Abstract: The present invention relates generally to methods for identifying drug side effects by detecting perturbations in organ-specific molecular blood fingerprints. The invention further relates to methods for identifying drug-specific organ-specific molecular blood fingerprints. As such, the present invention provides compositions comprising organ-specific proteins, detection reagents for detecting such proteins, and panels and arrays for determining organ-specific molecular blood fingerprints.

Abstract: The invention relates to antibody reagents that specifically bind to peptides carrying a ubiquitin remnant from a digested or chemically treated biological sample. The reagents allow the technician to identify ubiquitinated polypeptides as well as the sites of ubiquitination on them. The reagents are preferably employed in proteomic analysis using mass spectrometry. The antibody reagents specifically bind to the remnant of ubiquitin (i.e., a diglycine modified epsilon amine of lysine) left on a peptide which as been generated by digesting or chemically treating ubiquitinated proteins. The inventive antibody reagents' affinity to the ubiquitin remnant does not depend on the remaining amino acid sequences flanking the modified (i.e., ubiquitinated) lysine, i.e., they are context independent.

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: 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 present disclosure provides compositions and methods relating to the evaluation of BAFF in a biological sample from a subject.

Abstract: An ELISpot diagnosis kit for NMO and its application are characterized in that, the polypeptide fragment specific to NMO effector T-cell is obtained through topological conformation analysis of aquaporin-4 (AQP-4), followed by the structural analyses of the related polypeptides after combination and rearrangement so as to screen out the brand-new polypeptide fragment suitable for NMO disease diagnosis. In the ELISpot experiment, by utilizing the obtained polypeptide fragment, stimulate the effector T-cell in the NMO disease to secrete IL-4, proving the feasibility and scientific value of that polypeptide fragment in the NMO diagnosis. This method is with strong specificity, high sensitivity and easy operations, and it can be developed into the diagnosis kit for the diagnosis and differential diagnosis of NMO in the clinical examination, laying the foundation for the early discovery and treatment of NMO.

Abstract: It is intended to provide a method for detecting gastric cancer, which is low invasive to a human test subject and has high detection sensitivity and accuracy. The present invention provides a method comprising measuring in vitro the amount of COTL1 protein, a variant thereof, and/or a fragment thereof in a body fluid sample derived from a human test subject, and detecting the presence or absence of gastric cancer affecting the test subject on the basis of the amount, and a kit for gastric cancer diagnosis comprising an antibody capable of specifically binding to the protein.

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: A molecular biosensor is provided including a lipid vesicle and a housing wherein the vesicle is contained on or within the housing and where the housing has a portion capable of transmitting a force generated, external to the housing to the vesicle. The biosensor is used in processes of detecting the presence or absence of an event force such as a blast or blunt force sufficient to produce a medical complication such as traumatic brain injury.

Abstract: Disclosed herein are methods and kits which are useful for detecting presence of an enzyme and the relative amount of glycan associated with the enzyme in a test sample based upon the enzyme's ability to competitively inhibit the binding of a ligand in such test sample. The present invention provides the ability to evaluate cell culture conditions and optimize the desired glycoform content of recombinantly prepared enzymes.

Abstract: A method of recognizing the development of an Acute Myocardial Infarction (AMI) process in an individual, wherein the method comprises steps of: profiling specific antibody reactivities or biomarkers associated with AMI susceptibility, the profiling comprises steps of: attaching a set of defined antigens to a substrate; obtaining a biological fluid derived specimen from an individual, the specimen containing a specific antibody repertoire; and binding said antibodies of the biological fluid specimen to the attached antigens thereby forming bound antibody antigen complexes; and analyzing results obtained, wherein the presence of the complexes is indicative of AMI.

Abstract: Methods for detecting or capturing low-avidity autoantibodies in a biological sample are provided. Target antigen used to assay for the low-avidity autoantibodies of interest is immobilized on a solid phase. The biological sample is contacted under low conductivity condition with the target antigen for which the autoantibodies has specific binding affinity. Binding of the target antigen to the autoantibodies of interest in the biological sample is then detected to ascertain the presence or concentration of the autoantibodies of interest.

