Abstract: The present invention relates to a nanoplasmonic biosensor capable of label-free multiplex detection of disease markers in blood with high selectivity and sensitivity and a method for detecting disease markers using the nanoplasmonic biosensor. The nanoplasmonic biosensor of the present invention enables label-free multiplex detection of miRNAs as disease markers in blood with high selectivity and sensitivity. Therefore, the nanoplasmonic biosensor of the present invention can be effectively used for the diagnosis of miRNA-related diseases and clinical applications.

Abstract: Provided are devices, systems, and methods for the identification, quantification, and profiling of microscopic organisms. The methods for the identification, quantification, and profiling of microscopic organisms include, for example, the selective enrichment of microscopic organisms from a heterogeneous sample; subsequent loading of the microscopic organisms into microfluidic channels or reaction chambers; direct amplification of nucleic acids from single, isolated microscopic organisms; and examination of amplification products using digital High Resolution Melting (HRM) analysis.

Abstract: Disclosed herein, inter alia, are methods and compositions for sequencing a plurality of template nucleic acids.

Abstract: A high-throughput hybridization and reading method for biochips uses probes with different marks to specifically connect single nucleotide loci by conducting connection between the probes and target genes at different temperatures, and performing hybridization at the same temperature after the probes are connected, thereby achieving hybridization detection for various loci in a single chip. The method enables fast detection for multiple loci as required by personalized medicine. The detection is high-throughput and systematized and provides highly visualized and highly accurate results. The method allows detection for different loci at different hybridization temperatures to be done simultaneously. The method features highly uniform and repeatable detection, making biochips more efficient and utility in terms of detection. Besides, the chip is easy to prepare and use, thus having a good promotional value.

Abstract: A sample rack includes a placement table having an upper surface for placing at least one sample plate thereon, a handle portion holding a proximal end portion of the placement table, the handle portion having a lower end portion positioned lower than a lower surface of the placement table when the upper surface is leveled, and a leg portion attached to the placement table to take a protruding posture in which the leg portion is protruded downward from the lower surface and a storage posture in which the leg portion is not protruded downward from the lower surface. The leg portion is configured to support the sample rack to maintain the upper surface substantially horizontally in cooperation with the lower end portion of the handle portion when the sample rack is placed on a substantially horizontal surface with the leg portion taking the protruding posture.

Abstract: The method for preventing progression to Type II Diabetes includes determining whether a subject possesses a risk variant expression profile demonstrating dysregulation of the IL-33/ST2 axis, and providing an intervention to prevent progression to Type II Diabetes and/or to reverse prediabetes, including modifications of diet and exercise, administration of one or more pharmaceutical compounds, or a combination thereof. The method may be useful to reduce the risk of developing complications associated with Type II Diabetes or prediabetes, such as heart disease, stroke, or obesity. The pharmaceutical compound may be one or more pharmaceuticals capable of reducing circulating cholesterol, reducing blood glucose levels, reducing blood pressure, or a combination thereof.

Abstract: The invention relates to new methods of moving helicases past spacers on polynucleotides and controlling the loading of helicases on polynucleotides. The invention also relates to new methods of characterising target polynucleotides using helicases.

Abstract: Described herein are DNA-nanostructures that can be used in an assay to detect and/or quantify an analyte of interest. Aspects of the DNA-nanostructure can include a single DNA molecule composed of hairpin structural motifs, an anchor recognition moiety, and a signal moiety, where the anchor recognition moiety and the signal moiety are in effective proximity to each other such that the tethered diffusion of the signal molecule can be altered based upon binding status of the anchor recognition moiety. Also described herein are methods of making and using the DNA-nanostructures.

Abstract: Provided herein are methods for resetting an array to which a biological sample has been applied that include treating the array with a set of biological sample removal conditions.

Abstract: A sample of blood is placed on a bilirubin test strip and plasma separated from the red blood cells. The bilirubin test strip is located on a test card along with a set of calibration images, the colors of the calibration images being associated with known plasma bilirubin levels. A photograph is taken of the test card. The bilirubin level of the blood sample is determined by, within the photograph, interpolating the color of the plasma and the colors of the closest colored calibration images.

