapeutic moiety in vivo by identifying one or more reporters indicative of a cell state.

An object of the present invention is to provide a pharmaceutical composition useful as a novel anti-hepatitis B virus agent and a screening method. According to the present invention, there is provided a pharmaceutical composition that inhibits the production of a hepatitis B virus protein, in which the pharmaceutical composition inhibits the expression or the function of a protein belonging to the YTHDC family.

The present disclosure relates to compositions and methods for targeting antigenically variable pathogens and diseases. Embodiments of the present disclosure involve of the construction of variable epitope libraries (VELs) containing mutated versions of epitopes derived from antigens associated with various diseases for treating subjects in both therapeutic and prophylactic settings. The present disclosure also provides compositions and methods for the production of VELs based on CTL-derived epitopes of survivin, an oncogenic inhibitor-of-apoptosis. Given the large number of potential epitopes expressed in tumors, and the dynamic nature of the tumor epitope landscape, there is a need to develop compositions and methods for targeting various antigenic epitopes to counteract immune escape.

The present disclosure relates to compositions and methods for targeting antigenically variable pathogens and diseases. Embodiments of the present disclosure involve of the construction of variable epitope libraries (VELs) containing mutated versions of epitopes derived from antigens associated with various diseases for treating subjects in both therapeutic and prophylactic settings. The present disclosure also provides compositions and methods for the production of VELs based on CTL-derived epitopes of survivin, an oncogenic inhibitor-of-apoptosis. Given the large number of potential epitopes expressed in tumors, and the dynamic nature of the tumor epitope landscape, there is a need to develop compositions and methods for targeting various antigenic epitopes to counteract immune escape.

The present invention generally relates to specificity assays using cell cultures, in particular to chimeric antigen receptor (CAR) expressing reporter T (CAR-T cell) assays to test antigen binding moieties in different formats. Furthermore, the present invention relates to the use of CAR-T cells, transfected/transduced with an engineered chimeric antigen receptor (CAR) comprising a target antigen binding moiety capable of specific binding to a target antigen, e.g., tumor associated antigens.

The present invention generally relates to specificity assays using cell cultures, in particular to chimeric antigen receptor (CAR) expressing reporter T (CAR-T cell) assays to test antigen binding moieties in different formats. Furthermore, the present invention relates to the use of CAR-T cells, transfected/transduced with an engineered chimeric antigen receptor (CAR) comprising a target antigen binding moiety capable of specific binding to a target antigen, e.g., tumor associated antigens.

The present disclosure is directed to methods of detecting cell-free DNA (cfDNA) in biological samples and using it to quantify organ damage and identify pathogens. In some aspects, the biological samples are from patients who have undergone solid-organ transplantation. The disclosure is also directed to methods of detecting and analyzing methylation patterns in cell-free DNA from organ transplant patients to identify the presence of pathogens as well as quantify contributing tissue proportions as a measurement of the host response.