Abstract: The present disclosure relates to methods and kits for DNA library construction, particularly for consistent and reproducible DNA sequencing.

Abstract: Focused acoustic treatment of samples may be used to differentially shear different fragment lengths of DNA or other nucleic acid portions of a sample. Relatively larger fragment lengths may be sheared while smaller fragment lengths are unaffected by the focused acoustic based shearing.

Abstract: This document provides methods and materials related to treating cancer. For example, methods and materials for using nucleic acid libraries to treat cancer are provided.

Abstract: A system and method for isolating cells, comprising: a substrate having a broad surface; an array comprising a set of wells defined at the broad surface of the substrate, each well including: a base surface, an open surface directly opposing the base surface, defined at the broad surface of the substrate, and configured to receive one of a single cell and a single cluster of cells from a direction perpendicular to the broad surface of the substrate, and a set of channels that fluidly couple each well to at least one adjacent well; wherein the set of wells includes an interior subset and an exterior subset fluidly coupled to and surrounding the interior subset by way of the set of channels; and a fluid delivery module surrounding the array and fluidly coupled to each well in the set of wells.

Abstract: In accordance with some embodiments herein, compositions and methods for accurate barcoding of nucleic acids are described. The compositions and methods can involve a plurality of unique oligonucleotide species comprising unique molecule barcodes. In some embodiments, the molecule barcodes can have a relatively low G content, and can exhibit reduced bias in amplification and analysis.

Abstract: A method for diagnosing a lymphoid proliferative disorder (such as lymphoma, T-cell lymphoma or leukemia) in a subject or determining the risk of a subject for a lymphoid proliferative disorder recurrence after transient remission, which includes high throughput T-Cell Receptor ? (TCR?) sequencing tests to identify dominant oncogenic clones in the subject suffering from the lymphoid proliferative disorder. Oligonucleotides primer compositions and kits associated with the above-described methods are also provided herein. Said subject includes living organisms, such as mammals (e.g., dogs, cats, pigs, cows, horses, goats, rabbits, humans), non-mammalian vertebrates, such as birds (e.g., chicken, ducks), fish (e.g., sharks), or frogs, and transgenic species thereof.

Abstract: A method of analyzing molecules using a nanopore array including a plurality of cells included on a chip is disclosed. Nanopores are caused to be formed in at least a portion of the plurality of the cells. A first physical measurement of the nanopores is evaluated. It is determined whether to cause the molecules to interact with the nanopores. At least a portion of the nanopores is caused to interact with the molecules. A second physical measurement of the nanopores that indicates a property of the molecules is evaluated. It is determined whether to cause the nanopores to be reformed so that the cells may be reused to interact with additional molecules.

Abstract: Provided is a surface having metal regions and an interstitial region having a composition that differs from the metal regions, wherein a continuous gel layer coats the surface across the metal regions and the interstitial regions. Nucleic acids or other analytes can be attached to the continuous gel layer such that a greater amount is attached over the metal regions than over the interstitial region. Also provided are methods for making such surfaces. Methods are also provided for making an array of nucleic acids or other analytes using such surfaces.

Abstract: Aspects of the present invention include analyzing nucleic acids from single cells using methods that include using tagged polynucleotides containing multiplex identifier sequences.

Abstract: Described herein is a method for identifying synthetic inducible promoters that have specified induction and/or repression for DNA binding proteins such as an allosteric transcription factor and an inducer molecule. The method includes an in vitro selection from an unselected polynucleotide library comprising a plurality of random degeneracies, and an in vivo selection to produce an induced promoter library. Produced is an induction table, which allows the selection of a promoter with specific induction and/or repression properties. Also included are biosensors containing the synthetic inducible promoters.

Abstract: Disclosed are methods for cell transfection and regulating cellular behavior. More particularly, the present disclosure relates to methods of non-viral cell transfection and regulating cellular behavior using mineral coatings that allow for the enhanced transfection of cells. The mineral coatings bind polynucleotides and provide a source of calcium and phosphate ions to enhance transfection. The present disclosure also provides a high throughput platform for screening non-viral transfection of cells. The methods of the present disclosure also provide an advantageous polynucleotide delivery platform because the mineral coatings may be deposited on various medical device materials after being specifically developed using the high throughput screening platform.

