Abstract: A method includes reconstituting a lyophilized microbial community. Ribonucleic acid (RNA) is extracted from at least one targeted microbe in the reconstituted microbial community at a plurality of selected time periods. The RNA as extracted at the selected time period is subjected to a multiplex analyzer and determining RNA concentrations at the plurality of selected time periods. An increase in the RNA concentration from a first of the plurality of selected time periods to a second of the plurality of time periods indicates RNA expression from the at least one targeted microbe. RNA expression from the at least one targeted microbe indicates that the at least one targeted microbe is a living microbe.

Abstract: The invention provides methods for simultaneously amplifying multiple nucleic acid regions of interest in one reaction volume as well as methods for selecting a library of primers for use in such amplification methods. The invention also provides library of primers with desirable characteristics, such as minimal formation of amplified primer dimers or other non-target amplicons.

Abstract: Methods and biosensor systems for improved evaluation of an interaction between an analyte in a fluid sample and a ligand immobilized on a sensor surface of a biosensor are provided. In one example, a method is provided which includes allowing a plurality of fluid samples to flow across a first sensor surface and a second sensor surface having a ligand immobilized thereon, where the fluid samples include a solvent (for example, an organic solvent with bulk effects such as DMSO) at known concentrations. The method further includes creating a data set for each fluid sample and forming a clean data set with outliers removed. Software for performing steps of methods disclosed and a computer readable medium for storing the software are also provided.

Abstract: Method of processing real-time PCR data, comprising: c) receiving a plurality of fluorescence melting curve data of real time PCR-experiments performed by a real-time PCR device with at least two fluorescence channels, and configured to perform the following steps multiple times, while increasing a temperature: i) at first moments in time measuring a first temperature value and a first radiation value corresponding to a first fluorescence channel; ii) at second moments in time measuring a second temperature value and a second radiation value corresponding to a second fluorescence channel; d) storing the plurality of temperature values and radiation values; e) determining a plurality of time-shifted second radiation values by linearly interpolating between two measured second radiation values, using weighting factors defined by the measured temperature values; f) after performing step e), calculating color corrected first radiation values, and color corrected second radiation values.

Abstract: This disclosure provides methods and compositions for detecting intramolecular and intermolecular interactions, such as protein-protein interactions. These methods detect such interactions at sub-diffraction distances, and thus are referred to as super-resolution detection and imaging methods.

Abstract: System, including methods, apparatus, and compositions, for performing amplification assays with an amplification reporter including a first oligomer and a second oligomer capable of base-pairing with one another below a melting temperature of the reporter. The reporter may have a detectable photoluminescence that is affected, such as reduced, by base-pairing of the first and second oligomers with one another. A target, such as a nucleic acid target sequence, may be amplified in at least one volume, such as a plurality of partitions, above the melting temperature, and photoluminescence of the reporter may be detected from the at least one volume below the melting temperature. A property of the target, such as a concentration of the target, may be determined based on the photoluminescence detected.

Abstract: Microfluidic channels networks and systems are provided. One network includes a first fluid channel having a first depth dimension; at least a second channel intersecting the first channel at a first intersection; at least a third channel in fluid communication with the first intersection, at least one of the first intersection and the third channel having a depth dimension that is greater than the first depth dimension. Also provided is a flow control system for directing fluids in the network. Systems are additionally provided for flowing disrupted particles into a droplet formation junction, whereby a portion of the disrupted particles or the contents thereof are encapsulated into one or more droplets. Further provided is a method for controlling filling of a microfluidic network by controlling passive valving microfluidic channel network features.

Abstract: A measurement method includes a measurement step of measuring a first single value and a second signal value, the first signal value being based on a reaction between a first reacting substance and the sample, the second signal value being based on a reaction between a second reacting substance and the sample, the first reacting substance having a higher reactivity to a second detection target than to a first detection target, the second reacting substance having a higher reactivity to the first detection target than to the second detection target.

Abstract: The present invention relates to the detection of a target nucleic acid sequence by a PCEC (PTO Cleavage and Extension-Dependent Cleavage) assay. The present invention is characterized by generating a cleavage site for a nucleolytic enzyme on the extended duplex of which the formation is dependent on the presence of a target nucleic acid sequence. The present invention detects the occurrence of the cleavage of the extended duplex, thereby determining the presence of the target nucleic acid sequence.

