Abstract: Reagents comprising MS active, fluorescent molecules with an activate functionality for reaction with amines useful in rapid tagging of biomolecules such as N-glycans, proteins, peptides, and amino acids, and uses thereof are taught and described. These MS active, fluorescent molecules may have three functional components such as a tertiary amino group or other MS active atom, a highly fluorescent moiety, and a functional group that rapidly reacts with amines.
Abstract: Compositions include an aqueous solution of an organic dye of molecular weight in the range of about 300 to about 1,000 and a density-enhancing material. An amount of the density-enhancing material in the aqueous solution is sufficient to achieve a density of about 1.0 to about 1.3 g/mL. The composition has a viscosity of about 3.5 to about 5.0 centipoise. The compositions are useful in assessing the adequacy of a liquid handling mixing device to mix a reaction mixture.
Type:
Grant
Filed:
July 31, 2018
Date of Patent:
August 27, 2019
Assignee:
Siemens Healthcare Diagnostics Inc.
Inventors:
Jason Snyder, Richard H. Carter, Jr., Patricia Nichols, William D. Dunfee
Abstract: A method of testing for pathogens can include applying a pathogen indicating substance to an object, the pathogen indicating substance having one characteristic when not in contact with a pathogen and another characteristic when in contact with a pathogen, and generating a signal indicative of the level of pathogen contamination on the object by quantifying the presence of the pathogen indicating substance with the pathogen indicating characteristic on the object. An apparatus for testing for pathogens can include a dispenser for dispensing a pathogen indicating substance, the pathogen indicating substance having one characteristic which is altered to another characteristic on contact with a pathogen, a main sensor for detecting a level of pathogen contamination by quantifying the pathogen indicating substance having the pathogen indicating characteristic, and a control unit for generating a signal indicative of the level of pathogen contamination detected by the sensor.
Abstract: The present invention relates to a new class of substituted aza-triangulenium fluorescent dyes having a hydroxy group attached to an aryl as quenching group. The new substituted aza-triangulenium fluorescent dyes may be attached to a linker, conjugated to carrier molecule such as e.g. a protein, a nucleic acid, a lipid, or a saccharide, or deposited or immobilized on solid support materials. The substituted aza-triangulenium fluorescent dyes are useful for various purposes, including use in sensors for monitoring or determining the concentration of analytes, such as H+(pH), Na+, K+, Ca2+, O2, CO2, H2O2, ionic strength, redox potentials, metal ions, and metabolites.
Type:
Grant
Filed:
October 24, 2014
Date of Patent:
July 30, 2019
Assignee:
Kobenhavns Universitet
Inventors:
Bo V. Laursen, Martin Rosenberg, Thomas Just Sorensen
Abstract: The present invention provides a carboxylate-bridged binuclear iron-sulfur clusters fluorescent probe having the structure of Formula I. The preparation method comprises the following steps: anthracenylmethanamine and p-methoxycarbonylphenyl isocyanate have an addition reaction to get a substitutional methyl benzoate, which is hydrolyzed to get a corresponding carboxylic acid; react the resulting carboxylic acid with alkali to get carboxylate, and then coordinate with binuclear iron precursor to obtain the fluorescent probe. Compared with the prior art, the invention firstly provides the carboxylate-bridged binuclear iron-sulfur clusters of metal complex which similar to the central structure of bio-enzyme. The metal complex, as a fluorescent probe, has good selectivity to the fluorinion detection. The fluorescence titration experiment is simple and easy to operate and the fluorescence changes are sensitive.
Abstract: A method is described for the diagnostic determination of the risk caused by an altered oxidative balance, comprising the photometric measurement of total cholesterol, hydroperoxides, and antioxidant capacity, on the basis of which the protective index, the oxidative index and the risk index caused by an altered oxidative balance (or ‘OBRI’) are calculated. This latter index has proved to be particularly dependable and reliable in determining the status of the oxidative balance in relation to cholesterol levels, being highly predictive of cardiovascular risk.
