Abstract: The present invention relates to methods for reprogramming a somatic cell to pluripotency by administering into the somatic cell at least one or a plurality of potency-determining factors. The invention also relates to pluripotent cell populations obtained using a reprogramming method.

Abstract: Provided herein are methods for the in vitro maintenance, expansion, culture, and/or differentiation of pluripotent cells, such as human embryonic stem cells (hESC) or induced pluripotent cells (iPSC), into hematopoietic precursor cells or endothelial cells. The pluripotent cells may be maintained and differentiated under defined conditions; thus, the use of mouse feeder cells or serum is not required in certain embodiments for the differentiation of the pluripotent cells into hematopoietic precursor cells or endothelial cells. The resulting hematopoietic precursor cells may be further differentiated into various myeloid or lymphoid lineages.

Abstract: A method for treating and/or diagnosing pain and the source or type of pain, shock, and/or inflammatory conditions in a subject. A method of using a therapeutically effective amount of a DNA or RNA aptamer that shows high affinity for OLAMs to at least partially treat pain, shock, and/or inflammatory conditions in a subject. The DNA or RNA aptamer that shows high affinity for OLAMs may be coupled to a plasma protein binding compound or a pharmacologically active agent. A method of treating and or diagnosing pain, shock, and/or inflammatory conditions in a subject may include inactivating or preventing at least one linoleic acid metabolite to treat certain conditions (e.g., pain, shock, and/or inflammation) using a DNA or RNA aptamer that shows high affinity for OLAMs.

Abstract: Method and apparatus for controlling acoustic treatment of a sample to mediate a tagmentation process used on double stranded DNA.

Abstract: The present invention provides modified nucleosides, analogs thereof and oligomeric compounds prepared therefrom. More particularly, the present invention provides modified nucleosides and analogs thereof that are useful for incorporation at the terminus of an oligomeric compound. Such oligomeric compounds can also be included in a double stranded composition. In some embodiments, the oligomeric compounds provided herein are expected to hybridize to a portion of a target RNA resulting in loss of normal function of the target RNA.

Abstract: The present invention provides a method for transforming an insect genome that has a much enhanced transformation frequency. The vectors and plasmids employed in the method are further described as transposition vectors that include a minimal amount of nucleotide sequence homologous to a 5? region and a 3? region of a native piggyBac nucleic acid sequence. The transformed cells or embryos may also be developed into transgenic organisms. Disclosed are minimal piggyBac-based plasmid constructs that comprises a minimal nucleic acid sequence homologous to a 5? end of a piggyBac nucleic acid sequence (about 60-80 bp, particularly 66 bp) and a relatively long (300 to about 380 bp, particularly 311 bp or 378 bp) continuous nucleic acid sequence homologous to a 3? end of a piggyBac native nucleic acid sequence. Methods employing these constructs include the use of a helper plasmid.

Abstract: In some aspects, the invention provides methods of treating a subject in need of treatment for a chronic complement-mediated disorder. In some aspects, the invention provides methods of treating a subject in need of treatment for a Th17-associated disorder. In some aspects, the invention provides methods of treating a subject in need of treatment for a chronic respiratory system disorder. In some aspects, the invention provides methods of administering a complement inhibitor to a subject. In some embodiments, a method of treating a subject comprises administering multiple doses of a complement inhibitor to the subject according to a dosing schedule that leverages the prolonged effect of complement inhibition in chronic respiratory disorders. In some embodiments, a subject has chronic obstructive pulmonary disease. In some embodiments, a subject has asthma.

Abstract: A method for synthesizing long DNA constructs from oligonucleotide precursors directly within a microfluidic device uses several oligonucleotides at once. A precursor mix containing at least two oligonucleotide precursors with at least partial base complementarity is introduced into an input of a microfluidic chip and at least one cycle of at least one gene synthesis protocol is applied to fabricate a DNA construct containing the sequence of at least two oligonucleotide precursors. A method for the synthesis of a modified DNA construct includes electroporating at least one oligonucleotide encoding for at least one point mutation and having homology with at least one DNA region of a target cell into the target cell and incorporating the oligonucleotide into the target cell DNA through the action of recombination protein beta or a recombination protein beta functional homolog.

Abstract: The present invention provides methods and compositions for improving the efficacy of viral transduction of cells. More particularly, the present invention provides methods and materials useful for safely and reliably improving the efficiency of methods for transducing cells, such as human hematopoietic stem cells (HSC), with viruses and/or viral vectors. The compositions and methods are useful for therapeutic indications amenable to treatment with hematopoietic stem cell gene therapies.

Abstract: Described are compounds and methods useful for the treatment and investigation of diseases and disorders associated with expanded repeat-containing RNA molecules.

