Abstract: The present invention relates to droplet-based surface modification and washing. According to one embodiment, a method of splitting a droplet is provided, the method including providing a droplet microactuator including a droplet including one or more beads and immobilizing at least one of the one or more beads. The method further includes conducting one or more droplet operations to divide the droplet to yield a set of droplets including a droplet including the one or more immobilized beads and a droplet substantially lacking the one or more immobilized beads.

Abstract: The invention provides methods for controlling the density of different molecular species on the surface of a solid support. A first mixture of different molecular species is attached to a solid support under conditions to attach each species at a desired density, thereby producing a derivatized support having attached capture molecules. The derivatized support is treated with a second mixture of different molecular species, wherein different molecular species in the second mixture bind specifically to the different capture molecules attached to the solid support. One or more of the capture molecules can be reversibly modified such that the capture molecules have a different activity before and after the second mixture of molecular species are attached. In particular embodiments, the different molecular species are nucleic acids that are reversibly modified to have different activity in an amplification reaction.

Abstract: The present disclosure generally relates to sequencing two or more genes expressed in a single cell in a high-throughput manner. More particularly, the present disclosure relates to a method for high-throughput sequencing of pairs of transcripts co expressed in single cells (e.g., antibody VH and VL coding sequence) to determine pairs of polypeptide chains that comprise immune receptors.

Abstract: The present invention is a novel protocol for the massively parallel production of improved MIPs. The molecular improvements to the MIP cover the manufacturing of the probes, the workflow, the addition of unique sequence elements which connote sample specificity, and a sequence tag which uniquely identifies a specific molecule present in the initial sample population. Lastly, this invention also is combined with an empirical optimization strategy that overcomes issues of both locus representation and allelic bias. This improved technique is scalable and can be utilized to amplify targets comprised of a single locus' amplicon up to targeting more than 1 million loci.

Abstract: The present invention provides methods and compositions for analyzing nucleic acid sequences. In some aspects, the methods utilize clonal objects, such as DNA balls, that have been captured on beads. Using the methods described here, compositions are fabricated wherein a bead and one clonal object are affinity bound or hybridized to each other through an affinity binding patch or hybridization patch on the surface of the bead. The invention also provides a population of beads having affinity bound or hybridized clonal objects at a ratio of 1:1. The invention additionally provides methods for amplifying a target nucleic acid molecule utilizing the compositions described herein.

Abstract: The present invention relates to methods of use of glycosyltransferases and related novel compounds. The invention exploits the reversibility of glycosyltransferases to generate new sugars, unnatural biomolecules and numerous one-pot reactions for generation of new biomolecules having varied backbones such as enediynes, vancomycins, bleomycins, anthracyclines, macrolides, pluramycins, aureolic acids, indolocarbazoles, aminglycosides, glycopeptides, polyenes, coumarins, benzoisochromanequinones, calicheamicins, erythromycin, avermectins, ivermectins, angucyclines, cardiac glycosides, steroids or flavinoids. In preferred embodiments, the invention specifically relates to biosynthesis of anticancer (the enediyne calicheamicin, CLM), anthelmintic agents (the macrolides avermectin, ivermectin and erythromycin) and antibiotic (the glycopeptide vancomycin, VCM) natural product-based drugs developed by reversible, bidirectional glycosyltransferase-catalyzed reactions.

Abstract: The invention relates to methods and compositions that enable the rapid generation of high-order combinations of genetic elements, and that provide a barcoded basis for rapid characterization of the specific combination of genetic elements encoded within a single cell or in a pooled population.

Abstract: The present invention relates to compositions and methods useful for analyzing lariat RNA, which plays a role in the regulation of gene expression. A sample of RNA is specifically treated to remove linear mRNA and enrich for lariat RNA. The enriched lariat RNA sample may be analyzed further to identify introns, branch point sequences, alternative splicing patters, and gene transcription levels. The enriched lariat RNA sample may also be exploited as a detection or compound screening tool, as well as other uses.

Abstract: Disclosed herein are compositions and methods for sequencing, analyzing, and utilizing samples such as single samples. Also disclosed herein are compositions and methods for matching together two or more sequences from a sample. Also disclosed herein are compositions and methods for expressing and screening molecules of interest.

Abstract: The instant invention is based, at least in part, on the identification of novel methods for the enzymatic enrichment of capped RNAs. The invention provides, e.g., methods for enrichment of capped RNAs, kits for making such capped RNAs, and compositions of enriched RNAs or cDNA libraries derived therefrom.

