Abstract: The invention relates generally to polypeptides, such as antibody molecules, that demonstrate high stability and solubility. In particular, the invention relates to polypeptides comprising paired VL and VH domains that demonstrate soluble expression and folding in a reducing or intracellular environment. The invention also relates to polynucleotides encoding such polypeptides, to libraries of such polypeptides or polynucleotides, and to methods of using such polypeptides in research, diagnostic and therapeutic applications.

Abstract: The invention combines the advantages of split and mix synthesis with the advantages of template directed synthesis. The method comprises the steps of a) adding a linker molecule L to one or more reaction wells; b) adding a molecule fragment to each of said reaction wells; c) adding an oligonucleotide identifier to each of said reaction wells; d) subjecting said wells to conditions sufficient to allow said molecule fragments and said oligonucleotide identifiers to become attached to said linker molecule, or conditions sufficient for said molecule fragments to bind to other molecule fragments and sufficient for said oligonucleotide identifiers to bind to other oligonucleotide identifiers; e) combining the contents of said one or more reaction wells; and f) contacting the resulting bifunctional molecule(s) of step e) with one or more (oligonucleotide) templates each capable of hybridizing to at least one of the oligonucleotide identifiers added step c).

Abstract: The invention relates to a method for performing a biochemical or chemical reaction for an isolated, spatially separated amplification of sample fragments during a simultaneous immobilization and spatial arrangement of the sample fragments and reaction products, the amplification products, on one or more suitable solid phases for subsequent derivatizations.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing. Such polynucleotide processing may be useful for a variety of applications, including polynucleotide sequencing. In some cases, this disclosure provides methods for the generation of polynucleotide barcode libraries, and for the attachment of such polynucleotides to target polynucleotides.

Abstract: The disclosure relates a method and a kit for constructing a plasma Deoxyribonucleic acid (DNA) sequencing library. The method provided by the disclosure includes: extracting a plasma DNA; making the plasma DNA ligate to a sequencing linker, and purifying a ligation product; performing Polymerase Chain Reaction (PCR) amplification for the purified ligation product, purifying the PCR amplification product, and obtaining the plasma DNA sequencing library, wherein, the method does not include the step of performing 5?-terminus phosphorylation for the plasma DNA.

Abstract: A layered, microfluidic living cell array is disclosed. The cell array comprises a first layer comprising at least one cell culture channel; a second layer comprising at least one microfluidic channel; and a third layer, disposed between the first layer and the second layer. The third layer comprises a filter membrane with a plurality of pores, each pore fluidly connecting the microfluidic channel to the cell culture channel.

Abstract: Methods for amplification and sequencing of at least one nucleic acid comprising the following steps: (1) forming at least one nucleic acid template comprising the nucleic acid(s) to be amplified or sequenced, wherein said nucleic acid(s) contains at the 5? end an oligonucleotide sequence Y and at the 3? end an oligonucleotide sequence Z and, in addition, the nucleic acid(s) carry at the 5? end a means for attaching the nucleic acid(s) to a solid support; (2) mixing said nucleic acid template(s) with one or more colony primers X, which can hybridize to the oligonucleotide sequence Z and carries at the 5? end a means for attaching the colony primers to a solid support, in the presence of a solid support so that the 5? ends of both the nucleic acid template and the colony primers bind to the solid support; (3) performing one or more nucleic acid amplification reactions on the bound template(s), so that nucleic acid colonies are generated and optionally, performing at least one step of sequence determination of

Abstract: The present invention is related to genomic nucleotide sequencing. In particular, the invention describes a paired end sequencing method that improves the yield of long-distance genomic read pairs by constructing long-insert clone libraries (i.e., for example, a fosIll library or a fosCN library) and converting the long-insert clone library using inverse polymerase chain reaction amplification or shearing and recircularization of shortened fragments into a library of co-ligated clone-insert ends. The resultant jumping libraries are compatible with massively parallel sequencing techniques. The compositions and methods disclosed herein contemplate sequencing complex genomes as well as detecting chromosomal structural rearrangements.

