Abstract: The present invention provides agents comprising or consisting of a binding moiety with specificity for interleukin-1 receptor accessory protein (IL1RAP) for use in inducing cell death and/or inhibiting the growth and/or proliferation of pathological stem cells and/or progenitor cells associated with a neoplastic hematologic disorder, wherein the cells express IL1RAP. A related aspect of the invention provides agents comprising or consisting of a binding moiety with specificity for interleukin-1 receptor accessory protein (IL1RAP) for use in detecting pathological stem cells and/or progenitor cells associated with a neoplastic hematologic disorder, wherein the cells express IL1RAP. Further provided are pharmacological compositions comprising the agents of the invention and methods of using the same.

Abstract: Methods for identifying a compound that alters fluorescence resonance energy transfer (FRET) of a protein. The methods include use of a genetically engineered cell that includes a target protein. The target protein includes one or more heterologous domains. In one embodiment, a target protein includes two heterologous domains, and in another embodiment, the target protein includes a heterologous domain and the cell further includes a second protein that includes a heterologous domain. A heterologous domain may include a chromophore or an amino acid to which a fluorescent dye attaches. The fluorescence lifetime of one or more chromophore, one or more fluorescent dye, or the combination thereof, is measured after contacting the cell with a compound A difference between the fluorescence lifetime in the presence of the test compound and the fluorescence lifetime in the absence of the test compound indicates that the test compound alters the FRET of the target protein.

Abstract: The present invention is directed to methods, compositions and systems for analyzing sequence information while retaining structural and molecular context of that sequence information.

Abstract: The present invention is directed to claudin-1-specific peptide reagents, methods for detecting pre-cancer (dysplasia), early cancer and/or cancer using the peptide reagents, and methods for targeting pre-cancerous (dysplastic) cells, and/or cancer cells using the peptide reagents.

Abstract: Methods of generating a nucleic acid signature for identifying particles associated in a partition are provided. In one aspect, the method comprises: partitioning a sample into a plurality of partitions comprising a particle comprising a solid support surface, the solid support surface having a plurality of oligonucleotide primers conjugated thereon, wherein the oligonucleotide primers comprise a barcode sequence, and wherein the partitions have 0, 1, or more than 1 particles per partition; providing in a partition a substrate comprising a barcode sequence or repeating clonal barcode sequences; and in the partition, associating a first particle conjugated to oligonucleotide primers comprising a first barcode sequence and a second particle conjugated to oligonucleotide primers comprising a second barcode sequence to a barcode sequence from the substrate, thereby generating a nucleic acid signature for the particles in the partition.

Abstract: Apparatuses (including devices and systems) and methods for determining if a patient will respond to a variety of cancer drugs.

Abstract: The disclosure provides method and kits for characterizing spliced m RNA isoforms. The disclosure also provides methods of screening for mutations and oligonucleotides that modulate splicing.

Abstract: The present invention provides a system for conservation and efficient use of energy through controlling and monitoring of devices. At least one processing controller connected to a sensor and a device, the processing controller configured to receive the ambient data from the sensor and operating parameters from the device; a user module configured to IO receive input parameters from a plurality of users; a central processing module, connected to the structure, the user module, and the admin module through wired and/or wireless connection, the central processing module configured to process the data received from the processing controller adapted in the zone of the structure and generate the optimum parameters for operating the device adapted in the zone to the structure.

Abstract: A testing method is disclosed. The testing method includes: providing a mixture solution of a gelling agent and a microbe to a gelling device; solidifying the mixture solution to form a solid thin film in which the microbe is immobilized; supplying a bioactive agent to the solid thin film and allowing the bioactive agent to diffuse into the solid thin film; and imaging the individual responses of the single microbial cells to the bioactive agent, and determining the minimum inhibitory concentration (MIC) of the bioactive agent based on the analysis of the images to obtain AST results.