Abstract: There is described herein, a method of capturing cell-free methylated DNA from a sample having less than 100 mg of cell-free DNA, comprising the steps of: subjecting the sample to library preparation to permit subsequent sequencing of the cell-free methylated DNA; adding a first amount of filler DNA to the sample, wherein at least a portion of the filler DNA is methylated; denaturing the sample; and capturing cell-free methylated DNA using a binder selective for methylated polynucleotides.

Abstract: Described herein are pseudotyped oncolytic viruses comprising nucleic acids encoding an engager molecule. In some embodiments, the pseudotyped oncolytic viruses comprises nucleic acids encoding an engager molecule and one or more therapeutic molecules. Pharmaceutical compositions containing the pseudotyped oncolytic virus and methods of treating cancer using the pseudotyped oncolytic viruses are further provided herein.

Abstract: The present invention provides compositions comprising at least one oligomeric compound comprising an alternating motif and further include a region that is complementary to a nucleic acid target. The compositions are useful for targeting selected nucleic acid molecules and modulating the expression of one or more genes. In preferred embodiments the compositions of the present invention hybridize to a portion of a target RNA resulting in loss of normal function of the target RNA. The present invention also provides methods for modulating gene expression.

Abstract: The invention, in part, relates to ChIA-Drop methods, which comprise methods of drop-based sequencing.

Abstract: Disclosed herein are compounds, compositions and methods for modulating the expression of huntingtin in a cell, tissue or animal. Further provided are methods of slowing or preventing Huntington's Disease (HD) progression using an antisense compound targeted to huntingtin. Additionally provided are methods of delaying or preventing the onset of Huntington's Disease (HD) in an individual susceptible to Huntington's Disease (HD). Also provided are uses of disclosed compounds and compositions in the manufacture of a medicament for treatment of diseases and disorders.

Abstract: In a first aspect, the invention concerns a method for detecting or quantifying DNA methylation at a locus. In one embodiment, a methylation-sensitive endonuclease is formulated together with a polymerase enzyme in an appropriate reaction mixture such that amplification of DNA occurs in a methylation specific manor. Quantitative DNA amplification at selected loci can be used to determine the level of methylation. Kits and reagents for performing such methods are also provided.

Abstract: The invention is directed to nanopore arrays comprising opaque layers that reduce background fluorescence in optical signal collected in applications of such arrays for analyzing molecules. In some embodiments, such arrays are used to determine characteristics of polymers, such as polynucleotides, in methods comprising the steps of translocating polymers through nanopores of such arrays wherein polymers have one or more optical labels, exciting optical labels of the polymers in a signal generation region of each nanopore extending from the opaque layer toward the direction of the excitation beam, detecting optical signals from the signal generation regions of each nanopore to determine characteristics of the polymer translocating therethrough.

Abstract: Devices and methods generate an ordered restriction map of genomic DNA extracted from whole cells. The devices have a fluidic microchannel that merges into a reaction nanochannel that merges into a detection nanochannel at an interface where the nanochannel diameter decreases in size by between 50% to 99%. Intact molecules of DNA are transported to the reaction nanochannel and then fragmented in the reaction nanochannel using restriction endonuclease enzymes. The reaction nanochannel is sized and configured so that the fragments stay in an original order until they are injected into the detection nanochannel. Signal at one or more locations along the detection nanochannel is detected to map fragments in the order they occur along a long DNA molecule.

Abstract: The current invention concerns a fluid microscope system for analyzing and/or monitoring the contents of one or more fluid-based reactors or canalizations such as bio-reactors, micro-reactors, brewing reactors, water supply systems or sewer systems. The fluid microscope system includes a digital holographic microscope (DHM) with one or more electro-fluidic systems, capable of guiding fluid from the reactors to the DHM. The current invention also concerns an electro-fluidic system for such a fluid microscope system having any or all of the elements mentioned above. Furthermore, the current invention encompasses a method for installing, replacing and removing such an electro-fluidic system in and from a fluid microscope system, and lastly, a method for monitoring and/or observing suspended objects in a fluid in a fluid-based reactor or canalization.

Abstract: The present invention relates to a micro device for solid phase extraction and more particularly provides a micro device which is configured to perform solid phase extraction by injecting a filler and a solvent and producing a uniform flow of the solvent.