Abstract: A method of measuring immunocompetence is described. This method provides a means for assessing the effects of diseases or conditions that compromise the immune system and of therapies aimed to reconstitute it. This method is based on quantifying T-cell diversity by calculating the number of diverse T-cell receptor (TCR) beta chain variable regions from blood cells.

Abstract: Provided are protein, nucleic acid, and cellular libraries of single chain multivalent binding proteins (e.g., scDVD and scDVDFab molecules) and methods of using these of these libraries for the screening of single chain multivalent binding proteins using cell surface display technology (e.g., yeast display).

Abstract: Systems and methods for synthesizing long-chain nucleic acids molecules are disclosed. The systems and methods described in this application use a Ligation- Purification-Amplification (“LPA”) technique. The LPA technique requires first producing nucleotide sequences with the length of at least 500 bp-1 kbp by assembling smaller oligonucleotide fragments (30 bp-200 bp). The assembled nucleotide sequences are then purified and amplified. This technology can be used to achieve parallel amplification of three or more nucleotide sequences at the same time. In embodiments of the invention, a solid-phase ligation-purification method is adopted, in which nucleic acid molecules are fixed on the surface of beads or other solid particles in order to rapidly purify products obtained from the ligation reaction.

Abstract: The present invention relates to kits and methods for efficiently generating 5? capped RNA having a modified cap nucleotide and for use of such modified-nucleotide-capped RNA molecules. In particular, the present invention provides kits and methods for capping RNA using a modified cap nucleotide and a capping enzyme system, such as poxvirus capping enzyme. The present invention finds use for in vitro production of 5?-capped RNA having a modified cap nucleotide and for in vitro or in vivo production of polypeptides by in vitro or in vivo translation of such modified-nucleotide-capped RNA. The invention also provides methods and kits for capturing or isolating uncapped RNA comprising primary RNA transcripts or RNA having a 5?-diphosphate, and methods and kits for using a capping enzyme system and modified cap nucleotides for labeling uncapped RNA comprising primary RNA transcripts or RNA having a 5?-diphosphate with detectable dye or enzyme moieties.

Abstract: Disclosed herein are compositions, methods and kits for analyzing three-dimensional chromatin and/or chromosome conformation. Method are also disclosed for using the methods disclosed herein for diagnosing diseases such as cancer.

Abstract: Methods for preparing cDNA libraries from single and low quantities of cells are disclosed. The methods are based on the principles of multi-strand displacement amplification or semi-random primed polymerase chain reaction. The methods typically include a step of reverse transcription and subsequent amplification of cDNA. The methods can be adapted for preparation of cDNA libraries that are representative of mRNA or whole RNA expressed by the cell or cells. The cDNA is suitable for sequencing or microarray analysis.

Abstract: The present invention relates to methods for improving the folding stability of antibodies, to antibodies with improved folding stability, nucleic acid and vectors encoding such antibodies, and to uses of such antibodies, nucleic acid and vectors.

Abstract: Disclosed are methods, compositions and kits related to making double-tagged DNA libraries from RNA/DNA samples. A double-tagged oligonucleotide (DTO) is employed to efficiently add two different tags to ends of DNAs to make a double-tagged DNA libraries. Also disclosed are methods to make mate pair libraries using the double-tagged oligonucleotide, and methods to make double-tagged single stranded DNA. The double-tagged DNA libraries of the invention are ready to be used on next generation sequencing machines.

Abstract: A synthetic DNA library or a member of a synthetic DNA library of antibodies or fragments of antibody molecules having heavy chain(s) and lacking light chain(s) is described wherein the CDR within variable domains are synthesized using randomly assembled trinucleotide phosphoramidites (trimer phosphoramidites) to eliminate unwanted cysteine amino acids and/or stop codons.

Abstract: The present disclosure provides methods and compositions for the production of chimeric antibodies that specifically bind an antigen of interest.

Abstract: The present disclosure provides compositions, methods, systems, and devices for polynucleotide processing. Such polynucleotide processing may be useful for a variety of applications, including polynucleotide sequencing.

