Provided herein are substantially non-luminescent peptide/polypeptide tags that are inserted internally within a protein of interest or between N-terminal and C-terminal peptides/polypeptides. Interaction of the internally-inserted tag with a complement polypeptide/peptide that is also substantially non-luminescent results in the formation a bioluminescent reporter complex.

Provided herein are substantially non-luminescent peptide/polypeptide tags that are inserted internally within a protein of interest or between N-terminal and C-terminal peptides/polypeptides. Interaction of the internally-inserted tag with a complement polypeptide/peptide that is also substantially non-luminescent results in the formation a bioluminescent reporter complex.

Provided herein are substantially non-luminescent peptide/polypeptide tags that are inserted internally within a protein of interest or between N-terminal and C-terminal peptides/polypeptides. Interaction of the internally-inserted tag with a complement polypeptide/peptide that is also substantially non-luminescent results in the formation a bioluminescent reporter complex.

Antibody/signal-generating moiety conjugates are disclosed that include an antibody covalently linked to a signal-generating moiety through a heterobifunctional polyalkyleneglycol linker. The disclosed conjugates show exceptional signal-generation in immunohistochemical and in situ hybridization assays on tissue sections and cytology samples. In one embodiment, enzyme-metallographic detection of nucleic acid sequences with hapten-labeled probes can be accomplished using the disclosed conjugates as a primary antibody without amplification.

Antibody/signal-generating moiety conjugates are disclosed that include an antibody covalently linked to a signal-generating moiety through a heterobifunctional polyalkyleneglycol linker. The disclosed conjugates show exceptional signal-generation in immunohistochemical and in situ hybridization assays on tissue sections and cytology samples. In one embodiment, enzyme-metallographic detection of nucleic acid sequences with hapten-labeled probes can be accomplished using the disclosed conjugates as a primary antibody without amplification.

An object of the invention is to provide a method for detecting cancer in a simple and highly accurate manner, and a reagent that can be used in the method. A method for detecting cancer (excluding renal cell cancer), which comprises measuring the level of Azurocidin (AZU1) in a sample, in which it is determined that cancer is detected when a measured value exceeds a preset reference value. The cancer is preferably selected from the group consisting of stomach cancer, breast cancer, colorectal cancer, and lung cancer. A reagent containing an antibody that specifically recognizes AZU1 is used in detecting cancer (excluding renal cell cancer).

An object of the invention is to provide a method for detecting cancer in a simple and highly accurate manner, and a reagent that can be used in the method. A method for detecting cancer (excluding renal cell cancer), which comprises measuring the level of Azurocidin (AZU1) in a sample, in which it is determined that cancer is detected when a measured value exceeds a preset reference value. The cancer is preferably selected from the group consisting of stomach cancer, breast cancer, colorectal cancer, and lung cancer. A reagent containing an antibody that specifically recognizes AZU1 is used in detecting cancer (excluding renal cell cancer).

The composition includes a first construct having a first portion of a protein and a first antigen-recognizing amino acid sequence; and a second construct having a second portion of the protein that catalyzes a reaction when combined with the first portion of the protein and a second antigen-recognizing amino acid sequence. The first and second synthetic constructs include a sulfhydryl group configured such that a disulfide bond is formed between the first and second synthetic constructs when the first antigen-recognizing amino acid sequence and the second antigen-recognizing amino acid sequence bind an antigen.

The present disclosure relates to compositions, kits, and methods to perform peptide exchange on MHC class II molecules, such as quantified peptide exchange.

The present disclosure relates to compositions, kits, and methods to perform peptide exchange on MHC class II molecules, such as quantified peptide exchange.