Abstract: Disclosed herein are methods, systems, and apparatus for detecting microamplifications or microdeletions in the genome of a fetus. In some embodiments, the method comprises receiving sequence tags for each of a plurality of DNA fragments in a biological sample; determining genomic positions for the sequence tags; determining whether the density of DNA in each of a plurality of genomic regions is aberrantly high or low; identifying as a microamplification a set of consecutive genomic regions having aberrantly high density; and identifying as a microdeletion a set of consecutive genomic regions having aberrantly low density. The biological sample may be a blood sample obtained noninvasively from a female subject pregnant with the fetus.

Abstract: A kit for use with a nucleic acid sequencing instrument can include a plurality of combinatorial barcodes sequences meeting the following criteria: each of the combinatorial barcode sequences comprise a plurality of iterations of a sequence motif, where the sequence motif comprises a first nucleotide base from a first group of nucleotide bases followed by a second nucleotide base from a second group of nucleotide bases, the first group and the second group differing from each other; and the plurality of combinatorial barcode sequences is at least 1,000,000 different barcode sequences.

Abstract: Described herein are improved methods, compositions and kits for next generation sequencing (NGS). The methods, compositions and kits described herein enable phasing of two or more nucleic acid sequences in a sample, i.e. determining whether the nucleic acid sequences (which can comprise regions of sequence variation) are located on the same chromosome and/or the same chromosomal fragment. Phasing information can be obtained by performing multiple, successive sequencing reactions from the same immobilized nucleic acid template. The methods, compositions and kits provided herein can be useful, for example, for haplotyping, SNP phasing, or for determining downstream exons in RNA-seq.

Abstract: Methods for cell analysis are provided, comprising cell capturing, characterization, transport, and culture. In an exemplary method individual cells (and/or cellular units) are flowed into a microfluidic channel, the channel is partitioned into a plurality of contiguous segments, capturing at least one cell in at least one segment, A characteristic of one or more captured cells is determined and the cell(s) and combinations of cells are transported to specified cell holding chamber(s) based on the determined characteristic(s). Also provided are devices and systems for cell analysis.

Abstract: This disclosure provides methods and devices for the label-free detection of target molecules of interest. The principles of the disclosure are particularly applicable to the detection of biological molecules (e.g., DNA, RNA, and protein) using standard SiO2-based microarray technology.

Abstract: The technology described herein is directed to the diagnosis, prognosis, and treatment of infection, e.g. after burn injury.

Abstract: The invention discloses a method for predicting the solubility of at least one species at a specified pH value in an aqueous buffer comprising at least one weak acid species and/or at least one weak base species.

Abstract: Provided are methods and kits that allow the amplification, in a single multiplex reaction, of the thirteen rapidly mutating Y chromosome short tandem repeats (RM Y-STRs) at loci DYF387S1; DYF399S1; DYF403S1a/b; DYF404S1; DYS449; DYS518; DYS526a/b; DYS547; DYS570; DYS576; DYS612; DYS626; and DYS627, if present in a sample of DNA, and determination of the alleles at these RM Y-STRs. The ability to achieve such determination through a single multiplex arises as a result of a beneficially designed set of primers disclosed herein. Optimised conditions for the PCR also contribute to the advantages observed. Such kits and methods may be of benefit in the context of forensic sciences.

Abstract: The present invention relates to methods for treating gastric neoplasias, in particular treating patients who have been previously determined to have an EGFR biomarker. Gastric carcinoma (GC) is one of the most common and deadest cancers with ?1 million diagnoses and ?0.7 million deaths each year worldwide, with high incidence in Eastern Asia.

Abstract: The invention relates to a method for enriching a target polynucleotide sequence containing a genetic variation said method comprising: (a) providing two primers targeted to said target polynucleotide sequence; (b) providing a target specific xenonucleic acid clamp oligomer specific for a wildtype polynucleotide sequence; (c) generating multiple amplicons using PCR under specific temperature cycling conditions; and (d) detecting said amplicons.