Abstract: Described are methods for diagnosing and predicting the risk of pregnancy loss in a subject based on the presence of an aberrant humoral response to three proteins, Apolipoprotein B-100, alpha2macrogloblin (alpha2M), and fibronectin. The presence or a detectable level of maternal IgG antibodies to trophoblast-derived fibronectin and/or ApoB-100, and/or the absence or a non-detectable level of antibodies specifically binding to alpha2M is associated with a history of RPL and an increased risk of pregnancy loss. Also described are methods for identifying subjects at risk of pregnancy loss, selecting subjects for participation in a clinical study, and methods of decreasing the risk of pregnancy loss in a subject which include detecting the presence or absence of antibodies to one or more of trophoblast-derived ApoB-100, alpha2M, and fibronectin. Also provided are kits that contain ApoB-100, alpha2M, and fibronectin.

Abstract: Cardiovascular disease, e.g., congestive heart failure, is often first diagnosed after the onset of clinical symptoms, eliminating potential for early intervention. The invention provides a multi-marker immunoassay, including cardiac pathology and vascular inflammation biomarkers, yielding a more sensitive assay for early detection of CHF in plasma. A panel consisting of cardiac pathology (cTnI, BNP) and vascular inflammation (IL-6, TNF?, IL-17a) biomarkers provided a sensitivity of 94% for association with CHF.

Abstract: Disclosed are methods of identifying subjects with arteriovascular disease, subjects at risk for developing arteriovascular disease, methods of differentially diagnosing diseases associated with arteriovascular disease from other diseases or within sub-classifications of arteriovascular disease, methods of evaluating the risk of arteriovascular events in patients with arteriovascular disease, methods of evaluating the effectiveness of treatments in subjects with arteriovascular disease, and methods of selecting therapies for treating arteriovascular disease.

Abstract: The present invention relates to methods and compositions for monitoring, diagnosis, prognosis, and determination of treatment regimens in subjects suffering from or suspected of having a renal injury. In particular, the invention relates to using assays that detect one or more markers selected from the group consisting of cytochrome c and insulin-like growth factor IA as diagnostic and prognostic biomarkers in renal injuries.

Abstract: Measurement of circulating ST2 and/or IL-33 concentrations is useful for the prognostic evaluation of subjects, in particular for the prediction of adverse clinical outcomes, e.g., mortality, and the detection of severe disease.

Abstract: The present invention inter alia provides a method, and use thereof, of predicting severe CVD complications such as AMI or CVD death by detecting the lipid concentrations or lipid ratios of a biological sample and comparing it to a control and has identified specific lipid markers that are more specific and sensitive in predicting these CVD complications than currently utilized clinical markers. Also provided are antibodies towards said lipids, and the use thereof for predicting, diagnosing, preventing and/or treating CVD complications. The invention additionally relates to kits comprising lipids and/or an antibody thereto, for use in the prediction and/or diagnosis of CVD complications.

Abstract: The present invention inter alia provides a method, and use thereof, of predicting severe CVD complications such as AMI or CVD death by detecting the lipid concentrations or lipid ratios of a biological sample and comparing it to a control and has identified specific lipid markers that are more specific and sensitive in predicting these CVD complications than currently utilized clinical markers. Also provided are antibodies towards said lipids, and the use thereof for predicting, diagnosing, preventing and/or treating CVD complications. The invention additionally relates to kits comprising lipids and/or an antibody thereto, for use in the prediction and/or diagnosis of CVD complications.

Abstract: The present invention inter alia provides a method, and use thereof, of diagnosing and/or predicting atherosclerosis or CVD by detecting the lipid concentrations or lipid ratios of a biological sample and comparing it to a control and has identified specific lipid markers that are more specific and sensitive in detecting and predicting atherosclerosis and CVD than currently utilized clinical markers. Also provided is an antibody towards said lipids, and the use thereof for predicting, diagnosing, preventing and/or treating atherosclerosis or CVD. The invention additionally relates to kits comprising lipids and/or an antibody thereto, for use in the prediction and/or diagnosis of atherosclerosis or CVD.