Abstract: The present invention discloses, inter alia, methods for labeling a target protein with an SHG-active probe for detection by second harmonic or sum-frequency generation in order to identify agents which bind to an allosteric site on the target protein thereby altering its structural conformation.

Abstract: The present invention relates to novel diagnostic markers for kidney disease and the use thereof.

Abstract: The application generally relates to the field of diagnostic or prognostic assays and in particular relates to assays for the detection of antibodies in a sample comprising patient bodily fluid, wherein such antibodies are used as biological markers of a disease state or disease susceptibility. The assay is based on cross-titration of both the patient bodily fluid to be tested for the antibody and an antigen used to detect the antibody by specific binding.

Abstract: In some cases, the described systems and methods include obtaining a cell sample containing multiple antibody-producing cells. In such cases, the cells can be tagged with a cross-linking reagent having a first portion configured to bind to a marker on the antibody-producing cells and a second portion configured to bind to an antigen of interest. In some instances, the tagged antibody-producing cells are exposed to the antigen of interest such that the antigen becomes bound to the cells. In some such instances, the antibody-producing cells are also allowed to produce an antibody, such that a portion of the antibody-producing cells produce an antigen-specific antibody that binds to the antigen of interest. To identify cells that produce the antigen-specific antibody, the tagged cells can be exposed to a labeled secondary antibody that is configured to bind to the antigen-specific antibody. Other implementations are also described.

Abstract: A polypeptide linker comprising an antibody-binding region and an enzyme cleavage region, and related compositions, kits, and methods of using same.

Abstract: Methods, compositions and kits for detecting the complement Factor B cleavage product Ba in a biological sample are described. These methods, compositions and kits are useful in convenient, reliable and early diagnosis of or ruling out pre-eclampsia in a pregnant human subject.

Abstract: Provided are methods of determining whether a cell in a tissue site is viable or nonviable. Also provided are methods of debriding tissue from a tissue site. Further provided are kits comprising a compound that distinguishes between viable and nonviable cells and instructions for using the compound on a tissue site. Additionally, the use of a compound that distinguishes between viable and nonviable cells is provided, where the use is to determine whether a cell in a tissue site is viable or nonviable. Also provided is a use of a compound that distinguishes between viable and nonviable cells, where the use is for the manufacture of the above-described kit.

Abstract: There is described herein methods and peptides for detecting autoantibodies to NOG and/or SOST in a patient sample in order to diagnose of prognosticate Ankylosing Spondylitis in the patient.

Abstract: The inventors have proposed a novel panel of human plasma protein biomarkers for diagnosing hepatic fibrosis and cirrhosis. Presently there is no reliable non-invasive way of assessing liver fibrosis. A 2D-PAGE based proteomics study was used to identify potential fibrosis biomarkers. Plasma from patients with hepatic cirrhosis induced by infection with the hepatitis C virus (HCV) were analyzed. Several proteins associated with liver scarring and potentially also related to viral infection were identified. These proteins include 14-3-3 protein zeta/delta, adiponectin, afamin, alpha-1-antitrypsin, alpha-2-HS-glycoprotein, apolipoprotein C-III, apolipoprotein E, C4b-binding protein beta chain, intact/cleaved complement C3dg, corticosteroid-binding globulin, fibrinogen gamma chain, beta haptoglobin at pH 5.46-5.

Abstract: The present invention provides assays for detecting and measuring the presence or level of anti-TNF? drug therapeutics and autoantibodies in a sample. The present invention is useful for optimizing therapy and monitoring patients receiving anti-TNF? drug therapeutics to detect the presence or level of autoantibodies (e.g., HACA and/or HAHA) against the drug.

Abstract: Analyte sensors, methods for producing and using analyte sensors, methods of detecting and/or measuring analyte activity, detecting pH change, and/or, controlling the concentration of an analyte in a system, are disclosed. Embodiments of the analyte sensors according to the disclosure can provide an accurate and convenient method for characterizing analyte activity, detecting pH change, controlling the concentration of an analyte in a system, and the like, in both in vivo and in vitro environments, in particular in living cell imaging.