Abstract: The present invention provides methods to produce a reduced representation of a genome for sequencing and DNA polymorphism detection. In particular, the invention provides PCR-based methods, with normalization of the amplified products using a duplex-specific nuclease, in order to reduce over-representation of PCR products. Oligonucleotides for use in the disclosed method are also provided.

Abstract: A nucleic acid molecule can be annealed to an appropriate immobilized primer. The primer can then be extended and the molecule and the primer can be separated from one another. The extended primer can then be annealed to another immobilized primer and the other primer can be extended. Both extended primers can then be separated from one another and can be used to provide further extended primers. The process can be repeated to provide amplified, immobilized nucleic acid molecules. These can be used for many different purposes, including sequencing, screening, diagnosis, in situ nucleic acid synthesis, monitoring gene expression, nucleic acid fingerprinting, etc.

Abstract: The present invention relates to a method for producing pools of siRNA molecules suitable for RNA interference.

Abstract: The invention provides methods for preparing DNA sequencing libraries by assembling short read sequencing data into longer contiguous sequences for genome assembly, full length cDNA sequencing, metagenomics, and the analysis of repetitive sequences of assembled genomes.

Abstract: The present invention relates to systems and methods for performing isothermal amplification reactions. In particular, the present invention relates to denaturation methods for use in isothermal amplification reactions.

Abstract: The invention relates in a first embodiment to a method for increasing the yield of replication-incompetent adenoviruses having at least a partial deletion in the E1-region, wherein said adenoviruses are generated in a production cell, the method comprising the steps of: (a) expressing in said production cell an adenoviral pIX polypeptide from a nucleic acid sequence encoding said adenoviral pIX polypeptide under the control of (i) at least a minimal endogenous pIX promoter and a heterologous promoter; or (ii) a heterologous promoter; and (b) expressing in said production cell the elements necessary for the production and assembly of said adenoviruses from corresponding coding sequences, thereby increasing the yield of said adenoviruses generated in said production cell in comparison to the yield of replication-incompetent adenoviruses having at least a partial deletion in the E1-region generated in said production cell in the absence of said nucleic acid sequence encoding said adenoviral pIX polypeptide.

Abstract: The present invention is directed to compositions and methods for nucleic acid identification and detection. Compositions and methods of the present invention include extracting and fragmenting target nucleic acids from a sample, using the fragmented target nucleic acids to produce target nucleic acid templates and subjecting those target nucleic acid templates to amplification methods to form nucleic acid nanoballs. The invention also includes methods of detecting and identifying sequences using various sequencing applications, including sequencing by ligation methods.

Abstract: A directed evolution process for rapid and facilitated production from a progenitor polynucleotide template, of a library of mutagenized progeny polynucleotides wherein each of the 20 naturally encoded amino acids is encoded at each original codon position. This method, termed site-saturation mutagenesis, or simply saturation mutagenesis, is preferably based on the use of the degenerate N,N,G/T sequence. Also, a method of non-stochastically producing a library of chimeric nucleic acid molecules having an overall assembly order that is chosen by design. Accordingly, a set of progenitor templates, such as genes (e.g. a family of esterase genes) or genes pathways (e.g. encoding antibiotics) can be shuffled to generate a sizable library of distinct progeny polynucleotide molecules (e.g. 10100) and correspondingly encoded polypeptides.

Abstract: The invention provides compositions and methods for generating libraries of DNA sequences encoding homologous polypeptides, and uses of the libraries to identify naturally diversified polypeptide variants. The invention also provides compositions and methods for generating collections of synthetic antibody fragments in which one or several complementary determining regions (CDR) are replaced by a collection of the corresponding CDR captured from a natural source. The invention further provides compositions and methods for diversifying a portion of a polypeptide by inserting a diversified sequence of synthetic or natural origin without the need for modification of the original polypeptide coding sequence.

