A peptoid compound, a manufacturing method of a peptoid compound, an oligomer, a pharmaceutical composition, use of the pharmaceutical composition in the preparation of a medicament for detecting or diagnosing a disease related to tyrosine kinase HER2, and a kit for identifying circulating tumor cells are provided, the peptoid compound includes: a cysteine (Cys) subunit, a butanediamine (Nlys) subunit, a 3,4-methylenedioxybenzylamine (Npip) subunit, a 3-aminopropanic acid (Nce) subunit and a 1-naphthylamine (Na) subunit, and both the peptoid compound and the oligomer have a strong ability to bind to HER2 protein on surfaces of circulating tumor cells (CTCs), and a technology of diagnosing breast cancer on the basis of the peptoid compound can realize non-invasive and label-free rapid diagnosis, in addition, the methods for synthesizing the peptoid compound and the oligomer are simple, the preparation efficiency is high, and the production cost is low.

The present invention relates to novel D-enantiomeric A-beta-oligomer-binding peptides, homologs, fragments, parts and polymers thereof and use thereof.

The present invention concerns an ex vivo method for the monitoring of apoptosis which is based on the detection of free gamma-glutamyl-L-epsilon-Lysine (GGEL) in a biological sample of a subject with a monoclonal antibody specific to GGEL. The invention also relates to the monoclonal antibody specific to GGEL, as well as to diagnostic kits containing such a ligand.

Provided are methods and compositions which are useful for separating, isolating, detecting, and quantifying compounds of interest which have been modified chemically, enzymatically or catalytically from other compounds which have not been so modified. The modifications may take the form of functional groups which are gained, lost or retained by the compounds of interest.

A method evaluates a quality of a dephosphorylation reagent, the method including the steps of: providing a dephosphorylation reagent containing an alkaline phosphatase and a peptide fragment derived from the alkaline phosphatase; and evaluating the dephosphorylation reagent as having a high quality if a content ratio of the peptide fragment to the alkaline phosphatase is a predetermined reference value or less.

The present invention relates to compositions and methods use in designing immunoassay controls. In various aspects, the invention provides synthetic peptides comprising the sequence CPRRPYIL or an analog thereof; ELAGLGFAELQC or an analog thereof; and CDWRKNIDAL or an analog thereof; specific binding reagents that bind to a CPRRPYIL, ELAGLGFAELQC or CDWRKNIDAL peptide; methods of producing such reagents; and assays utilizing such reagents to provide assay controls signals that are unrelated to the measurement of the analyte or analytes of interest in that no reagents used in the analyte assay(s) contribute to the control signal.

The present invention relates to compositions and methods use in designing immunoassay controls. In various aspects, the invention provides synthetic peptides comprising the sequence CPRRPYIL (SEQ ID NO: 1) or an analog thereof; ELAGLGFAELQC (SEQ ID NO: 4) or an analog thereof; and CDWRKNIDAL (SEQ ID NO: 8) or an analog thereof; specific binding reagents that bind to a CPRRPYIL (SEQ ID NO: 1), ELAGLGFAELQC (SEQ ID NO: 4) or CDWRKNIDAL (SEQ ID NO: 8) peptide; methods of producing such reagents; and assays utilizing such reagents to provide assay controls signals that are unrelated to the measurement of the analyte or analytes of interest in that no reagents used in the analyte assay(s) contribute to the control signal.

Provided are methods and compositions which are useful for separating, isolating, detecting, and quantifying compounds of interest which have been modified chemically, enzymatically or catalytically from other compounds which have not been so modified. The modifications may take the form of functional groups which are gained, lost or retained by the compounds of interest.

The present invention relates to compositions and methods use in designing immunoassay controls. In various aspects, the invention provides synthetic peptides comprising the sequence CPRRPYIL (SEQ ID NO: 1) or an analog thereof; ELAGLGFAELQC (SEQ ID NO: 4) or an analog thereof; and CDWRKNIDAL (SEQ ID NO: 8) or an analog thereof; specific binding reagents that bind to a CPRRPYIL (SEQ ID NO: 1), ELAGLGFAELQC (SEQ ID NO: 4) or CDWRKNIDAL (SEQ ID NO: 8) peptide; methods of producing such reagents; and assays utilizing such reagents to provide assay controls signals that are unrelated to the measurement of the analyte or analytes of interest in that no reagents used in the analyte assay(s) contribute to the control signal.

The present application provides constructs comprising an antibody moiety that specifically binds to a complex comprising a histone H3 peptide and an MHC class I protein. Also provided are methods of making and using these constructs.