Abstract: Embodiments herein relate to the field of screening tools for fetal/maternal wellness, and, more specifically, to biomarkers for gestational diabetes. In various embodiments, the methods may provide non-invasive and minimally-invasive screening tools for gestational diabetes that involve detection of changes in a proteomic profile of a test sample relative to a reference sample. In particular embodiments, the method may include determining whether a proteomic profile of a test sample from the subject includes at least one expression signature characteristic of gestational diabetes, wherein the proteomic profile comprises information on the expression of glycosylated fibronectin and glycosylated PSG, for example information on levels of fibronectin-SNA or a fibronectin-antibody complex, and PSG-AAL or a PSG-antibody complex.

Abstract: Presented herein are methods of diagnosing, assessing, and treating an individual at increased risk if developing coronary heart disease or cardiovascular event, based on the individual's level of high density lipoprotein cholesterol apoCIII (HDL-C apoCIII).

Abstract: Embodiments of the present disclosure provide for enzyme sensors, protease sensors, methods for producing and using the enzyme and protease sensors, methods of detecting and/or measuring protease activity, methods for characterizing protease cellular activity, fusion proteins, polynucleotides, and vectors corresponding to the enzyme and protease sensors, kits, and the like.

Abstract: The present invention relates to a dual activity domain of JAK proteins, namely JH2. It is provided that the JH2 domain is a true and important target for drug development, especially for diseases caused by aberrant JAK signalling, such as myeloproliferative disorders and leukemias.

Abstract: The present disclosure describes immunoassays for detecting cardiac troponin-T (cTnT) in a test sample, and in particular immunoassays and kits for detecting cTnT in a test sample suspected of containing substances that may interfere with the determination of cTnT, such as heterophilic endogenous antibodies and autoantibodies to cTnT. The methods use more than one capture phase antibody and more than one detection antibody to improve specificity, and provide for the use of humanized immunoreagents to overcome heterophilic antibody interferences.

Abstract: PARylated proteins are enriched by treating cell lysates comprising PARylated proteins and DNA/RNA with an endonuclease that cleaves the DNA/RNA but not the PAR; and separating the PARylated proteins from the cleaved DNA/RNA. PARylation sites are labeled by eluting PARylated proteins from a PAR-affinity substrate with a nucleophilic amine exchange reactant, wherein the reactant labels PARylation sites of the proteins. Specific binding agents are identified by screening compounds for specific binding to a PARylated protein disclosed herein; and identifying one of the compounds as a specific binder of the protein. Antibodies which specifically bind PARylation sites are also disclosed.

Abstract: The disclosure relates to methods for screening candidate antibody molecules which bind to podocalyxin-like protein (PODXL) and/or to undifferentiated pluripotent stem cells and particularly, although not exclusively, to methods for identifying candidate cytotoxic antibody molecules.

Abstract: A method for the prediction of the risk and/or the diagnosis of vascular damage such as acute vascular rejection in a subject, based on the determination of anti-LG3 antibodies levels in a sample from the subject, is disclosed.

Abstract: A method for the quantitative assay of n different analytes, where n is at least 2, is provided. The method consists of the following steps: (a) At least one labeled detector-binding partner is added to a test sample containing the analytes. This leads to the formation of detector-analyte complexes, each of which consists of one analyte molecule and one detector molecule. The number of detector binding partners x equals n?1. Each detector-binding partner binds to at least one analyte. At least one of the detector-binding partners can bind to at least two analytes. (b) The detector-analyte complexes formed in step (a) bind to capture-binding partners and form detector-analyte-capture complexes. The number of capture-binding partners y equals the number n of the analytes. Each capture-binding partner is specific for at least one detector-analyte complex. (c) The time-resolved formation of the detector-analyte-capture complexes is measured.