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 and compositions are provided for enriching for target sequences from a population of nucleic acids, that includes: combining in solution, a population of nucleic acids and a target isolation probe wherein the target isolation probe comprises an affinity binding domain; permitting a single stranded region of the target isolation probe to hybridize to all or a portion of a target sequence in the population of nucleic acids; selectively immobilizing the hybridized nucleic acids from the population containing the target sequences by associating the target isolation probe with a capture domain and removing unbound material; removing non-target sequences from the 3? end of the target sequence by means of one or more 3? exonucleases thereby generating a blunt ended duplex or a staggered end at the 3? end of the target sequence; optionally ligating a 3? duplex adaptor or a duplex end of a hairpin adaptor to the 3? end of the target sequence and the 5? end of the target isolation probe; extending the 3? end o

Abstract: Methods for forming cell arrays of multiple cell samples arranged substantially in a monolayer on a single substrate particularly suited for diagnostic analysis are disclosed. The cell arrays are formed with a high-speed dispensing apparatus capable of dispensing small volumes in precise, complex patterns. Also disclosed are substrates upon which cell arrays may be formed, and methods for conducting diagnostic analyses on the formed cell arrays.

Abstract: The invention relates to a method of preparing a library of template polynucleotides with uniform sequence representation and to use of a library of templates prepared using this method for solid-phase nucleic acid amplification. In particular, the invention relates to a method of preparing a library of template polynucleotides which have common sequences at their 5? ends and at their 3? ends, which contains even representation of all the fragments present in a starting sample of nucleic acid before fragmentation. The invention is especially applicable to the preparation of short insert libraries, where the sample fragments are less than 150 base pairs in length.

Abstract: The present invention provides methods for the amplification of nucleic acid molecules. Methods for amplifying target polynucleotides, including mRNA, using oligonucleotides, DNA and RNA polymerases are provided. The invention further provides compositions and kits for practicing the methods, as well as methods which use the amplification products.

Abstract: The present invention provides DNA libraries, libraries of viral clones and libraries of infectious viral particles and methods of generating and screening these libraries.

Abstract: The invention provides novel methods and materials for genetic and genomic analysis using single or multiplex isolation of protein-associated nucleic acids, including transposase-assisted chromatin immunoprecipitation (TAM-ChIP) and antibody-oligonucleotide proximity ligation. These methods comprise tagging and isolating chromatin or other protein-associated nucleic acids and using antibody-oligonucleotide complexes that recognize the proteins associated with such nucleic acids.

Abstract: The present disclosure provides compositions and methods for the generation of an antibody or immunogenic composition, such as a vaccine, through epitope focusing by variable effective antigen surface concentration. Generally, the composition and methods of the disclosure comprise three steps: a “design process” comprising one or more in silico bioinformatics steps to select and generate a library of potential antigens for use in the immunogenic composition; a “formulation process”, comprising in vitro testing of potential antigens, using various biochemical assays, and further combining two or more antigens to generate one or more immunogenic compositions; and an “administering” step, whereby the immunogenic composition is administered to a host animal, immune cell, subject or patient. Further steps may also be included, such as the isolation and production of antibodies raised by host immune response to the immunogenic composition.

Abstract: Provided are methods of adding adapters to nucleic acids. The methods include combining in a reaction mixture a template ribonucleic acid (RNA), a template switch oligonucleotide including a 3? hybridization domain and a sequencing platform adapter construct, a polymerase, and dNTPs. The reaction mixture components are combined under conditions sufficient to produce a product nucleic acid that includes the template RNA and the template switch oligonucleotide each hybridized to adjacent regions of a single product nucleic acid that includes a region polymerized from the dNTPs by the polymerase. Aspects of the invention further include compositions and kits.

Abstract: Systems and methods for processing fluid samples are disclosed. Fluid sample processing is accomplished using a series of microfluidic bump arrays include an automated and integrated system for sorting particles from a biological sample, lysing those particles to expose total RNA or DNA, purifying the RNA or DNA, processing the RNA or DNA by chemical or enzymatic modification, to select RNA or DNA molecules by size, or to generate, optionally, a sequencing library. The sequencing library is suitable for use in next generation sequencing (“NGS”).

Abstract: Objective of the present invention is to provide a method for keeping of directional information in double-stranded DNA. We suggest to convert polynucleotide into a hybrid double-stranded DNA. One particular strand of this hybrid double-stranded DNA should be synthesised using at least one modified nucleotide. Thus, this particular strand would contain modified nucleotides along the whole length. Density of directional markers would not depend on the length of polynucleotides. Any internal fragments of the hybrid double-stranded DNA would have directional information. When it is necessary the modified strand may be easily degraded or separated from the other strand. It was found that such hybrid double-stranded DNA may be easily generated in a number of molecular biology tasks and may be used for molecular cloning, library preparation and strand separation.