Abstract: Microbial type rhodopsins, such as the light-gated cation-selective membrane channel, channelrhodopsin-2 (Chop2/ChR2) or the ion pump halorhodopsin (HaloR) are expressed in retinal ganglion cells upon transduction using recombinant AAV vectors. Selective targeting of these transgenes for expression in discrete subcellular regions or sites is achieved by including a sorting motif in the vector that can target either the central area or surround (off-center) area of these cells. Nucleic acid molecules comprising nucleotide sequences encoding such rhodopsins and sorting motifs and their use in methods of differential expression of the transgene are disclosed. These compositions and methods provide significant improvements for restoring visual perception and various aspects of vision, particular in patients with retinal disease.

Abstract: A method of altering a eukaryotic cell is provided including transfecting the eukaryotic cell with a nucleic acid encoding RNA complementary to genomic DNA of the eukaryotic cell, transfecting the eukaryotic cell with a nucleic acid encoding an enzyme that interacts with the RNA and cleaves the genomic DNA in a site specific manner, wherein the cell expresses the RNA and the enzyme, the RNA binds to complementary genomic DNA and the enzyme cleaves the genomic DNA in a site specific manner.

Abstract: The invention provides for dry spray compositions comprising co-polymers comprising a core, water-soluble polymer and a peptide.

Abstract: The present disclosure provides compositions and methods for genomic engineering.

Abstract: The present disclosure relates to an LNA oligonucleotide consisting of a sequence selected from the group consisting of 5?-(Tx)GxGxcsasasgscsastscscsTxGxT-3? and 5?-(Gx)TxTxascstsgscscststscsTxTxA-3?, wherein capital letters designate a beta-D-oxy-LNA nucleotide analog, small letters designate a 2-deoxynucleotide, underline designates either a beta-D-oxy-LNA nucleotide analog or a 2-deoxynucleotide, subscript “s” designates a phosphorothioate link between neighboring nucleotides/LNA nucleotide analogs, and subscript “x” designates either a phosphorothioate link or a phosphorodiester link between neighboring nucleotides/LNA nucleotide analogs, and wherein the sequence is optionally extended by up to five 2-deoxynucleotide units. The LNA oligonucleotides are useful for modulating the expression of hypoxia-inducible factor-1a (HIF-1a), e.g. in the treatment of cancer diseases, inhibiting angiogenesis, inducing apoptosis, preventing cellular proliferation, or treating an angiogenic disease, e.g.

Abstract: Double-stranded and single-stranded RNA molecules, and their use in methods for inducing interferon are provided. The interferon induction provides anti-viral and other medically useful effects, such as anti-cancer effects. Also provided are methods for reducing or inhibiting interferon induction exhibited by such molecules, particularly siRNA and shRNA molecules produced in vitro.

Abstract: Electrolyte solutions for flow batteries and other electrochemical systems can contain an active material capable of transferring more than one electron per oxidation-reduction cycle. Such active materials can include coordination compounds containing a metal center and at least one redox non-innocent ligand. Accordingly, flow batteries can include a first half-cell having a first electrolyte solution therein, where the first electrolyte solution contains a coordination compound having at least one redox non-innocent ligand coordinated to a metal center. Particular redox non-innocent ligands can include those bearing a quinone functional group, such as substituted catecholates bearing a quinone functional group. Some active materials can include compositions containing a coordination compound having at least one redox non-innocent ligand coordinated to a metal center, where the at least one redox non-innocent ligand is a substituted catecholate or a salt thereof bearing a quinone functional group.

Abstract: Methods of generating fusion protein variants are provided that comprise introducing sequence diversity at the junction region or regions in the fusion and allows for the generation of variants having a desired activity. Examples include immunoglobulins comprising a domain or polypeptide inserted into, or replacing, a CDR. Also provided are polynucleotides encoding a fusion protein and comprising two or more RSSs, and compositions and host cells comprising same, as well as fusion proteins variants produced by the described methods.

Abstract: Described herein is a reliable method for preparing a potent vaccine useful for immunotherapy comprising the step of cryopreserving a population of cells undergoing immunogenic cell death, and using such cells to activate dendritic cells for use in immunotherapy. In a specific embodiment, the method comprises cryopreserving cancer cells undergoing cell death, which can be used to prepare a pharmaceutical composition for immunotherapy against cancer.

Abstract: Disclosed herein are novel lipids and liposomal compositions prepared using such compounds and related methods of neutralizing or otherwise modifying such liposomal compositions. The lipids described herein are useful for example, as liposomal vehicles to facilitate the delivery of encapsulated polynucleotides to target cells and the subsequent transfection of such target cells. In certain embodiments, one or more of the compounds that comprise the liposomal delivery vehicle may be neutralized or further modified such that the properties of the liposomal delivery vehicle are modified.

Abstract: Isolated and/or purified polypeptides and nucleic acid sequences encoding polypeptides from Alicyclobacillus acidocaldarius are provided. Further provided are methods for modulating or altering metabolism in a cell using isolated and/or purified polypeptides and nucleic acid sequences from Alicyclobacillus acidocaldarius.