Abstract: Methods and compositions for amplifying the whole genome of a single cell are provided.

Abstract: System, including methods and apparatus, for detection of spaced droplets.

Abstract: The present invention provides Fab libraries and methods for using the Fab libraries to obtain antibodies against a target. The Fab library of the invention contains at least 109 different Fabs, and in some embodiments, at least 1010 different Fabs. The Fab libraries of the invention are used to isolate polyclonal or monoclonal Fabs that bind with high specificity to targets.

Abstract: Compositions, methods and related uses are provided relating to cleaving modified DNA. For example, a set of DNA fragments obtainable by enzymatic cleavage of a large DNA is described where at least 50% are similarly sized and have a centrally positioned modified nucleotide. In addition, an enzyme preparation is provided that includes one or more enzymes that recognize a modified nucleotide in a DNA and cleave the DNA at a site that is at a non-random distance from the modified nucleotide. The one or more enzymes are further characterized by an N-terminal conserved domain with greater than 90% amino acid sequence homology to WXD(X)10YXGD. The related uses include creating a methylome, methods of purifying DNA fragments containing a modified nucleotide and diagnostic applications.

Abstract: Presented are methods and compositions for using immobilized transposase and a transposon end for generating an immobilized library of 5?-tagged double-stranded target DNA on a surface. The methods are useful for generating 5?- and 3?-tagged DNA fragments for use in a variety of processes, including massively parallel DNA sequencing.

Abstract: The present invention provides, in part, an antibody display system that simultaneously uses a secretion and a display mode. A bait complexed with a monovalent antibody fragment can be expressed on the surface of the host cell wherein the fragment may be assayed for antigen binding while full antibody is simultaneously secreted from the host cell. Methods of using the system for identifying antibodies that bind specifically to an antigen of interest are also provided. Polypeptides, polynucleotides and host cells useful for making the antibody display system are also provided along with methods of use thereof.

Abstract: Compositions and methods are provided for enhancing enzymatic ligation between nucleic acid fragments that relies on one or more small molecule enhancers having a size of less than 1000 daltons. For example, enhancement of ligation efficiencies are observed for double-stranded nucleic acid fragments that are blunt-ended, have a single nucleotide overhang at the ligation end, or have staggered ends compared to ligation under similar conditions in the absence of the one or more small molecule ligation enhancer. The use of small molecule enhancers for ligating nucleic acids results in an increased number of transformed host cells after transformation with the ligated molecules. This enhancement can be observed with chemically transformed host cells and with host cells transformed by electroporation.

Abstract: The present invention concerns methods and compositions involving the production or generation of siRNA mixtures or pools capable of triggering RNA-mediated interference (RNAi) in a cell. Compositions of the invention include kits that include reagents for producing or generating siRNA pools. The present invention further concerns methods using polypeptides with RNase III activity for generating siRNA mixtures or pools that effect RNAi, including the generation of a number of RNA molecules to the same target gene.

Abstract: The invention provides novel bispecific monoclonal antibodies carrying a different specificity for each binding site of the immunoglobulin molecule and methods for producing novel bispecific monoclonal antibodies carrying a different specificity for each binding site of the immunoglobulin molecule. The antibodies are composed of a single heavy chain and two different light chains, one containing a Kappa constant domain and the other of a Lambda constant domain. The invention provides methods for the isolation of antibodies of different specificities but sharing a common heavy chain. The invention also provides methods for the controlled co-expression of two light chains and a single heavy chain leading to the assembly of monospecific and bispecific antibodies.

Abstract: Methods are provided for reducing the complexity of a population of nucleic acids prior to performing an analysis of the nucleic acids, e.g., sequence analysis. The methods result in a subset of the initial population enriched for a desired property, or lacking nucleic acids having an undesired property. The methods are particularly useful for analyzing populations having a high degree of complexity, e.g., chromosomal-derived DNA, whole genomic DNA, or mRNA populations. In addition, such methods allow for analysis of pooled samples.