Abstract: The present invention provides algorithm-based molecular assays that involve measurement of expression levels of genes from a biological sample obtained from a kidney cancer patient. The present invention also provides methods of obtaining a quantitative score for a patient with kidney cancer based on measurement of expression levels of genes from a biological sample obtained from a kidney cancer patient. The genes may be grouped into functional gene subsets for calculating the quantitative score and the gene subsets may be weighted according to their contribution to cancer recurrence.

Abstract: The invention relates to methods for pairwise sequencing of a polynucleotide template which result in the sequential determination of nucleotide sequence in two distinct and separate regions of the polynucleotide template.

Abstract: Provided are methods, as well as compositions, kits, and systems for preparing optimized control nucleic acids (polynucleotides) having reduce nucleic acid damage. Provided nucleic acid compositions provide reduced artifacts as compared to nucleic acid compositions prepared by conventional methods. Provided compositions are useful control in a variety of applications, including, but not limited to sequencing workflows to effectively monitor sensitivity, accuracy and/or precision of data.

Abstract: The present disclosure relates to improved methods for detecting nucleic acids using DNA fingerloop stem loop structures, wherein the DNA fingerloop stem loop structures diminish base pairing of a detection probe to a mismatched target nucleic acid. The present disclosure also relates to improved methods for amplifying nucleic acids. Further disclosed are chimeric fingerloop DNAs for use in methods for modulating protein expression levels and/or RNA stability.

Abstract: In some embodiments, the present teachings provide compositions, systems, methods and kits for generating a population of nucleic acid fragments. In some embodiments, nucleic acids can be fragmented enzymatically. For example, methods for generating a population of nucleic acid fragments can include a nucleic acid nicking reaction. In one embodiment, the methods can include a nick translation reaction. A nicking reaction can introduce nicks at random positions on either strand of a double-stranded nucleic acid. A nick translation reaction can move the position of nicks to a new position so that the new positions of two of the nicks are aligned to create a double-stranded break. In some embodiments, methods for generating a population of nucleic acid fragments can include joining at least one end of a fragmented nucleic acid to one or more oligonucleotide adaptors.

Abstract: The present disclosure provides genetically modified antibody-producing cells comprising edited chromosomal sequences associated with immunoglobulin heavy chain constant region, the IgH locus. In particular, these cells are generated using a CRISPR/Cas 9-mediated editing process. The disclosure also provides specific guide RNA (gRNA) guide sequences that target the chromosomal sequence of immunoglobulin heavy chain constant region in the Switch regions.

Abstract: The methods, compositions, and kits of the disclosure provide a novel approach for a whole genome, unbiased DNA analysis method that can be performed on limited amounts of DNA. can be used to analyze DNA to determine its modification status. Aspects of the disclosure relate to a method for amplifying bisulfite-treated deoxyribonucleic acid (DNA) molecules comprising: (a) ligating an adaptor to the DNA molecules, wherein the adaptor comprises a RNA polymerase promoter comprising bisulfite-protected cytosines; (b) treating the ligated DNA molecules with bisulfite; (c) hybridizing the bisulfite-treated DNA molecules with a primer; (d) extending the hybridized primer to make double stranded DNA; and (e) in vitro transcribing the double-stranded DNA to make RNA.

Abstract: Disclosed is a method for capturing target cells or molecules in solution, comprising steps of: (I) getting medium containing said target cells or molecules into an apparatus comprising a capturing device for capturing said target cells or molecules; (II) getting said medium flow through said capturing device; (III) removing unbound debris, cells and molecules; (IV) getting said target cells or molecules detached from the capturing device; and (V) collecting said target cells or molecules; wherein said capturing device comprises at least one functionalized mesh comprising a mesh substrate and a functional layer formed on said mesh substrate, wherein said functional layer comprises capturing substances that can specifically bind with said target cells or molecules. The method has high specificity, as well as high throughput, and is suitable for capturing cells or molecules in a solution or expressed at the surface of cell membranes. It is particularly suited to capture and sort circulating tumor cells.

Abstract: A DNA analysis method and a DNA analyzing device using terahertz wave capable of accurately determining a type of cancer from DNA using terahertz wave are disclosed. The DNA analysis method according to the present invention comprises: (a) irradiating terahertz wave onto methylated DNA; (b) detecting the terahertz wave reflected from the methylated DNA; (c) detecting a peak of a waveform of the terahertz wave detected in the step (b); and (d) determining type of cancer from the peak detected in the step (c).

