Abstract: Disclosed are an enhancement solution for enhancing chemiluminescence, and a method for preparing a chemiluminescent solution. The method comprises Step A: dissolving methylglucamine in water, adjusting the pH to 8-9, then adding an N-alkyldimethylmannosamine quaternary ammonium salt, acridine orange, BSA, glycine, MgCl2, and ZnCl2 respectively to a diethanolamine solution, stirring to dissolve them, and diluting to a constant volume, to obtain an enhancement solution; and Step B: diluting a chemiluminescent substrate with the enhancement solution, to obtain a chemiluminescent solution. When used in the field of immunoassays, the enhancement solution of the present invention increases the sensitivity and linear range of detection, reduces the cost, and is free of contamination.

Abstract: The present invention relates to a method of biological labeling that occurs via a free radical chain reaction. The labeling occurs due to deposition of a detectable reporter molecule from a media comprising a substance comprising at least two moieties of a peroxidase enzyme substrate (termed herein ‘cross-linker’) in a target site comprising peroxidase activity and a biological marker. The labeling reaction described herein may generally be used to detect targets in a host of experimental schemes for detecting and visualizing a biological or chemical target, including immunohistochemistry (IHC), in situ hybridization (ISH), antibody-based staining methods such as ELISA, Southern, Northern, and Western blotting, and others.

Abstract: Polymers, monomers, chromophoric polymer dots and related methods are provided. Highly fluorescent chromophoric polymer dots with narrow-band emissions are provided. Methods for synthesizing the chromophoric polymers, preparation methods for forming the chromophoric polymer dots, and biological applications using the unique properties of narrow-band emissions are also provided.

Abstract: The subject invention provides methods and means to detect incidents of accidental or intentional release of chemical and biological toxins into the environment by measuring cellular stress-induced proteins in eukaryotic cells exposed to environmental samples suspected of containing chemical or biological toxins using a highly sensitive on-chip surface-enhanced Raman spectroscopy (SERS)-linked immunosensors assay allowing robust, fast, and reliable in-the-field global sensing of environmental threats in resource-limited settings.

Abstract: A method of determining the P. aeruginosa or related species infection status of a subject comprising: (i) providing a sample of material obtained from the subject; (ii) determining the level of one or more alkyl quinolones or metabolites thereof produced by P.

Abstract: Compounds useful as labels with properties comparable to known fluorescent compounds. The compounds are conjugated to proteins and nucleic acids for biological imaging and analysis. Synthesis of the compounds, formation and use of the conjugated compounds, and specific non-limiting examples of each are provided.

Abstract: Methods and compositions are provided that include a multichromophore and/or multichromophore complex for identifying a target biomolecule. A sensor biomolecule, for example, an antibody can be covalently linked to the multichromophore. Additionally, a signaling chromophore can be covalently linked to the multichromophore. The arrangement is such that the signaling chromophore is capable of receiving energy from the multichromophore upon excitation of the multichromophore. Since the sensor biomolecule is capable of interacting with the target biomolecule, the multichromophore and/or multichromophore complex can provide enhanced detection signals for a target biomolecule.

Abstract: Methods for producing isotopically-labelled peptides are provided. Aspects of the method include: contacting a sample including a metabolically tagged protein with a cleavable probe to produce a probe-protein conjugate; separating the probe-protein conjugate from the sample; digesting the probe-protein conjugate to produce a probe-peptide conjugate; and cleaving a cleavable linker to release an isotopically labelled peptide. The method may further include: identifying a predetermined isotopic pattern in a mass spectrum; determining an amino acid sequence of the isotopically labelled peptide; and identifying the site of protein glycosylation based on the determined amino acid sequence. Also provided are cleavable probes for practicing the subject methods, described by the Formula: A-L-(M-Z) where A is an affinity tag, L is a cleavable linker, M is an isotopic label and Z is a chemoselective tag capable of cross-linking a metabolically tagged protein.

Abstract: Methods and compositions are provided that include a multichromophore and/or multichromophore complex for identifying a target biomolecule. A sensor biomolecule, for example, an antibody can be covalently linked to the multichromophore. Additionally, a signaling chromophore can be covalently linked to the multichromophore. The arrangement is such that the signaling chromophore is capable of receiving energy from the multichromophore upon excitation of the multichromophore. Since the sensor biomolecule is capable of interacting with the target biomolecule, the multichromophore and/or multichromophore complex can provide enhanced detection signals for a target biomolecule.

Abstract: The present disclosure relates to methods for identifying proteins or peptide motifs of intracellular, extracellular, or extracellular matrix proteins specifically exposed in wound sites, as well as compositions for treating wounds, and methods for their use.