Abstract: The present disclosure relates general to devices, systems, and methods of using such devices in creating and handling hanging drops of fluid. The present disclosure also relates to cell culture devices, methods and/or systems of using such devices as well as the use of cell culture devices, for example, for research and high throughput screening.

Abstract: Disclosed herein are modified phage comprising a fusion protein located on the surface of the phage wherein the fusion protein comprises a surface protein and a post-translationally modified protein. Also disclosed are methods of making and using modified phage comprising post-translationally modified proteins located on the surface of the phage.

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 present invention refers to a method for identifying hetero-multimeric ubiquitins with binding capability to a ligand. Furthermore, the invention provides DNA libraries encoding for a population of said hetero-multimeric ubiquitins as well as protein libraries obtained by expression of said DNA libraries, cells and phages containing said DNA or proteins, polynucleotides encoding for said fusion proteins and vectors comprising said polynucleotides. Further new binding proteins based on hetero-multimeric ubiquitin being able to bind specifically with high affinity to selected ligands are provided.

Abstract: Methods useful for human adapting non-human monoclonal antibodies are disclosed. The methods select candidate human antibody framework sequences from a database of human germline genes or human sequences with somatic mutations.

Abstract: There is provided a cell chip, a cell slice sample, and a manufacturing method thereof. The cell chip includes a plate member; biomaterials attached to one surface of the plate member; and a solidifiable material formed on one surface of the plate member to form a layer including the biomaterials.

Abstract: Compositions, methods and systems are provided for the isolation of polymerase-nucleic acid complexes. Complexes can be separated from free enzyme by using hook molecules to target single stranded regions on the nucleic acid. Hook oligonucleotides are used to capture polymerase nucleic acid complexes where the nucleic acids comprise circular nucleic acids having a double stranded central region with hairpin regions on each end. Methods for loading such complexes onto substrates and for single molecule sequencing of such complexes are also provided.

Abstract: The present invention relates to methods and devices for amplifying nucleic acid, and, in particular, amplifying so as to generate products on a surface without the use of emulsions. In a preferred embodiment, a plurality of groups of amplified product are generated on the surface, each group positioned in different (typically predetermined) locations on said surface so as to create an array.

Abstract: According to one embodiment, a multi-nucleic-acid amplification reaction tool includes a support and a plurality of types of primer sets. The support is configured to be able to support a reaction field of a liquid phase. A plurality of types of primer sets are fixed in a releasable state, for each type, on mutually independent fixing regions of at least a surface of the support, which is in contact with the reaction field, when the liquid phase forms the reaction field. A plurality of types of primer sets are configured to amplify the respectively corresponding target sequences.

Abstract: In some embodiments, the present teachings provide methods for nucleic acid amplification, comprising forming a reaction mixture, and subjecting the reaction mixture to conditions suitable for nucleic acid amplification. In some embodiments, methods for nucleic acid amplification include subjecting the nucleic acid to be amplified to partially denaturing conditions. In some embodiments, methods for nucleic acid amplification include amplifying without fully denaturing the nucleic acid that is amplified. In some embodiments, the methods for nucleic acid amplification employ an enzyme that catalyzes homologous recombination and a polymerase. In some embodiments, methods for nucleic acid amplification can be conducted in a single reaction vessel. In some embodiments, methods for nucleic acid amplification can be conducted in a single continuous liquid phase of a reaction mixture, without need for compartmentalization of the reaction mixture or immobilization of reaction components.

Abstract: The present invention relates to a novel method and to a kit for preparing nucleic-acid libraries, in particular for high-throughput sequencing. Said method is useful for simultaneously preparing multiple nucleic-acid libraries for sequencing, each library being characterized by a specific sequence of barcodes. In other words, instead of preparing, in parallel, a plurality of libraries that will be barcoded, the method of the invention enables the simultaneous preparation of a plurality of barcoded libraries by carrying out the step of preparing a single library. The inventor provides a means for inserting the barcodes at the beginning of the method for preparing the library. The libraries provided with the method described herein can be used for any high-throughput sequencing platform, such as the 454 Genome Sequencer, the Illumina Genome Analyzer, or the SoLiD platform.