Abstract: The present disclosure relates to a method of sequencing nascent RNA in a cell. In some embodiments, the nascent RNA is conjugated to DNA using copper-catalyzed azide-alkyne cycloaddition (CuAAC). Methods of the present disclosure can be used to generate genomic libraries of a cell and measure gene expression and enhancer and/or super-enhancer activity.

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: The present invention provides compositions and methods for treating cancer with peptide nucleic acid agents. In some embodiments, the present invention provides methods and compositions relating to peptide nucleic acid agents that target oncogenes. For example, the present invention provides compositions, including pharmaceutical compositions, comprising agents specific for BRAF V600E inhibition, or fragments or characteristic portions thereof. The present invention further provides various therapeutic and/or diagnostic methods of using BRAF V600E specific peptide nucleic acid agents and/or compositions.

Abstract: Provided herein are inhibitors of DNA methyltransferase 1 (an enzyme responsible for the maintenance of DNA CpG methylation marks in human cells) and their use for inhibiting DNA methyltransferase 1. The invention relates to compounds, pharmaceutical compositions, and methods for inhibiting DNA methyltransferase 1.

Abstract: Provided herein are high-throughput, high-quality methods of consecutive in situ hybridization for analysis of the genome and/or transcriptome in an individual cell with single-molecule sensitivity. In particular, provided herein are methods comprising visualizing individual genomic loci or transcripts as single detectable signals (e.g., fluorescent spots) which remain in place during consecutive hybridization. In each cycle of consecutive hybridization, detectably labeled probes hybridize to the probe used in the previous cycle, and also introduce the binding sites for the probe of the following cycle. Through consecutive cycles of probe hybridization, imaging, and signal removal, different genomic loci or RNA species can be identified by unique detectable signal profiles (e.g., fluorescent spots with unique color sequences). The number of varied color sequences increases exponentially with the number of hybridization cycles, which enables the genome or transcriptome-wide analysis.

Abstract: Proteases are enzymes which hydrolyze protein enzymes, eliminating their activity. The present invention exploits the hydrolyzing activity of proteases including proteinase K, endoproteinase LysC and/or trypsin to control the activity of restriction enzymes and/or eliminate or reduce production of unwanted DNA or RNA fragments (known as star activity).

Abstract: Determining relative relationships of people who share a common ancestor within at least a threshold number of generations includes: receiving recombinable deoxyribonucleic acid (DNA) sequence information of a first user and recombinable DNA sequence information of a plurality of users; processing, using one or more computer processors, the recombinable DNA sequence information of the plurality of users in parallel; determining, based at least in part on a result of processing the recombinable DNA information of the plurality of users in parallel, a predicted degree of relationship between the first user and a user among the plurality of users, the predicted degree of relative relationship corresponding to a number of generations within which the first user and the second user share a common ancestor.

Abstract: This present disclosure describes hybridization probes modularly constructed from several oligonucleotides with a pattern of designed complementary interactions, allowing the probes to sequence-specifically capture or analyze nucleic acid target sequences that are long and/or complex.

Abstract: The present disclosure relates to methods of assessing a sample of guide RNAs (gRNAs).

Abstract: The present invention is directed to methods and compositions for typing of Lactobacillus buchneri bacterial strains, detecting the presence of a L. buchneri in a sample, identifying a strain of L. buchneri having resistance to an invasive foreign genetic element, modifying the resistance of bacteria and archeae to an invasive foreign genetic element, and introducing nicks into or cleaving double stranded DNA for genome editing.

Abstract: Disclosed herein are methods of utilizing machine learning methods to analyze microscope images of populations of cells.

Abstract: Systems and methods are disclosed for performing event timing detection for DNA sequencing. In certain embodiments, a method may comprise generating a signal based on a DNA strand passed through a nanopore sensor, sampling the signal to generate a plurality of sample values, and detecting one or more event boundaries based on the sample values, an event representing a movement of a single DNA base of the DNA strand through the nanopore sensor. Detecting the one or more event boundaries may include segmenting the plurality of sample values into multiple events to calculate an optimal total score, assigning an event value to a selected event from the multiple events based on sample values of the selected event, and providing the event value to a base caller to determine a sequence of DNA bases.