Abstract: A method of processing a sample may include introducing a sample into a vessel, the vessel having proximal and distal ends, the sample being introduced into the proximal end of the vessel; incubating the sample in the vessel with a substance capable of specific binding to a preselected component of the sample; propelling components of the incubated sample, other than the preselected component, toward the proximal end of the vessel by clamping the vessel distal to the incubated sample and compressing the vessel where the incubated sample is contained; propelling the preselected component toward a distal segment of the vessel by clamping the vessel proximal to the preselected component and compressing the vessel where the preselected component is contained; and mixing the preselected component with a reagent in the distal segment of the vessel.

Abstract: Provided herein is an apparatus for printing cells which includes an electrospinning device and an inkjet printing device operatively associated therewith. Methods of making a biodegradable scaffold having cells seeded therein are also provided. Methods of forming microparticles containing one or more cells encapsulated by a substrate are also provided, as are methods of forming an array of said microparticles.

Abstract: This disclosure provides methods and compositions for preparing and constructing cDNA libraries.

Abstract: The invention relates to a method of preparing bisulfite-treated DNA library by ligation of adaptors to DNA after bisulfite conversion. The prepared library is suitable for use in sequencing reactions to analyze genome-wide DNA methylation status.

Abstract: Disclosed are methods for nucleic acid amplification wherein nucleic acid templates, beads, and amplification reaction solution are emulsified and the nucleic acid templates are amplified to provide clonal copies of the nucleic acid templates attached to the beads. Also disclosed are kits and apparatuses for performing the methods of the invention.

Abstract: The invention provides methods for controlling the density of different molecular species on the surface of a solid support. A first mixture of different molecular species is attached to a solid support under conditions to attach each species at a desired density, thereby producing a derivatized support having attached capture molecules. The derivatized support is treated with a second mixture of different molecular species, wherein different molecular species in the second mixture bind specifically to the different capture molecules attached to the solid support. One or more of the capture molecules can be reversibly modified such that the capture molecules have a different activity before and after the second mixture of molecular species are attached. In particular embodiments, the different molecular species are nucleic acids that are reversibly modified to have different activity in an amplification reaction.

Abstract: The present invention is directed to methods to prepare a DNA molecule or a plurality of DNA molecules by random fragmentation. In some embodiments, the present invention regards preparing a template for DNA sequencing by random fragmentation. In specific embodiments, the random fragmentation comprises chemical fragmentation, mechanical fragmentation, or enzymatic fragmentation. In further specific embodiments, a universal sequence is attached to the 3? end of the DNA fragments, such as by ligation of an adaptor sequence or by homopolymeric tailing with terminal deoxynucleotidyltransferase. In other embodiments, a library is prepared with methods of the present invention.

Abstract: Enzyme compositions and their method of use that provide ready-to-use master mixtures. The compositions comprise a modified thermophilic DNA polymerase lacking 5?-3? and 3?-5? exonuclease activity premixed with T4 DNA polymerase, Klenow fragment and T4 polynucleotide kinase and all other necessary components, including reaction buffer and nucleoside triphosphates, required to perform DNA blunting, phosphorylation, and single nucleotide extension reactions in one tube and in two steps. Among other benefits, the mixture of different enzymes, buffers and nucleoside triphosphates is stable during prolonged storage.

Abstract: Disclosed herein are apparatuses and methods for conducting multiple simultaneous micro-volume chemical and biochemical reactions in an array format. In one embodiment, the format comprises an array of microholes in a substrate. Besides serving as an ordered array of sample chambers allowing the performance of multiple parallel reactions, the arrays can be used for reagent storage and transfer, library display, reagent synthesis, assembly of multiple identical reactions, dilution and desalting. Use of the arrays facilitates optical analysis of reactions, and allows optical analysis to be conducted in real time. Included within the invention are kits comprising a microhole apparatus and a reaction component of the method(s) to be carried out in the apparatus.

Abstract: [Problem to be Solved] A technique for efficiently sealing many substances, such as beads, nucleic acid, protein, virus, cells, and lipid membrane complex, into an array is provided. [Solution] The present invention provides a method for sealing a substance, including: (i) a step of introducing a first solvent containing a substance on a substrate on which a plurality of receptacles capable of storing the substance are formed separated from each other by a side wall; and (ii) a step of introducing a second solvent having a greater specific gravity than that of the first solvent onto the first solvent, the step (ii) being carried out after the step (i).