Abstract: Method of incorporating a water soluble construct of the structure L-S-F into the lipid bi-layer of cells by contacting a suspension of the cells with a solution of the construct at a concentration and for a time and temperature sufficient to allow the construct to insert into the lipid bi-layer. In the structure L-S-F, F is a peptide, S is a spacer containing an oligomer of ethylene glycol covalently linking F to L and the number of ethylene oxide repeats in the oligomer of ethylene glycol is 6 to 14, and L is a phosphatidylethanolamine.

Abstract: Particular disclosed embodiments disclosed herein concern using a one or more various mass tags, which can be specifically deposited at targets through direct or indirect enzymatic-catalyzed transformation, to provide a method for identifying targets in tissue samples. The mass tags may be labeled with stable isotopes to produce mass tags having the same chemical structure but different masses. Mass codes produced by ionizing the mass tags are detected and/or quantified using mass spectrometry. The method can be used for multiplexed detection of multiple targets in a particular sample. In some embodiments, a map divided into sections representing sections of the tissue sample may be prepared, with the map sections including data corresponding to quantification data wherein the size of a mass peak is determined and correlated with the amount of a target for the corresponding tissue sample section.

Abstract: A composition for use as an assay reagent includes a paramagnetic solid support comprising a coating of a synthetic copolymer. The synthetic copolymer comprises two or three of a first copolymerized monomer, a second copolymerized monomer and a third copolymerized monomer and further comprises a polyethylenic backbone.

Abstract: Element tags based on novel metal-polymer conjugates are provided for elemental analysis of analytes, including ICP-MS. A polymer backbone is functionalized to irreversibly bind metals that are selected prior to use by the user. The polymer is further functionalized to attach a linker which allows for attachment to antibodies or other affinity reagents. The polymer format allows attachment of many copies of a given isotope, which linearly improves sensitivity. The metal-polymer conjugate tags enable multiplexed assay in two formats: bulk assay, where the average biomarker distribution in the sample is diagnostic, and single cell format to distinguish a rare (for example a diseased) cell in a complex sample (for example, blood).

Abstract: The present invention relates to methods of enhancing chemiluminescence from a chemiluminescent label comprising contacting a chemiluminescent label with an acid in the presence of a degradable cationic surfactant and hydrogen peroxide followed by the addition of a base. Related kits containing such degradable cationic surfactant are also provided. The degradable cationic surfactant can compress light emission time of the chemiluminescent label to an extent that is comparable to or shorter than conventional surfactants. The degradable cationic surfactant can also increase chemiluminescence of the chemiluminescent label, providing increased light emission output that is comparable to conventional surfactants.

Abstract: The present invention pertains to immunology, biomedicine field, specifically relates to a protein-cell conjugate, which is characterized in that the protein and the cell are coupled via a bifunctional cross-linking agent. The present invention further relates to a preparation method and uses of the protein-cell conjugate. The protein-cell conjugate of the present invention can be used for prevention or treatment of many diseases, such as malignant tumors, infectious diseases and autoimmune diseases.

Abstract: The invention provides immunochromatographic test strips and methods for detecting and quantifying S-Adenosylmethionine (SAM), S-Adenosylhomocysteine (SAH) and Homocysteine (HCy) in a sample, comprising: (a) making fluorophore conjugated antibodies; (b) immobilizing SAM, SAH and HCy on a solid support; (c) providing a sample, combining said sample with a conjugate selected from the group consisting of lanthanide chelate conjugates and quantum dot conjugates (QD) with anti-SAM, anti-SAH or anti-HCy, wherein said combining is performed under conditions that allow formation of a competitive complex comprising said conjugate, said SAM, SAH or HCy on the solid support and SAM, SAH or HCy in a sample when present; and (d) detecting the presence of the complex, if present, by monitoring a spectral emission mediated by the fluorescent conjugates in the complex, wherein the emission indicates the presence and quantity of SAM, SAH or HCy in the sample.

Abstract: A novel imaging reagent and gel-based method for analyzing and comparing phosphoproteomes on the same gel are disclosed herein.

Abstract: The invention relates to phosphohistidine analogs. The invention also relates to antibodies that specifically bind to the analogs and methods of generating said antibodies. In one embodiment of the invention there is provided a phosphohistidine analog of Formula V: (V) wherein W is selected from H, CO2H or CONH2; and X is selected from CH or N.

Abstract: An object of the present invention is to provide a latex particle for a measurement reagent with which highly sensitive measurement can be performed even in measuring a measurement sample containing a test substance in a dilute concentration. The preset invention relates to a latex particle for a measurement reagent including a copolymer obtained by copolymerizing a monomer mixture containing the following polymerizable monomers (a) to (c): (a) a polymerizable monomer having a phenyl group; (b) a polymerizable monomer having a phenyl group and a sulfonate; and (c) a polymerizable monomer having a naphthyl group, in an aqueous medium containing 7.5 to 25% by weight of C1-4 alcohol without using a surfactant.