Abstract: The present invention discloses a method for modifying an amino acid attenuator, a class of amino acid attenuator mutants, engineered bacteria created on the basis of the amino acid attenuator mutants, and use of the engineered bacteria. The present invention protects a method for relieving the attenuation regulation of an amino acid operon gene, which is modification of the amino acid operon gene by: removing a gene coding for a leader peptide and an anterior reverse complementary palindromic sequence in the terminator stem-loop structure, and maintaining a posterior reverse complementary palindromic sequence in the terminator. The amino acid operon particularly can be histidine operon, tryptophan operon, phenylalanine operon, alanine operon, threonine operon and etc. The present invention can be used for the production of amino acids and derivatives thereof in fermentation by bacteria, providing a novel method for improving the production of amino acids in fermentation.

Abstract: The present disclosure provides RNA polymerase variants for high efficiency transcription.

Abstract: A method for coherent multidimensional spectroscopy may comprise illuminating a location in a sample with a set of m coherent light pulses, each coherent light pulse having an initial frequency ?m and an initial wave vector {right arrow over (k)}m, wherein m?2, to generate a coherent output signal having an initial frequency ?output=?±?m and an initial wavevector wave vector {right arrow over (k)}output=?±{right arrow over (k)}m; scanning a first coherent light pulse of the set of m coherent light pulses across a set of i frequency values, wherein i?2, the set of i frequency values including the first coherent light pulse having initial frequency ?1; scanning, simultaneously, a second coherent light pulse of the set of m coherent light pulses across a set of i correlated frequency values, the set of i correlated frequency values including the second coherent light pulse having initial frequency ?2, wherein each correlated frequency value is associated with a corresponding frequency value of the set of i frequ

Abstract: A collector device of environmental exposure is provided. This device may be used to collect and, after technical upgrade, monitor environmental exposure in personal and stationary settings. By coupling with advanced genomic analysis and chemical analysis technologies, the device and its accompanying methodology are capable of detecting environmental agents of diverse nature, many of which could pose health risks if going unaware of or uncontrolled. This type of information provides much needed clues to reconstruct and pinpoint the course of disease etiology at both personal and epidemic scales. By combining personal exposome and personal omics analyses, we can recapitulate with the intention to then prescribe treatment plans with unprecedented precision.

Abstract: Described herein are variants of alpha-hemolysin having at least one mutation selected from T12R, T12K, N17R, N17K or combinations of T12 and N17 mutations. The variants in some embodiments may further comprise H144A. The ?-hemolysin variants have a decreased time to thread.

Abstract: The present invention relates to compositions and methods of inhibiting p38 kinase to reduce gene and protein expression of DUX4 and downstream genes regulated by DUX4. The present invention further relates to methods for treating patients suffering from diseases associated with increased expression of DUX4 or expression of an aberrant form of DUX4, such as Facioscapulohumeral muscular dystrophy (FSHD).

Abstract: The present invention relates to, among other things, probes, compositions, methods, and kits for simultaneous, multiplexed detection and quantification of protein and/or nucleic acid expression in a user-defined region of a tissue, user-defined cell, and/or user-defined subcellular structure within a cell that are adaptable for use with existing sequencing technologies.

Abstract: It has been discovered that the human GT198 gene (gene symbol PSMC3IP) at chromosome 17q21 acts as a tumor suppressor. The mutation of the GT198 gene causes the increased dominant negative splice variant activity and leads to the loss of wild type GT198 function, and in turn, induces breast and ovarian cancers. One embodiment provides compositions and methods for treating or alleviating one or more symptoms associated with cancer due to the GT198 gene mutations. Another embodiment provides methods and compositions for detecting cancer due to the mutation of the GT198 gene. Still another embodiment provides methods for identifying compounds, antibodies and natural product molecules that are useful for treating cancer due to the mutations of the GT198 gene. Preferably the disclosed compositions antagonize or interfere with the biological activity of splice variants of GT198.