Abstract: [Problem] To provide a novel fluorescent probe for dipeptidyl peptidase IV, and a detection method and a detection kit using the fluorescent probe. [Solution] A fluorescent probe for detecting dipeptidyl peptidase IV (DPP-IV), said probe comprising a compound represented by formula (I) or a salt thereof. In formula (I): A and B are either the same or different and independently represent an amino acid residue, provided that A is bonded via an amide bond to NH in an adjacent formula and B is bonded via an amide bond to A; R1 represents hydrogen atom(s) or 1 to 4 substituents bonded to the benzene ring, said substituents being either the same or different; R2, R3, R4, R5, R6 and R7 independently represent a hydrogen atom, a hydroxyl group, an alkyl group or a halogen atom; R8 and R9 independently represent a hydrogen atom or an alkyl group; and X represents a C1-C3 alkylene group.

Abstract: The description provides two-stage methods of nucleic acid amplification and detection reactions, which are useful for rapid pathogen detection or disease diagnosis. In particular, the description provides a method comprising a first-stage slow rate amplification reaction followed by a plurality of second-stage fast rate amplification reactions that are simultaneously monitored in real-time, and wherein a rapid rate of amplification is indicative of the presence of a site of interest.

Abstract: This invention generally relates to natural gas and methylotrophic energy generation, bio-generated fuels and microbiology. In alternative embodiments, the invention provides nutrient amendments and microbial compositions, e.g., consortia, that are both specifically optimized to stimulate methanogenesis, or for “methylotrophic” or other conversions. In alternative embodiments, the invention provides methods to develop nutrient amendments and microbial compositions that are both specifically optimized to stimulate methanogenesis in a given reservoir. The invention also provides methods for the evaluation of potentially damaging biomass formation and scale precipitation resulting from the addition of nutrient amendments. In other embodiments, the invention provides methods for simulating biogas in sub-surface conditions using a computational model.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing. Such polynucleotide processing may be useful for a variety of applications, including polynucleotide sequencing.

Abstract: A method for sequencing a nucleic acid template includes: (a) performing a first sequencing process including flowing nucleotides and/or reagents to the nucleic acid template according to a first predetermined ordering of nucleotides and/or reagents to obtain a first sequencing result; (b) after the first sequencing process, performing a second sequencing process including flowing nucleotides and/or reagents to the nucleic acid template according to a second predetermined ordering of nucleotides and/or reagents to obtain a second sequencing result, the second predetermined ordering of nucleotides and/or reagents being different from the first predetermined ordering of nucleotides and/or reagents and at least one of the first and second predetermined orderings of nucleotides and/or reagents being designed for repeat sequencing; and (c) determining a sequence of bases corresponding to at least a portion of the nucleic acid template using both the first sequencing result and the second sequencing result.

Abstract: The present invention relates, in general, to gene expression profiles, and in particular, to a peripheral blood gene expression profile of an environmental exposure, ionizing radiation. The invention further relates to methods of screening patients for radiation exposure based on gene expression profiling and to kits suitable for use in such methods.

Abstract: The disclosure relates to a cytoplasmic protein complex comprising: (a) a first recombinant fusion protein comprising a kinase, fused to a first interaction polypeptide; and (b) a second recombinant fusion protein comprising a domain comprising a reporter phosphorylation site, whereby the domain is fused to a second interaction polypeptide. The disclosure relates further to a method to detect compound-compound-interaction using the cytoplasmic protein complex, and to cells comprising such cytoplasmic protein complex.

Abstract: A device for studying protein conformation transformation can include a macroscopic substrate, and chaperonin proteins bound to the substrate, each chaperonin protein being capable of binding to a protein of interest during or after undergoing protein conformation transformation. The device may also include the proteins of interest bound to the substrate, where the substrate is included in a label-free assay system. A method of studying protein conformation transformation can include: providing a macroscopic substrate bound with the chaperonin protein and immersing the chaperonin protein in a study composition having the protein of interest, or include providing a macroscopic substrate bound with the protein of interest; and immersing the protein in a study composition having the chaperonin. Such a method can be done with and without a potential stabilizer in order to determine whether the potential stabilizer stabilizes the protein of interest.

