The present invention relates to systems and methods that utilize a combination of immunoassay and magnetic immunoassay techniques to detect an analyte within an extended range of specified concentrations. In particular, a method includes determining a first concentration of an analyte at a first immunosensor from a reaction of a signal agent with a first complex of signal antibodies, the analyte, and capture antibodies immobilized on a surface of the first immunosensor, determining a second concentration of the analyte at a second immunosensor from a reaction of the signal agent with a second complex of the signal antibodies, the analyte, and capture antibodies immobilized on magnetic beads that are localized on or near a surface of the second immunosensor via a magnetic field, determining a weighted average of the first concentration and the second concentration, and comparing the weighted average to a predetermined crossover concentration point or zone.

The present invention relates to systems and methods that utilize a combination of immunoassay and magnetic immunoassay techniques to detect an analyte within an extended range of specified concentrations. In particular, a method includes determining a first concentration of an analyte at a first immunosensor from a reaction of a signal agent with a first complex of signal antibodies, the analyte, and capture antibodies immobilized on a surface of the first immunosensor, determining a second concentration of the analyte at a second immunosensor from a reaction of the signal agent with a second complex of the signal antibodies, the analyte, and capture antibodies immobilized on magnetic beads that are localized on or near a surface of the second immunosensor via a magnetic field, determining a weighted average of the first concentration and the second concentration, and comparing the weighted average to a predetermined crossover concentration point or zone.

Provided are novel methods for screening and testing for pathogens in food, water, and bodily fluids using methods that are faster to complete than conventional methods of culturing and plating that require lengthy times in properly equipped labs. The invention utilizes specific, rapid and sensitive optical detection to capture small concentrations of the target bacteria and render them amenable for detection with various specific synthesis binding agents approaches. The technique merges capture and detection steps with quantification unit suitable to provide results in a relatively shorter time current detection methods.

Provided are novel methods for screening and testing for pathogens in food, water, and bodily fluids using methods that are faster to complete than conventional methods of culturing and plating that require lengthy times in properly equipped labs. The invention utilizes specific, rapid and sensitive optical detection to capture small concentrations of the target bacteria and render them amenable for detection with various specific synthesis binding agents approaches. The technique merges capture and detection steps with quantification unit suitable to provide results in a relatively shorter time current detection methods.

An antibody and/or binding fragment thereof, wherein the antibody and/or binding fragment thereof comprises a light chain variable region and a heavy chain variable region, the light chain variable region comprising complementarity determining region (CDR) CDR-L3 and the heavy chain variable region comprising CDR-H1, CDR-H2 and CDR-H3, with the amino acid sequences of said CDRs comprising one or more of the sequences set forth below: CDR-L3: selected from any one of SEQ ID NOs: 123, 126-130, 142, 148 or 149; CDR-H1: SEQ ID NOs: 121 or 124; CDR-H2; SEQ ID NOs: 122 or 125; and/or CDR-H3: selected from any one of SEQ ID NOs: 196-226.

The invention relates, in part, to compositions and methods for validating antibodies utilizing immunoprecipitation and mass spectrometry.

Disclosed herein are antibodies specific for erythroferrone and assays comprising the antibodies. Also disclosed are methods for using the assays for the diagnosis or monitoring of disease.

Disclosed herein are antibodies specific for erythroferrone and assays comprising the antibodies. Also disclosed are methods for using the assays for the diagnosis or monitoring of disease.

An antibody and/or binding fragment thereof, wherein the antibody and/or binding fragment thereof comprises a light chain variable region and a heavy chain variable region, the light chain variable region comprising complementarity determining region (CDR) CDR-L3 and the heavy chain variable region comprising CDR-H1, CDR-H2 and CDR-H3, with the amino acid sequences of said CDRs comprising one or more of the sequences set forth below: CDR-L3; selected from any one of SEQ ID NOs: 123, 126-130, 142, 148 or 149; CDR-H1: SEQ ID NOs: 121 or 124; CDR-H2; SEQ ID NOs: 122 or 125; and/or CDR-H3: selected from any one of SEQ ID NOs: 196-226.

Provided are novel methods for screening and testing for pathogens in food, water, and bodily fluids using methods that are faster to complete than conventional methods of culturing and plating that require lengthy times in properly equipped labs. The invention utilizes specific, rapid and sensitive optical detection to capture small concentrations of the target bacteria and render them amenable for detection with various specific synthesis binding agents approaches. The technique merges capture and detection steps with quantification unit suitable to provide results in a relatively shorter time current detection methods.