Abstract: A universal array for multiplexed quantification of variable hemagglutinin such as subcomponents of multivalent annual influenza vaccines that is robust to variations in proteins such as mutations and is capable of quantifying degradation of proteins. Universal capture array (100) comprises one or more substrates (102) and a low-density microarray (104) of sub-arrays (108) comprising spots (106a-c). The microarray (104) is contacted with one or more targets (202) at one or more unknown concentrations, and bound complexes (203) are formed and subsequently quantified with a suitable method. Quantified signals are compared to calibration curves to obtain one or more unknown concentrations and/or quantify degradation of the one or more targets (202). Other embodiments are described and shown.

Abstract: Embodiments disclosed herein provide reagents and kits for nucleic acid preparation comprising a siderophore. Embodiments disclosed herein provide methods for preparing a nucleic acid library, which comprise: providing a plurality of nucleic acid molecules from a sample; and manipulating the plurality of nucleic acid molecules in a reagent for nucleic acid preparation comprising a siderophore. Further, embodiments disclosed herein provide methods for reducing oxidative damage to a nucleic acid molecule or increasing the Q (phred) score of a sequencing reaction, which methods comprise preparing the nucleic acid molecule in the absence of EDTA.

Abstract: The present invention provides an apparatus for conducting biological assays which employs “virtual wells” in lieu of the physical wells of conventional array plates. Also provided are methods of processing a sample and/or culturing cells using the apparatus and systems described herein. In some embodiments, the apparatus includes a first structure having a sheet layer with a plurality of discrete through holes; and a second structure coupled to the first structure, the second structure including a base layer. At least a portion of a first surface of the sheet layer of the first structure is exposed from the second structure, and a second surface of the sheet layer, opposite to the first surface of the sheet layer, is embedded in the base layer of the second structure adjacent the first surface of the base layer.

Abstract: This disclosure provides, among other things, a method for making a cDNA library. In some embodiments the method may comprise reverse transcribing mRNA to produce DNA:mRNA hybrids, treating the DNA:mRNA hybrids with RNAseH to produce mRNA fragments, and reverse transcribing the mRNA fragments.

Abstract: A high through-put screening method for identifying agents effective for inhibiting biofilm formation and/or killing established biofilm are disclosed. The method includes three tiers, and each tier includes three specific biological process assays. The tier levels are a primary screen, a confirmation screen, and a dose-response screen, and the biological process assays include assays for total bacterial growth, bacterial metabolic activity, and biofilm formation. The series of assays may be run once or more than once at each tier. A library of compounds is subject to tier A and only compounds meeting a primary parameter advance to tier B, and only tier B compounds meeting a confirmation parameter advance to tier C, and only tier C compounds meeting a dose-response parameter are identified as putative agents effective for inhibiting and/or eradicating a biofilm, further wherein the assays are conducted for each compound subject to the respective tier.

Abstract: Disclosed herein are methods for single-cell sequencing. In some examples, the methods include enriching a sample comprising a plurality of cells for cells of interest to produce an enriched cell sample; isolating one or more cells of interest in the enriched cell sample; and obtaining sequence information of one or more polynucleotides from each of the one or more isolated cells. Obtaining sequence information may include generating a molecularly indexed polynucleotide library from the one or more isolated cells. Enriching the sample may include focusing cells of interest in the sample using acoustic focusing.

Abstract: Aspects of the present invention include analyzing nucleic acids from single cells using methods that include using tagged polynucleotides containing multiplex identifier sequences.

Abstract: Provided is an array including a solid support having a surface, the surface having a plurality of wells, the wells containing a gel material, the wells being separated from each other by interstitial regions on the surface, the interstitial regions segregating the gel material in each of the wells from the gel material in other wells of the plurality; and a library of target nucleic acids in the gel material, wherein the gel material in each of the wells comprises a single species of the target nucleic acids of the library. Methods for making and using the array are also provided.

Abstract: Described herein are methods, compositions, kits and systems for multiplexed detection of target molecules from a sample. In some embodiments, the methods, compositions, kits and systems can be used to perform multiplexed protein analysis of a sample (e.g., a sample comprising a small number of cells or a single-cell sample). In some embodiments, the same sample subjected to a multiplexed protein analysis using the methods, compositions, kits and systems described herein can also be subjected to a nucleic acid (e.g., RNAs, microRNAs, and/or DNA) analysis, thereby creating an integrated expression profiling from a limited amount of sample.