Abstract: Methods are provided for diagnosing pregnancy-associated disorders, determining allelic ratios, determining maternal or fetal contributions to circulating transcripts, and/or identifying maternal or fetal markers using a sample from a pregnant female subject. Also provided is use of a gene for diagnosing a pregnancy-associated disorder in a pregnant female subject.

Abstract: The present invention relates to methods for determining a binding and/or functional interaction of a protein of interest with a nucleosomal substrate wherein at least one of the histone types of the nucleosomal substrate has a homogenous post-translational modification pattern. Further, the invention relates to nucleosomal substrates, wherein at least one of the histone types of the nucleosomal substrate has a homogenous post-translational modification pattern, and to methods for providing such nucleosomal substrates.

Abstract: Methods and systems for delivering a liquid sample to an ion source for the generation of ions and subsequent analysis by mass spectrometry are provided herein. In accordance with various aspects of the present teachings, MS-based systems and methods are provided in which a desorption solvent utilized in a sampling interface to desorb one or more analyte species from an SPME device is fluidly coupled to an ion source for ionizing the one or more analyte species desorbed into the desorption solvent for subsequent mass spectrometric analysis (e.g., without a liquid chromatography (LC) column between the sampling interface and the ion source).

Abstract: The present invention provides methods, compositions, kits, systems and apparatus that are useful for determining copy number variation of one or more nucleic acids present in a sample. In some aspects, the method includes various target-specific primers that allow for the selective amplification of one or more target nucleic acids in the sample. In yet another aspect, the invention relates to determining copy number variation with respect to gene or chromosome representation of a nucleic acid in the sample. In some aspects, the method for determining copy number variation of different target nucleic acids in a sample using the disclosed methods, kits, systems and apparatuses can be used in various downstream processes including diagnosis, predictive therapeutic regimes or other therapeutic purposes.

Abstract: [Object] A method of detecting nucleic acids easily without requiring complicated operations such as mixing of liquids and cleaning within micro-scale flow channels. [Solving Means]A method of detecting nucleic acids including the steps of bringing a sample containing the nucleic acids into contact with copper, and detecting fluorescence emitted from the sample is provided. According to the method of detecting nucleic acids, only by bringing the sample containing nucleic acids into contact with copper, the fluorescence derived from the composite of the nucleic acids and copper can be easily detected.

Abstract: The present invention is directed to methods for identifying the presence of one or more methylated or unmethylated target nucleotide sequences in a sample that involve a nuclease-ligation reaction. In some embodiments, the ligation products formed in the nuclease-ligation process of the present invention are subsequently amplified using a polymerase chain reaction. The ligated product sequences or extension products thereof are detected, and the presence of one or more methylated or unmethylated target nucleotide sequences in the sample is identified based on the detection.

Abstract: This invention pertains to devices, compositions and methods that can be used for the rapid determination of microorganisms, cells and other analytes of interest (e.g. a nucleic acid target) as well as associated properties of said microorganisms, cells and analytes. For example, said devices, compositions and/or methods can be applied to the determination of a trait of a microorganism present in a sample. Said devices, compositions and methods utilize matrix-forming prolonged-dissolution hydrophilic polymer to encapsulate hybridization probes and optionally other assay reagents within two or more reagent zones and/or matrix zones disposed on the surface of a substrate. Each reagent zone and/or matrix zone can be designed as a separate assay. Thus, a plurality of assays can be performed on a single substrate. In some embodiments, devices can be supplied in a form ready for a customer to rapidly perform one or a plurality of assays.

