Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: The present technology relates generally to methods and compositions for targeted nucleic acid sequence enrichment, as well as uses of such enrichment for error-corrected nucleic acid sequencing applications. In some embodiments, highly accurate, error corrected and massively parallel sequencing of nucleic acid material is possible using a combination of uniquely labeled strands in a double-stranded nucleic acid complex in such a way that each strand can be informatically related to its complementary strand, but also distinguished from it following sequencing of each strand or an amplified product derived therefrom. In various embodiments, this information can be used for the purpose of error correction of the determined sequence.

Abstract: The present invention relates to a method for prenatal diagnosis using digital PCR, and more particularly to a method for providing information for diagnosis of chromosomal aneuploidy in a fetus, comprising: (a) extracting DNAs from pregnant woman's blood; (b) classifying the DNAs according to size to obtain DNAs having a size of 1,000 bp or less; (c) performing digital PCR using the obtained DNAs of step (b), for a control gene located on a chromosome not associated with chromosomal aneuploidy and a target gene located on a chromosome associated with chromosomal aneuploidy; (d) calculating a ratio of a quantitative digital PCR value of the target gene to a quantitative digital PCR value of the control gene; and (e) determining that when the ratio calculated in step (d) is 0.70-1.14, a chromosome number of the fetus is normal.

Abstract: This invention is directed to a method for detecting near and distant interactions between cells, organelles and other large structures. This method can also be used for specific detection and quantification of Antibody or other binding moiety protein-protein and macro-molecular interactions, as well as quantitative analysis of multiple proteins and their modifications.

Abstract: The present disclosure provides a method for detecting live Mycobacterium tuberculosis in a sample. The method of the present disclosure can rapidly detect Mycobacterium tuberculosis, identify live Mycobacterium tuberculosis, greatly reduce the required reagents and biological samples, and simplify the experimental procedure and time.

Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: Embodiments disclosed herein provide reagents and methods for high-throughput screening of nucleic acid sequence variations in nucleic acid containing specimens. Nucleic acid specimens to be screened are loaded into separate discrete volumes. Optically encoded particles are used to deliver primers to amplify one or more sequences comprising the nucleic acid sequence variation. The optically encoded particles may be delivered to the discrete volumes randomly resulting in a random combination of optically encoded particles in each well, or a unique combination of optically encoded particles may be specifically assigned to each discrete volume. The observable combination of optically encoded particles may then be used to identify each discrete volume.

Abstract: The present disclosure provides primers, primer sets, kits and methods for multiple displacement amplification, especially in combination with nucleic acid sequencing. The primers comprise self-complementary sequences at their 5? termini and random or semi-random sequences at their 3? termini. Use of such primers facilitates handling of multiple samples, increases sequence coverage uniformity, and improves sequencing error corrections.

Abstract: Methods for primer switching during amplification reactions are provided. In particular, methods are provided for converting single primer PCR amplicons to dual primer PCR amplicons.

Abstract: The present disclosure provides a novel loop-de-loop method of detecting a target nucleic acid using a biosensor-labeled oligonucleotide. Further provided herein is a looped primer and a kit for use in the method.

Abstract: Provided herein are methods to determine the original abundance of mutant alleles of one or more barcoded target sequences following mutation enrichment and sequencing.

Abstract: According to one embodiment, a nucleic acid reaction tool includes a support having a first surface, a covering body having a second surface, and a groove opened on the second surface, and a primer set. The covering body is in contact with the support to form a reaction space surrounded by the first surface and the groove. The groove includes, on an inner surface of the reaction space, rising surfaces opposed to each other, and a rear surface connecting one end of the side surfaces, and a primer fixing region to which the primer set is fixed, the primer fixing region being located at a corner where the one end of the side surfaces connected to the rear surface in the reaction space.

Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: PCR that allows the researchers to amplify a desired DNA requiring only tiny amounts of sample. Such amplification reactions are technically challenging and are often hampered by several practical issues such as the presence of PCR inhibitors, sample degradation and low quantities of said sample. The invention addresses these issues with a method for evaluating the amplification efficiency and/or the presence of inhibitors and/or degradation and/or performing a quantification of a nucleic acid in a real-time amplification reaction comprising: optionally amplifying in a reaction composition a first target nucleic acid using a first primer pair in a real-time amplification reaction, (i) amplifying in said reaction composition one or more second internal nucleic acid control templates (IC) with a length of between 50 and 2000 nucleotides, wherein the second nucleic acid has a sequence selected from the group of: i) SEQ ID NO.

Abstract: The present invention provides oligonucleotide constructs, sets of such oligonucleotide constructs, and methods of using such oligonucleotide constructs to provide validated sequences or sets of validated sequences corresponding to desired ROIs. Such validated ROIs and constructs containing these have a wide variety of uses, including in synthetic biology, quantitative nucleic acid analysis, polymorphism and/or mutation screening, and the like.

Abstract: Methods of detecting target polynucleotide sequences may include introducing one or more nucleic acid analytes to a first reaction mixture comprising a single-stranded probe oligonucleotide A0, a pyrophosphorolysing enzyme, and a ligase. The analyte may anneal to the single-stranded probe oligonucleotide A0 to create a first intermediate product which is at least partially double-stranded, where the 3? end of A0 forms a double-stranded complex with the analyte and where A0 is pyrophosphorylsed in the 3?-5? direction from the 3? end to create at least a partially digested strand A1. A1 may undergo ligation to form oligonucleotide A2. The methods may also include detecting a signal derived from the formed oligonucleotides, and inferring therefrom the presence or absence of the target polynucleotide sequence in the analyte.

Abstract: Methods for detecting single nucleotide polymorphisms in nucleotide sequences using LAMP reactions are provided herein. Generally, two sets of LAMP primers, a wild-type primer that matches expected DNA sequences and an SNP primer that matches the expected SNP DNA are provided. One method includes providing the wild-type primer and the SNP primer in separate wells of a multi-well microfluidic array device, adding the sample nucleotide sequence into the wells seeded with the primers, and initiating LAMP reactions within the wells. The method includes observing the reaction differential between the primers and determining the status of the DNA with regard to that particular SNP. A second method includes providing the primers with tags in a mixture, adding the sample nucleotide sequence to the mixture, and initiating LAMP reactions.

Abstract: The present invention provides methods for diagnosing melanoma and/or solar lentigo in a subject by analyzing nucleic acid molecules obtained from the subject. The present invention also provides methods for distinguishing melanoma from solar lentigo and/or dysplastic nevi and/or normal pigmented skin. The methods include analyzing expression or mutations in epidermal samples, of one or more skin markers. The methods can include the use of a microarray to analyze gene or protein profiles from a sample.

Abstract: A method of preparing a sample may include depositing an aqueous solution comprising copies of a primer into a layer of hydrophobic liquid on a substrate with a thermal inkjet device. A sample may include: a substrate; a layer of hydrophobic liquid on the substrate, the layer of hydrophobic liquid comprising a plurality of droplets of aqueous solution distributed in the layer, wherein the plurality of droplets contain: primers; a polymerase enzyme; deoxynucleotide triphosphates (dNTPs); and a target sequence for replication; and a cover, the cover contacting and covering the layer of hydrophobic liquid.

Abstract: Disclosed is a system and method for production of DNA particles and use thereof. The DNA particles can be produced by amplification of nucleic acid molecule(s). Alternatively, DNA particles can be prepared by condensing multiple DNA molecules. The DNA condensation into a particle is mainly triggered by pyrophosphate and positively charged cations (e.g. magnesium). DNA particles can be applied for numerous biological applications but not limited to directed evolution, proteomics, drug delivery and imaging. DNA particles can be used to synthesize proteins using in vitro transcription/translation reaction.