Abstract: A lab-on-chip-based system is described for the direct and multiple sampling, control of the volume, fluid filtration, biochemical reactions, sample transfer, and dried spot generation on the conventional and commercial cards for dried fluid spot. Within an all-in-one integrated holder, the invention allows the complete process required to ensure a quantitative analysis of blood, plasma or any other fluids, modification and enrichment of molecule subsets, and formation of a dried fluid spot on the specific spot location of a passive cellulose, non-cellulose, absorbent, or non-absorbent membrane material sampling.
Abstract: A method of measuring nitrate concentration in an aqueous sample includes mixing the aqueous sample with a water-soluble thioether chosen to reduce nitrate in the aqueous sample to nitrite in the presence of a water soluble catalyst, and a water soluble reagent system adapted to interact with nitrite to generate a color; measuring color generation, and correlating the color generation to nitrate concentration.
Type:
Grant
Filed:
July 29, 2016
Date of Patent:
June 11, 2019
Assignee:
HACH COMPANY
Inventors:
Darren Kent MacFarland, Angella Nicholle Greenawalt
Abstract: A filtration device is disclosed for filtering debris from a biofluid sample. In at least one embodiment, the filtration device provides a collection container having a collection chamber defined by a flexible wall, a mouth fluidly communicating with the collection chamber and formed through the collection container at a top end, and a filter device defining a bottom to the collection chamber. A quantitative container has a quantitative chamber in fluid communication with the filter device with the filter device separating the collection chamber from the quantitative chamber. A biofluid sample is introduced into the collection chamber through the mouth, and when the mouth with a collection chamber cap, the flexible wall of the collection container is squeezed to reduce the volume of the collection chamber and force the biofluid sample through the filter device, the filtered biofluid sample thereafter being contained within the quantitative chamber.
Abstract: A biosensor system can comprise a sensor chip and a measurement device. The sensor chip comprises a capillary and electrodes disposed within the capillary. The height of the capillary is set to be less than the maximum value of the sum of the diffusion distance of an electron-transfer mediator and the diffusion distance of an analyte at the upper limit of the measurement guaranteed temperature of the biosensor system. The measurement device applies an open circuit voltage, a voltage that is lower than during concentration measurement, or the like to the electrodes of the sensor chip.
Abstract: The present disclosure provides a new series of compounds exhibiting high fluorescence quantum yields in the solid state. In one embodiment, the compounds include a series of 2,3,4,5-tetraphenylgermoles with the same or different 1,1-substituents. In another embodiment, substituted germafluorenes, germa-fluoresceins/rhodamines, and germapins are described. These germanium heterocycles possess ideal photophysical and thermostability properties, which makes them excellent candidates for chemical or biological sensors, host materials for electroluminescent devices and solar cells, and emissive and for electron-transport layer components in organic light emitting diode devices.
Type:
Grant
Filed:
June 11, 2013
Date of Patent:
May 21, 2019
Assignee:
The Curators of the University of Missouri
Inventors:
Janet Braddock-Wilking, Teresa Lynn Bandrowsky, James Bryan Carroll, II
Abstract: The present invention provides an analysis method for simultaneously detecting or quantifying plural species of target substances by measuring the light emission from plural carriers within a single container from outside of the container, these carriers comprising a plurality of substances that are respectively immobilized thereon for capturing the plural species of target substances, wherein the light emission from a desired carrier is selectively received by measuring the emission from the carriers through an optical filter.
Abstract: The present specification discloses methods for determining the presence one or more analytes in a test sample, materials useful to perform the disclosed methods, and kits comprising reagents useful to practice the disclosed methods.
Type:
Grant
Filed:
May 30, 2015
Date of Patent:
April 23, 2019
Assignee:
TECAN SP, INC.
Inventors:
Qi Huang, Philip A. Dimson, Karsten R. Liegmann
Abstract: Disclosed is a curable sealant composition including: (i) a thiol-terminated prepolymer and/or monomers thereof, wherein the thiol-terminated prepolymer is a polythioether or a polysulfide; (ii) an “ene” crosslinker having a molecular weight of about 100 to about 5000; and (iii) a pH indicator molecule including a quantum dot functionalized with a pH-responsive ligand. Methods for determining a sufficient cure state of a composition by combining the thiol-terminated prepolymer and/or monomers thereof and the “ene” crosslinker with a pH indicator molecule, including a quantum dot functionalized with a pH-responsive ligand, and (ii) then subjecting a resultant mixture of (i) to curing conditions until the mixture changes its color are also disclosed.