Abstract: The present invention provides methods and compositions comprising a chimeric norovirus capsid protein comprising a norovirus VP1 major capsid protein backbone comprising a norovirus epitope selected from the group consisting of: a) Epitope A; b) Epitope B; c) Epitope C; d) Epitope D; e) Epitope E; f) Epitope F; and g) any combination of (a) through (f) above, wherein the norovirus epitope is from a norovirus strain that is different from the norovirus VP1 major capsid protein backbone.

Abstract: Technology provided herein relates in part to methods, processes, compositions and apparatuses for analyzing nucleic acid.

Abstract: Provided are a new peptide, a vector inserting a DNA that codes said peptide, a transformant obtained by transformation with that vector, and applications of said peptide, vector and transformant. The peptide comprises an amino acid sequence set forth in SEQ ID NO: 1, or an amino acid sequence obtained by substituting, deleting or adding one or more amino acids to/from the amino acid sequence set forth in SEQ ID NO: 1. This peptide and the vector inserting a DNA that codes this peptide are suitable for use in an agent for promoting the proliferation of pancreatic hormone-producing cells, or a differentiation induction promoter that induces differentiation to pancreatic hormone-producing cells.

Abstract: Compositions, methods and kits are disclosed for high-sensitivity single molecule digital counting by the stochastic labeling of a collection of identical molecules by attachment of a diverse set of labels. Each copy of a molecule randomly chooses from a non-depleting reservoir of diverse labels. Detection may be by a variety of methods including hybridization based or sequencing. Molecules that would otherwise be identical in information content can be labeled to create a separately detectable product that is unique or approximately unique in a collection. This stochastic transformation relaxes the problem of counting molecules from one of locating and identifying identical molecules to a series of binary digital questions detecting whether preprogrammed labels are present. The methods may be used, for example, to estimate the number of separate molecules of a given type or types within a sample.

Abstract: The present invention provides methods and systems for the capture and enrichment of target nucleic acids and analysis of the enriched target nucleic acids. In particular, the present invention provides for the enrichment of targeted sequences in a solution based format.

Abstract: The invention relates to methods of extracting DNA from seeds, said method comprising pretreating said seeds by soaking the seeds in a pretreatment solution comprising an alkali in a concentration sufficient to soften said seed; crushing said seeds; extracting said DNA from said crushed seeds. Methods also relate to the use of pretreatment solutions which further comprise an osmoticum. A method of fragmenting plant material such as seed, a method of recovering extraction medium from seed fragmentation and a process of extracting a seed component from crushed seed material are also described.

Abstract: Electrochemical or electrochemical and photochemical experiments are performed on a collection of samples by suspending a drop of electrolyte solution between an electrochemical experiment probe and one of the samples that serves as a test sample. During the electrochemical experiment, the electrolyte solution is added to the drop and an output solution is removed from the drop. The probe and collection of samples can be moved relative to one another so the probe can be scanned across the samples.

Abstract: Methods are provided for a rapid, low cost approach to monitoring an amplification reaction. This includes monitoring the progress of isothermal or PCR amplification reactions to completion using pH-sensitive dyes that are either colored or fluorescent. Compositions are described that include a mixture of a DNA polymerase, deoxyribonucleotide triphosphate and a weak buffer of less than 1 mM Tris or equivalent or no buffer.

Abstract: The present invention relates to a method and a device for determining a concentration of a biological active substance in a sample by the means of an enzyme-linked immunosorbent assay (ELISA). The device comprises a solid support within a tubing (17) for binding an immunosorbent and an inlet (18, 19) for fluids, a detector (15) for detecting radiation due to an activity in said tubing (17), wherein said tubing (17) is arranged inside a microchip (10) extending substantially in one plane, for conducting the fluids along the plane of the microchip (10). Said tubing (17) forms a reaction cell having a large detection area (22). The reaction cell of the microchip (10) is arranged perpendicular to the detector (15).