Abstract: Filtering small nucleic acids using permeabilized cells and methods for using the filtering to detect genomic DNA accessibility are described.

Abstract: Aspects of the invention provide compositions and methods for displaying engineered polypeptides on a cell surface. According to aspects of the invention, immobilized polypeptides can be screened to identify one or more variants having one or more functional or structural properties of interest. Aspects of the invention provide composition and methods for producing engineered protein or protein variants having a functional or a structural property of interest.

Abstract: The invention is generally directed to antibody variable domains or antibodies, libraries of antibody variable domains or antibodies, methods of making said antibodies and libraries, and methods of treatment comprising administering the generated antibody variable domains or antibodies. Specifically, the invention is directed to novel primer nucleotide sequences that are used to amplify all rearranged sequences of canine variable heavy (VH) and variable light (VL) immunoglobulin chains that have been used in naturally occurring antibody responses. These novel sequences contain canine framework regions and complementarity determining regions which may be used to canine-ize antibodies. Further, these sequences are useful for the identification and targeting of viral and bacterial pathogens, and tumor-associated antigens.

Abstract: Disclosed are methods, compositions and kits related to making double-tagged DNA libraries from RNA/DNA samples. A double-tagged oligonucleotide (DTO) is employed to efficiently add two different tags to ends of DNAs to make a double-tagged DNA libraries. Also disclosed are methods to make mate pair libraries using the double-tagged oligonucleotide, and methods to make double-tagged single stranded DNA. The double-tagged DNA libraries of the invention are ready to be used on next generation sequencing machines.

Abstract: Disclosed are compositions and methods for the preparation of RNA libraries for sequencing, gene expression profiling, microarray and other uses and for simplification of the library preparation process. The disclosure provides blocking oligonucleotides which bind to byproduct nucleic acid molecules formed during the ligation of adapters to nucleic acid segments prior to sequencing and inhibit or block amplification of the byproduct nucleic acid molecules in subsequent amplification reactions. Methods for library preparation using blocking oligonucleotides are also provided.

Abstract: The present invention provides the means for producing libraries of peptide structures for drug screening applications that are capable of folding or assuming their native conformations independently of artificial scaffolds or flanking sequences in the proteins from which they are derived. The libraries can be highly diverse such that they are representative of the repertoire of protein structures existing in nature. The libraries can also be non-redundant or normalized such that the bias towards specific structures existing in source data sets and/or in nature is/are removed. In a particularly preferred embodiment, the present invention provides 30,000 independent fold structures produced by this method. The present invention also provides computer-readable media and systems comprising structural data in relation to the peptide libraries, and methods for displaying and screening the libraries.

Abstract: A method of binding a protein to its encoding nucleic acid is disclosed wherein the method of binding is non-covalent at one or more locations between the protein and the encoding nucleic acids.

Abstract: Described herein is a thermostable enzyme capable of efficient ligation of two oligomers at high temperature. The embodiments herein have led to the development of an optimized ligation step used in library preparation for sequencing reactions.

Abstract: The present invention relates to peptides, nucleic acids, and cells for use in the immunotherapy of cancer. The present invention furthermore relates to survivin-derived tumor-associated cytotoxic T cell (CTL) peptide epitopes, alone or in combination with other tumor-associated peptides that serve as active pharmaceutical ingredients of vaccine compositions that stimulate anti-tumor immune responses. The present invention specifically relates to three novel peptide sequences and variants thereof derived from HLA class I and class II molecules of human tumor cells that can be used in vaccine compositions for eliciting anti-tumor immune responses.

Abstract: Disclosed are compositions, devices, and methods for loading molecules of interest onto a substrate by contacting beads having molecules of interest attached to them with the substrate, for example by providing a field that brings the beads into proximity or contact with the substrate and moves the beads with respect to the substrate. Such molecules of interest can be deposited onto substrates for single-molecule analysis.