Abstract: Aspects of the disclosure relate to a nucleic acid comprising a heterologous nucleic acid insert flanked by interrupted self-complementary sequences, wherein one self-complementary sequence is interrupted by a cross-arm sequence forming two opposing, lengthwise-symmetric stem-loops, and wherein the other of the self-complementary sequences is interrupted by a truncated cross-arm sequence. Methods of delivering the nucleic acid to a cell are also provided.

Abstract: This invention relates to compounds, compositions, and methods useful for reducing Glycolate Oxidase (HAO1) target RNA and protein levels via use of dsRNAs, e.g., Dicer substrate siRNA (DsiRNA) agents.

Abstract: Provided herein are methods, compounds, and compositions for reducing expression of a MaTAR in an animal. Such methods, compounds, and compositions are useful to treat, prevent, delay, or ameliorate breast cancer in an individual in need.

Abstract: Technology provided herein relates in part to methods, processes and apparatuses for non-invasive assessment of genetic variations.

Abstract: Methods useful for treating ischemic heart disease, reducing cardiac fibrosis, improving cardiac function, or increasing coronary angiogenesis are described.

Abstract: A method includes forming a patterned substrate including a plurality of base pads, using a nano-imprint lithography process. A capture substance is attached to each of the plurality of base pads, optionally through a linker, the capture substance being adapted to promote capture of a target molecule.

Abstract: The present invention provides a genetically-modified T cell comprising in its genome a modified human T cell receptor alpha gene. The modified T cell receptor alpha gene comprises an exogenous sequence of interest inserted into an intron within the T cell receptor alpha gene that is positioned 5? upstream of TRAC exon 1. The exogenous sequence of interest can comprise an exogenous splice acceptor site and/or a poly A signal, which disrupts expression of the T cell receptor alpha subunit. The sequence of interest can also include a coding sequence for a polypeptide, such as a chimeric antigen receptor. Additionally, the endogenous splice donor site and the endogenous splice acceptor site flanking the intron are unmodified and/or remain functional. The invention further provides compositions and methods for producing the genetically-modified cell, and populations of the cell, and methods for the treatment of a disease, such as cancer, using such cells.

Abstract: The invention pertains to construction of next-generation DNA sequencing (NGS) libraries for whole genome sequencing, targeted resequencing, sequencing-based screening assays, metagenomics, or any other application requiring sample preparation for NGS.

Abstract: Field of application: This invention relates to the chemistry of nucleotides and allows to synthesize new combinatorial libraries of supramolecular oligonucleotides for use in medical fields, cosmetology and pharmaceutical industry. This invention also can be applied for the creation of means used in the body rejuvenation, treating human diseases such as cancer, trophic ulcers, creating new herbicides and pesticides.

Abstract: The present invention provides methods and compositions for reducing lactate production and increasing polypeptide production in cultured cells. In one aspect, the invention provides a method comprising culturing cells expressing a) a small interfering RNA (siRNA) specific for a lactate dehydrogenase (LDH) and b) an siRNA specific for a pyruvate dehydrogenase kinase (PDHK). In another aspect, the invention provides cultured cells or vectors comprising an siRNA specific for a LDH and an siRNA specific for a PDHK.

Abstract: A method of sample analysis is provided. In some embodiments, the method comprises: (a) digesting a mixed nucleic acid sample with a plurality of reprogrammed nucleic acid-directed endonucleases that target sequences of interest to produce a digested sample, wherein at least some of the fragments in the digested sample comprise: (i) a sequence of interest and (ii) at least one ligatable end that has been generated by endonuclease cleavage; (b) enriching for fragments that contain the sequence of interest; and (c) analyzing the enriched fragments. Kits for performing the method are also provided.

Abstract: The present invention provides ruthenium-based photolinker compounds, caged molecules comprising the ruthenium-based photolinker compounds, and methods of use. In certain aspects, the compositions disclosed herein comprise an active domain conjugated to a ruthenium-based photolinker, such that irradiation of the photolinker exposes the active domain.

Abstract: The disclosure provides three-dimensional cross-linked polymer networks transport channels, arrays comprising the networks, processes for making the networks, and uses of the networks and arrays.

