Described are coelenterazine analogues, methods for making the analogues, kits comprising the analogues, and methods of using the compounds for the detection of luminescence in luciferase-based assays.

The present disclosure provides compositions and methods for detecting the presence of neutralizing antibodies in a sample. Unlike conventional assays, the methods provided herein do not require the use of live virus or virus pseudoparticles to identify neutralizing antibodies.

Embodiments of various aspects described herein are directed to assays and devices for detecting a target molecule in a sample. In particular, there is described a lateral assay comprising a plurality of serially oriented capture zones, where each capture zone independently comprises an immobilized competitive molecule on a lateral flow matrix. The immobilized competitive molecule and the analyte competitively bind with a capture agent capable of binding the analyte.

A method for determining in a sample, by mass spectrometry, the amount of one or more analytes selected from the group consisting of 12,13-DiHOME, 3-hydroxybutyrate (BHBA), 3-hydroxyoctanoate, 3-methylglutarylcarnitine, 3-ureidopropionate, 7-alpha-hydroxy-4-cholesten-3-one (7-Hoca), citrate, fucose, fumarate, gamma-tocopherol, glutamate, glutarate, glycerol, glycochenodeoxycholate, glycocholate, hypoxanthine, maleate, malonate, mannose, orotate, 2,3-pyrdinedicarboxylate, ribose, serine, taurine, taurochenodeoxycholate, taurocholate, palmitoleate, linolenate, xanthine, xylitol, and combinations thereof is described. The method comprises subjecting the sample to an ionization source under conditions suitable to produce one or more ions detectable by mass spectrometry from each of the one or more analytes; measuring, by mass spectrometry, the amount of the one or more ions from each of the one or more analytes; and using the measured amount to determine the amount of each of the one or more analytes in the sample.

A method for determining in a sample, by mass spectrometry, the amount of one or more analytes selected from the group consisting of 12,13-DiHOME, 3-hydroxybutyrate (BHBA), 3-hydroxyoctanoate, 3-methylglutarylcarnitine, 3-ureidopropionate, 7-alpha-hydroxy-4-cholesten-3-one (7-Hoca), citrate, fucose, fumarate, gamma-tocopherol, glutamate, glutarate, glycerol, glycochenodeoxycholate, glycocholate, hypoxanthine, maleate, malonate, mannose, orotate, 2,3-pyrdinedicarboxylate, ribose, serine, taurine, taurochenodeoxycholate, taurocholate, palmitoleate, linolenate, xanthine, xylitol, and combinations thereof is described. The method comprises subjecting the sample to an ionization source under conditions suitable to produce one or more ions detectable by mass spectrometry from each of the one or more analytes; measuring, by mass spectrometry, the amount of the one or more ions from each of the one or more analytes; and using the measured amount to determine the amount of each of the one or more analytes in the sample.

Disclosed is a device including a substrate having a plurality of detection areas to receive at least a portion of a sample having an analyte or suspected of having an analyte and at least one reference marker adjacent to at least one of the detection areas, wherein each of the detection areas detects a specific analyte and the at least one reference marker defines a scale mark, a shape mark, a color mark, or a combination thereof. Also disclosed is an imaging system and method for using the device and imaging system.

The present invention relates to diagnostic test and technology. In particular, it relates to a method for determining an analyte suspected to be present in a sample comprising contacting said sample with at least one sensor element comprising at least one binding agent which is capable of specifically binding to the analyte and which comprises at least one magnetic label; and in functional proximity thereto a magnetic tunnel junction generating a signal which is altered upon binding of the analyte to the binding agent for a time and under conditions which allow for specific binding of the analyte suspected to be present in the sample to the at least one binding agent, measuring an altered signal generated by the magnetic tunnel junction upon analyte binding to the at least one binding agent comprising the at least one magnetic label, and determining the analyte based on the altered signal which is generated by the magnetic tunnel junction. The present invention further relates to a device for determining an analyte suspected to be present in a sample and for using such a device. Moreover, the present invention furthermore relates to an aptamer which is capable of specifically binding to an analyte and which comprises at least one magnetic label and a method for identifying such an aptamer. Finally, the invention relates to a kit for determining an analyte suspected to be present in a sample.

The present invention relates generally to an assay for detecting and differentiating single or multiple analytes, if present, in a fluid sample, including devices and methods of use of the same.

The disclosure directed to methods for measuring an analyte alone or in combination with total protein in biological samples. More particularly, the disclosure relates to methods for measuring an analyte and/or total protein using one or more colorimetric reagents alone or in combination with protein precipitation reagents.

The disclosure directed to methods for measuring an analyte alone or in combination with total protein in biological samples. More particularly, the disclosure relates to methods for measuring an analyte and/or total protein using one or more colorimetric reagents alone or in combination with protein precipitation reagents.