The field of the invention generally relates to cancer, including methods for diagnosing, prognosing, and treating cancer. In particular, the field of the invention relates to novel signatures of unique sets of point mutations involving a change of a cytosine or a guanidine, and methods, systems, and components thereof based upon the novel signature for identifying tumor samples having increased tumor mutational burden (TMB). Both the signatures and the methods, systems, and components thereof may be utilized for identifying cancer patients, microsatellite stable-cancer patients in particular, who will effectively respond to immune checkpoint blockade therapy.

Provided is a composition for detecting mutations of 2019 novel coronavirus mutation. Also provided are a kit containing the composition, the use of the composition, and a method for detecting mutations of 2019 novel coronavirus.

Provided is a composition for detecting mutations of 2019 novel coronavirus mutation. Also provided are a kit containing the composition, the use of the composition, and a method for detecting mutations of 2019 novel coronavirus.

An in vitro or ex vivo method for determining the risk of incidence of a healthcare-associated infection includes a step of measuring the expression of TAP2 in a biological sample from said patient.

An in vitro or ex vivo method for determining the risk of incidence of a healthcare-associated infection includes a step of measuring the expression of TAP2 in a biological sample from said patient.

Provided herein are compositions and methods for accurate and scalable Primary Template-Directed Amplification (PTA) nucleic acid amplification and sequencing methods, and their applications for mutational analysis in research, diagnostics, and treatment. Further provided herein are multiomics methods for parallel analysis of DNA, RNA, and/or proteins from single cells. Provided herein are methods of multiomic single-cell analysis comprising: (a) isolating a single cell from a population of cells; (b) sequencing a cDNA library comprising polynucleotides amplified from mRNA transcripts from the single cell; and (c) sequencing a genome of the single cell.

Provided herein are compositions and methods for accurate and scalable Primary Template-Directed Amplification (PTA) nucleic acid amplification and sequencing methods, and their applications for mutational analysis in research, diagnostics, and treatment. Further provided herein are multiomics methods for parallel analysis of DNA, RNA, and/or proteins from single cells. Provided herein are methods of multiomic single-cell analysis comprising: (a) isolating a single cell from a population of cells; (b) sequencing a cDNA library comprising polynucleotides amplified from mRNA transcripts from the single cell; and (c) sequencing a genome of the single cell.

The medical field of COVID-19 diagnosis relates to methods for detecting SARS-CoV-2 nucleic acids in a sample as well as combinations of oligomers for determining the presence or absence of SARS-CoV-2 in a Sample.

The medical field of COVID-19 diagnosis relates to methods for detecting SARS-CoV-2 nucleic acids in a sample as well as combinations of oligomers for determining the presence or absence of SARS-CoV-2 in a Sample.

The present invention relates to a chimeric antigen receptor (CAR) which comprises an antigen-binding domain which selectively binds TCR beta constant region 1 (TRBC1) or TRBC2; cells; such a T cells comprising such a CAR; and the use of such cells for the treatment of a T-cell lymphoma or leukaemia in a subject.