Abstract: The invention is directed to compositions and methods for isolating, detecting, amplifying, and quantitating pathogen-specific nucleic acids in a biological sample, and in particular PCR ready compositions that contain enzyme and are stable or long periods of time. The invention also provides diagnostic kits containing specific amplification primers, and labeled detection probes that specifically bind to the amplification products obtained therefrom. Also disclosed are compositions and methods for the isolation and characterization of nucleic acids that are specific to one or more pathogens, including for example Influenza virus and Mycobacterium tuberculosis, from a wide variety of samples including those of biological, environmental, clinical and/or veterinary origin.

Abstract: The present disclosure provides methods, kits and compositions for identifying nucleic acid agents having a desired property, e.g., a property of specifically binding to a target (such as a protein target) with high affinity. More specifically, the present disclosure provides methods, kits and compositions for identifying candidate nucleic acid agents with both high specificity and affinity for a target.

Abstract: A method and a device for determining a nucleotide sequence are proposed. The method comprises immobilising looped fragments of a nucleic acid and a polymerase on a sensor surface and adding a mixture of unlabelled nucleotides onto the sensor surface. Moreover, in the mixture added, one nucleotide type is present at a much lower concentration compared to the other nucleotides. Time intervals between each of the charge separation events are determined and the mixture addition and the registration steps are repeated. Moreover, at each repetition, the nucleotide type present at a much lower concentration compared to the other nucleotides in the mixture added is changed. The nucleotide sequence of a nucleic acid molecule is determined by the analysis of the time intervals between each of the charge separation events registered, which result from the insertion, facilitated by the polymerase, of said unlabelled nucleotides into the growing nucleic acid chain.

Abstract: A method of reducing the level of a transcription product in a cell comprising contacting with the cell a composition comprising a double-stranded nucleic acid complex comprising a first nucleic acid strand annealed to a second nucleic acid strand, wherein: (i) the first nucleic acid strand hybridizes to the transcription product and comprises (a) a region consisting of at least 4 consecutive nucleotides that are recognized by RNase H when the strand is hybridized to the transcription product, (b) one or more nucleotide analogs located on 5? terminal side of the region, (c) one or more nucleotide analogs located on 3? terminal side of the region and (d) a total number of nucleotides and nucleotide analogs ranging from 8 to 35 nucleotides and (ii) the second nucleic acid strand comprises (a) nucleotides and optionally nucleotide analogs and (b) at least 4 consecutive RNA nucleotides.

Abstract: The invention relates to double-stranded ribonucleic acid (dsRNA) compositions targeting the ALAS1 gene, and methods of using such dsRNA compositions to alter (e.g., inhibit) expression of ALAS1.

Abstract: The invention relates to methods and kits for determining the methylation status of a target nucleic acid molecule in a sample comprising (a) bisulfite treatment of the target nucleic acid, (b) amplifying the treated target nucleic acid with methylation-specific primers, (c) contacting the amplicons with a methylation-specific plasmonic nanoprobe and (d) determining the methylation status based on melting temperature Tm of the hybrid probe and the target nucleic acid. In particular, a plasmonic gold nanoparticle covalently coupled to a morpholino oligonucleotide probe. Also claimed are methods and kits for determining methylation status of the Septin 9 (SEPT9) gene promoter.

Abstract: Methods, devices, and systems for analyte analysis using a nanopore are disclosed. The methods, devices, and systems utilize a first and a second binding member that each specifically bind to an analyte in a biological sample. The method further includes detecting and/or counting a cleavable tag attached to the second binding member and correlating the presence and/or the number of tags to presence and/or concentration of the analyte. Certain aspects of the methods do not involve a tag, rather the second binding member may be directly detected/quantitated. The detecting and/or counting may be performed by translocating the tag/second binding member through a nanopore. Devices and systems that are programmed to carry out the disclosed methods are also provided. Also provided herein are instruments that are programmed to operate a cartridge that includes an array of electrodes for actuating a droplet and further includes an electrochemical species sensing region.

Abstract: The present invention provides asymmetrical duplex RNA molecules that are capable of effecting sequence-specific gene silencing. The RNA molecule comprises a first strand and a second strand. The first strand is longer than the second strand. The RNA molecule comprises a double-stranded region formed by the first strand and the second strand, and two ends independently selected from the group consisting of 5?-overhang, 3?-overhang, and blunt end. The RNA molecules of the present invention can be used as research tools and/or therapeutics.