Abstract: A recombinantly expressed nucleotide triphosphate transporter efficiently imports the triphosphates of unnatural nucleotides into cells, and the endogenous cellular machinery incorporates those nucleotides into cellular nucleic acids. UBPs can therefore form within the cell's nucleic acids. Moreover, neither the presence of the unnatural triphosphates nor the replication of the UBP represents a significant growth burden. The UBP is not efficiently excised by nucleic acid repair pathways, and therefore can be retained as long as the unnatural triphosphates are available in the growth medium. Thus, the resulting cell is the first organism to stably propagate an expanded genetic alphabet.

Abstract: A method comprising (A) fragmenting genomic DNA in a state where the interaction of the genomic DNA and molecules interacting therewith is maintained, and (B) bringing genomic DNA into contact with an exogenous molecule capable of binding to a specific endogenous DNA sequence in the genomic DNA. According to the method, with the use of an endogenous DNA sequence present inside or in the vicinity of a target genomic region in cells to be analyzed, any genomic region can be specifically isolated in a state where the interaction of the genomic region and molecules interacting therewith is maintained, without the need of inserting a recognition sequence of an exogenous DNA-binding molecule into the vicinity of the target genomic region in the cells to be analyzed.

Abstract: Disclosed are methods for performing transcription-dependent directed evolution (TRADE) and novel AAV capsids selected using such methods.

Abstract: A method for identifying a predefined target organism includes extracting a nucleic acid from a sample to form an extracted nucleic acid, amplifying the extracted nucleic acid to form a nucleic acid amplicon, tagging the nucleic acid amplicon with a capture probe and a detector partner to form a detector partner-nucleic acid amplicon-capture probe complex, and performing a detection assay on the detector partner-nucleic acid amplicon-capture probe complex to identify whether the predefined target organism is present in the sample.

Abstract: The present invention relates to the detection of nucleic acids sequences in situ using hybridization probes and generation of amplified hybridization signals, wherein background signal is reduced and sensitivity is increased.

Abstract: The invention relates to methods and compositions for the production of fucosylated oligosaccharides.

Abstract: A method of determining a nucleic acid sequence that includes steps of: (a) contacting a primed template nucleic acid with a series of mixtures for forming ternary complexes, wherein each of the mixtures includes a polymerase and nucleotide cognates for at least two different base types suspected of being present at the next template position of the template nucleic acid; (b) monitoring the next template position for ternary complexes formed by the series of mixtures, wherein a signal state indicates presence or absence of ternary complex formed at the next template position by each individual mixture, thereby determining a series of signal states that encodes a base call for the next template position; and (c) decoding the series of signal states to distinguish a correct base call for the next template position from an error in the base call.

Abstract: Disclosed herein is a simple, sensitive, and fully-recyclable fluorescence resonance energy transfer (FRET)-based multiplex detection platform that overcomes current requirements of complex labeling schemes and complicated data analysis algorithms for employing single-molecule FRET (smFRET) microscopy in multiplexing. While conventional smFRET detection techniques allow for the analysis of one target at a time, the disclosed approach utilizes the gaps between high- and low-FRET signals to provide simultaneous detection and quantification of multiple nucleic acid targets.

Abstract: The invention relates to double stranded ribonucleic acid (dsRNAi) agents and compositions targeting the SCAP gene, as well as methods of inhibiting expression of a SCAP gene and methods of treating subjects having a SCAP-associated disorder, such as nonalcoholic fatty liver disease (NAFLD) or nonalcoholic steatohepatitis (NASH), using such dsRNAi agents and compositions.

Abstract: The invention is a method of sequencing polymers in which the sequence of one or more polymers is determined through an emergent property of the binding interactions of a repertoire of molecular probes to the polymer(s).

Abstract: Hybrid nanopores, comprising a protein pore supported within a solid-state membrane, which combine the robust nature of solid-state membranes with the easily tunable and precise engineering of protein nanopores. In an embodiment, a lipid-free hybrid nanopore comprises a water soluble and stable, modified portal protein of the Thermus thermophilus bacteriophage G20c, electrokinetically inserted into a larger nanopore in a solid-state membrane. The hybrid pore is stable and easy to fabricate, and exhibits low peripheral leakage, allowing sensing and discrimination among different types of biomolecules.