Abstract: The present invention relates to a pipette comprising a tip removal mechanism adapted for lifting an inner mechanism of the pipette with regard to a body of the pipette when the user presses the tip removal button. The present invention further relates to a method for disengaging a disposable tip attached to a tip cone of a pipette of the present invention, and to a method for pipetting with a pipette according to the present invention.
Abstract: A micro flow channel chip having high shape accuracy is provided. A micro flow channel chip includes a base material 12 having a groove 121 formed on one surface; and a resin film 14 joined to the surface of the base material 12 so as to cover the groove 121 of the base material 12, in which the resin film 14 contains a (meth)acrylic resin (A), and the (meth)acrylic resin (A) contains a structural unit (A1) represented by Formula (1). (In Formula (1), R1 and R2 each independently represent a hydrogen atom, a methyl group, an ethyl group, or a propyl group; and R3 represents an alkyl group having 3 to 6 carbon atoms).
Abstract: Described is a method of detecting and/or determining levels of incorporation of monolignol ferulate conjugate esters into lignin by derivatizing the lignin, reductively cleaving the lignin, labeling the cleavage products, and then detecting cleavage products derived from monolignol ester conjugates via differential attachment of the label.
Type:
Grant
Filed:
December 31, 2015
Date of Patent:
March 12, 2019
Assignee:
WISCONSIN ALUMNI RESEARCH FOUNDATION
Inventors:
John Ralph, Steven D Karlen, Fachuang Lu, Dharshana Padmakshan
Abstract: The disclosure relates to a process and related article for functionalizing a porous membrane by contacting the membrane with a polyacid polymer at low pH to stably adsorb a polyacid layer on the membrane pore surface. The resulting functionalized membrane is characterized by a high density of free acid groups, resulting in a higher specific capacity for its intended application. The process allows functionalization of porous membranes in a very simple, one-step process. Such functional membranes may find multiple uses, including rapid, selective binding of proteins for their purification or immobilization.
Type:
Grant
Filed:
August 30, 2016
Date of Patent:
February 19, 2019
Assignee:
BOARD OF TRUSTEES OF MICHIGAN STATE UNIVERSITY
Inventors:
Merlin L. Bruening, Gregory L. Baker, Somnath Bhattacharjee, Yiding Ma
Abstract: A bioparticle collection device and an aerosol collection system. The bioparticle collection device includes a collection medium including a plurality of fibers formed into a fiber mat and configured to collect bioparticles thereon, and includes a viability enhancing material provider disposed in a vicinity of the plurality of fibers and configured to provide a viability enhancing material to the collected bioparticles to maintain viability of the bioparticles collected by the fiber mat. The aerosol collection system includes an aerosol pumping device configured to entrain particles in an gas stream, an aerosol saturation device configured to saturate the particles in the gas stream with a biocompatible liquid, and an aerosol collection medium downstream from the aerosol saturation device and including a plurality of fibers formed into a fiber mat for collection of the saturated aerosol particles.
Type:
Grant
Filed:
April 27, 2018
Date of Patent:
February 19, 2019
Assignee:
Research Triangle Institute
Inventors:
David Samuel Ensor, Howard Jerome Walls, Karin K. Foarde
Abstract: A Raman scattering probe, and a method of making such a probe, uses a capsule of nanometric size, such as a nanotube, to which is coupled at least one Raman-active molecule. The Raman-active molecule may be encapsulated in, or attached on the exterior of, the capsule, and exhibits a Raman scattering response when the probe is illuminated by an excitation light beam. A functionalization chemical group that is attached to an exterior of the capsule provides a connection between the capsule and a target material. This functionalization may include a generic chemical functionalization that bonds with any of a plurality of secondary chemical groups each of which bonds directly with a different target. A method of using the probe for Raman spectroscopy or Raman imaging is also provided.