Abstract: This disclosure provides methods and compositions for generating cDNA libraries.

Abstract: Provided herein is a method of using transposition to improve methods of sequencing RNA molecules. Provided herein is a method of tagging nucleic acid duplexes, such as DNA:RNA duplexes or DNA:DNA duplexes. The method includes the steps of providing a transposase and a transposon composition, providing one or more nucleic acid duplexes immobilized on a support, and contacting the transposase and transposon composition with the one or more nucleic acid duplexes under conditions wherein the one or more nucleic acid duplexes and transposon composition undergo a transposition reaction to produce one or more tagged nucleic acid duplexes, wherein the transposon composition comprises a double stranded nucleic acid molecule comprising a transferred strand and a non-transferred strand.

Abstract: The present invention relates to a method for generating a plurality of different IgY antibodies, by immunizing each of a plurality of avian organisms of the same or different species with a composition comprising a plurality of different antigens, thereby generating a plurality of different IgY antibodies.

Abstract: A method including (a) providing an amplification reagent including an array of sites, and a solution having different target nucleic acids; and (b) reacting the amplification reagent to produce amplification sites each having a clonal population of amplicons from a target nucleic acid from the solution. The reacting can include simultaneously transporting the nucleic acids to the sites at an average transport rate, and amplifying the nucleic acids that transport to the sites at an average amplification rate, wherein the average amplification rate exceeds the average transport rate. The reacting can include producing a first amplicon from a nucleic acid that transports to each of the sites, and producing subsequent amplicons from the nucleic acid or from the first amplicon, wherein the average rate at which the subsequent amplicons are generated exceeds the average rate at which the first amplicon is generated.

Abstract: The present disclosure provides technologies for achieving cell patterning, as well as patterned cell arrays achieved with such technologies. Provided apparatus and methods are useful in a variety of contexts and provide particular advantages with respect to assessing living cell arrays and/or their responsiveness to stimuli, including identifying and/or characterizing complex cellular responses.

Abstract: The present invention provides a plurality of oligonucleotides comprising a semi-random sequence, wherein the semi-random sequence comprises degenerate nucleotides that are substantially non-complementary. Also provided are methods for using the plurality of oligonucleotides to amplify a population of target nucleic acids.

Abstract: Methods are provided for ligating a 3? adapter and a 5? adapter to a target polynucleotide so as to avoid adapter dimer formation. Embodiments of the methods include adding a blocking oligonucleotide after the first ligation in which a 3? adapter is ligated to the target polynucleotide so that the blocking oligonucleotide is capable of hybridizing to excess 3? adapter and the ligated 3? adapter. Subsequently, a 5? adapter is ligated to the target polynucleotide thus avoiding adapter dimer formation.

Abstract: The present invention provides methods and compositions useful for supplying high throughput nucleic acid sequencing systems with templates. The methods circumvent the need for costly, labor-intensive cloning and cell culture methods and can be scaled to accommodate template production for a variety of sequencing applications, e.g., sequencing individuals' genomes, sequencing subpopulations of transcripts from a gene of interest, and/or gene expression profiling. Particularly preferred embodiments of the methods vastly improve the preparation of cDNA from mRNA samples, e.g., by randomizing errors introduced during the process, thereby allowing these errors to be readily distinguished from true variants present in the mRNA samples.

Abstract: The invention relates to a synthetic nucleic acid molecule for expressing at least one nucleotide sequence of interest in at least one prokaryotic host cell, comprising, amongst others, at least one replication module comprising at least one replication cassette for promoting replication of the nucleic acid molecule in Gram-negative organisms and at least one replication cassette for promoting replication of the nucleic acid molecule in Gram-positive organisms, and at least one expression module for promoting expression of the nucleotide sequence of interest in the host cell, wherein each module is flanked at both ends by at least one unique restriction site. The invention further concerns a method for producing a shuttle vector comprising several modules, wherein said shuttle vector is designed by selecting each of said modules such that the vector is optimized for its intended use.

Abstract: Methods for producing and identifying fragments of proteins, and more particularly to methods for generating and identifying soluble protein domains are disclosed based on a method for generating a library of nucleic acid fragments from nucleic acid encoding a desired polypeptide, and more especially a library of essentially, randomly sampled fragments of coding DNA sequence predominantly of defined size range and a method for selecting cloned gene fragments from the library that encode soluble protein domains.