Abstract: The present invention provides agents comprising or consisting of a binding moiety with specificity for interleukin-1 receptor accessory protein (IL1RAP) for use in inducing cell death and/or inhibiting the growth and/or proliferation of pathological stem cells and/or progenitor cells associated with a neoplastic hematologic disorder, wherein the cells express IL1RAP. A related aspect of the invention provides agents comprising or consisting of a binding moiety with specificity for interleukin-1 receptor accessory protein (IL1RAP) for use in detecting pathological stem cells and/or progenitor cells associated with a neoplastic hematologic disorder, wherein the cells express IL1RAP. Further provided are pharmacological compositions comprising the agents of the invention and methods of using the same.

Abstract: A method for identifying persons with increased risk of developing type 1 diabetes mellitus, or having type I diabetes mellitus, utilizing selected biomarkers described herein either alone or in combination. The present disclosure allows for broad based, reliable, screening of large population bases. Also provided are arrays and kits that can be used to perform such methods.

Abstract: Specific peptides are provided, and derived ionization characteristics of those peptides, from the Hepatocyte Growth Factor Receptor (cMET) protein. The peptides are particularly and surprisingly advantageous for quantifying by the method of Selected Reaction Monitoring (SRM) mass spectrometry the cMET protein directly in biological samples that have been fixed in formalin, or what can also be termed as Multiple Reaction Monitoring (MRM) mass spectrometry. Such biological samples are chemically preserved and fixed where the biological sample is selected from tissues and cells treated with formaldehyde containing agents/fixatives including: formalin-fixed tissue/cells; formalin-fixed/paraffin embedded (FFPE) tissue/cells; FFPE tissue blocks and cells from those blocks; and tissue culture cells that have been formalin fixed and or paraffin embedded.

Abstract: Compositions, methods and kits are disclosed for high-sensitivity single molecule digital counting by the stochastic labeling of a collection of identical molecules by attachment of a diverse set of labels. Each copy of a molecule randomly chooses from a non-depleting reservoir of diverse labels. Detection may be by a variety of methods including hybridization based or sequencing. Molecules that would otherwise be identical in information content can be labeled to create a separately detectable product that is unique or approximately unique in a collection. This stochastic transformation relaxes the problem of counting molecules from one of locating and identifying identical molecules to a series of binary digital questions detecting whether preprogrammed labels are present. The methods may be used, for example, to estimate the number of separate molecules of a given type or types within a sample.

Abstract: Compositions, methods and kits are disclosed for high-sensitivity single molecule digital counting by the stochastic labeling of a collection of identical molecules by attachment of a diverse set of labels. Each copy of a molecule randomly chooses from a non-depleting reservoir of diverse labels. Detection may be by a variety of methods including hybridization based or sequencing. Molecules that would otherwise be identical in information content can be labeled to create a separately detectable product that is unique or approximately unique in a collection. This stochastic transformation relaxes the problem of counting molecules from one of locating and identifying identical molecules to a series of binary digital questions detecting whether preprogrammed labels are present. The methods may be used, for example, to estimate the number of separate molecules of a given type or types within a sample.

Abstract: Methods are provided for, inter alia, detecting nucleic acid molecules resistant to degradation, such as a plurality of RNA molecules bound to a ribosome, using various technologies including deep sequencing.

Abstract: The present invention provides a recombinant PRPK protein, a recombinant TPRKB protein, or a recombinant PRPK/TPRKB complex expressed by use of a eukaryotic cell expression system. The present invention also provides a method of preparing a recombinant PRPK, a recombinant TPRKB, or a recombinant PRPK/TPRKB, comprising expressing a recombinant PRPK, a recombinant TPRKB, or a recombinant PRPK/TPRKB complex by use of a eukaryotic cell expression system. The present invention also provides a method of identifying an agent that modulates PRPK, TPRKB, or PRPK/TPRKB complex using the recombinant PRPK, the recombinant PRPK or the recombinant PRPK/TPRKB complex.