Abstract: Disclosed are methods for synthesizing and/or assembling at least one polynucleotide product having a predefined sequence from a plurality of different oligonucleotides. In exemplary embodiments, the methods involve synthesis and/or amplification of different oligonucleotides immobilized on a solid support, release of synthesized/amplified oligonucleotides in solution to form droplets, recognition and removal of error-containing oligonucleotides, moving or combining two droplets to allow hybridization and/or ligation between two different oligonucleotides, and further chain extension reaction following hybridization and/or ligation to hierarchically generate desired length of polynucleotide products.

Abstract: SNAIL provides cost-efficient detection of specific nucleic acids in single cells, and may be combined with flow cytometry to simultaneously analyze large numbers of cells for a plurality of nucleic acids, e.g. at least one, to up to 5, up to 10, up to 15, up to 20 or more transcripts can be simultaneously analyzed, at a rate of up to about 50, 100, 250, 500 or more cells/second. The methods require only two primers for amplification, and may further include a detection primer.

Abstract: System for performing chemical spectroscopy on samples from the scale of nanometers to millimeters or more with a multifunctional platform combining analytical and imaging techniques including dual beam photo-thermal spectroscopy with confocal microscopy, Raman spectroscopy, fluorescence detection, various vacuum analytical techniques and/or mass spectrometry. In embodiments described herein, the light beams of a dual-beam system are used for heating and sensing.

Abstract: Provided herein is technology relating to the manipulation and detection of nucleic acids, including but not limited to compositions, methods, and kits related to nucleotides comprising a chemically reactive linking moiety.

Abstract: The present disclosure relates to systems and methods for classifying data sets using associated functions from neural networks. In one example, a system for classifying data sets by corresponding functions includes at least one processor and at least one non-transitory memory storing instructions that, when executed by the at least one processor cause the system to perform operations including: obtaining a neural network associated with a data set, the neural network being trained to generate synthetic data sets related to the data set; selecting a test set of inputs to the neural network; obtaining a corresponding set of outputs by applying the neural network to the test set of inputs; estimating one or more functions describing the test set of inputs and the corresponding set of outputs; and indexing the estimated one or more functions to the data.

Abstract: Certain exemplary embodiments of the present disclosure can provide an apparatus and method for generating at least one radiation can be provided. The exemplary apparatus and/or method can selectively kill and/or affect at least one bacteria. For example, a radiation source first arrangement can be provided which is configured to generate at least one radiation having one or more wavelengths provided in a range of about 190 nanometers (nm) to about 230 nm, and at least one second arrangement can be provided which is configured to prevent the at least one radiation from having any wavelength that is outside of the range can be provided.

Abstract: An apparatus for detecting an object capable of emitting light. The apparatus comprises a light detector comprising at least two optical sensors capable of determining the intensity of the light; and a computer processing output signal generated by the optical sensors and comparing a result of the processing with a known result corresponding to a known type to determine whether the object belongs to the known type.

Abstract: The present invention is a method for measuring the amount of at least one molecule in a biological sample, the method comprising a) combining the sample, or a derivative thereof, with one or more aptamers and allowing one or more molecules in the sample to bind to the aptamer(s); b) separating bound from unbound molecules; and c) quantifying the molecule(s) bound to the or each aptamer, wherein quantification of the bound molecule(s) is carried out by sequencing at least part of the or each aptamer. Uses of and products derived from the method are also contemplated.

Abstract: Provided are methods of depleting a target nucleic acid from an initial collection of nucleic acids. Aspects of the methods include contacting the initial collection with a nucleic acid guided nuclease specific for the target nucleic acid in a manner sufficient to deplete the target nucleic acid from the initial collection. Depending on a given application, depletion of a target nucleic acid may vary, e.g., where depleting may include cleaving a target nucleic acid in, or selectively separating a target nucleic acid from, the initial collection of nucleic acids. Also provided are compositions and kits for practicing embodiments of the methods.

Abstract: Disclosed herein are methods and compositions for detecting differential expression of certain miRNAs in cancer cells or their surrounding normal tissues in the tumor microenvironment. The disclosure describes an automated, highly sensitive and specific method for detection of any cellular RNA molecule, including microRNA, messenger RNA and non-coding RNA. The technology includes probe design as well as probe use in an automated fashion for detection of RNA molecules in formalin-fixed paraffin-embedded tissue (FFPET) samples.