Abstract: A process of endowing a plant or plant cells with a trait of interest by expressing an RNA sequence of interest, said process comprising: providing plant cells or cells of said plant with a first vector and a second vector and selecting cells endowed with said trait of interest, wherein said first vector contains a first nucleotide sequence with a first segment coding, in 5? to 3? direction, for—a 5? part of said RNA sequence of interest and—a 5? part of an intron; and said second vector contains a second nucleotide sequence with a second segment coding, in 5? to 3? direction, for—a 3? part of an intron and—a 3? part of said RNA sequence of interest.

Abstract: The invention provides highly concentrated chitosan-nucleic acid polyplex compositions and dispersions, and methods for producing the compositions and dispersions. Methods of mixing the chitosan-nucleic acid polyplexes include an inline mixing of chitosan solution and nucleic acid solution, followed by further concentrating the dispersion of chitosan-nucleic acid polyplexes, optionally with an aggregation inhibitor. Further provides are methods for altering the diameter of chitosan-nucleic acid polyplexes.

Abstract: A method for making an at least double layered cell aggregate and/or an artificial blastocyst, and/or a further-developed blastoid termed blastoid, by forming a double layered cell aggregate from at least one trophoblast cell and at least one pluripotent and/or totipotent cell, and culturing the aggregate to obtain an artificial blastocyst having a trophectoderm-like tissue that surrounds a blastocoel and an inner cell mass-like tissue. The cell aggregate can be formed from toti- or pluripotent stem cell types, or induced pluripotent stem cell types, in combination with trophoblast stem cells. Formation of a blastoid can be achieved by culturing the cell aggregate in a medium preferably comprising one or more of a Rho/ROCK inhibitor, a Wnt pathway modulator, a PKA pathway modulator, a PKC pathway modulator, a MAPK pathway modulator, a STAT pathway modulator, an Akt pathway modulator, a Tgf pathway modulator and a Hippo pathway modulator.

Abstract: Compositions and methods for modulating nucleotide sequence expression, particularly for modulating gene expression in plants, are provided. The compositions comprise precursor RNA constructs for the expression of an RNA precursor. The precursor RNA construct comprises a promoter that is expressed in a plant cell driving the expression of a precursor RNA having a microRNA. The miRNA is complementary or partially complementary to a portion of a target gene or nucleotide sequence and function to modulate expression of the target sequence or gene. In this manner, the RNA precursor construct can be designed to modulate expression of any nucleotide sequence of interest, either an endogenous plant gene or alternatively a transgene. Transformed plants, tissues, cells and seeds are also provided.

Abstract: Described herein are synthetic, modified RNAs for changing the phenotype of a cell, such as expressing a polypeptide or altering the developmental potential. Accordingly, provided herein are compositions, methods, and kits comprising synthetic, modified RNAs for changing the phenotype of a cell or cells. These methods, compositions, and kits comprising synthetic, modified RNAs can be used either to express a desired protein in a cell or tissue, or to change the differentiated phenotype of a cell to that of another, desired cell type.

Abstract: Provided are novel methods and compositions for the modulation of thermogenesis. Such methods are particularly advantageous in that they allow for the reduction of body fat in a subject without the subject having to adjust their caloric intake through dieting, modify their physical activity or undergo bariatric surgery. Accordingly, the methods of the invention are particularly useful for treating or preventing obesity. Also provided are methods of screening for novel agents that modulate the activity of thermogenic regulators.

Abstract: Provided herein are compositions and methods for the assembly of a bioluminescent complex from two or more non-luminescent (e.g., substantially non-luminescent) peptide and/or polypeptide units. In particular, bioluminescent activity is conferred upon a non-luminescent polypeptide via structural complementation with another, complementary non-luminescent peptide.

Abstract: Provided herein are compositions and methods for the assembly of a bioluminescent complex from two or more non-luminescent (e.g., substantially non-luminescent) peptide and/or polypeptide units. In particular, bioluminescent activity is conferred upon a non-luminescent polypeptide via structural complementation with another, complementary non-luminescent peptide.

Abstract: [Problem] To provide the following: an agent for treating cancer, particularly an agent for inhibiting cancer cell proliferation or an agent for inhibiting or preventing cancer metastasis; drug that uses the agent; a method for assessing the effect of cancer treatment; a method for estimating the prognosis of cancer treatment; a method for screening for a substance having a cancer proliferation-inhibiting effect; and a method for screening a substance having a cancer metastasis-impeding effect. [Solution] Provided is a drug containing a nucleic acid formed from a nucleotide sequence having sequence identity of 70% or greater with at least sequence No. 1 or No. 2, wherein the nucleic acid shows protein expression-inhibiting activity.

Abstract: The present invention relates to compositions and methods for diagnosing and treating diseases, disorders or conditions associated with dysregulated expression of GPC3. The invention provides novel antibodies that specifically bind to glypican-3 (GPC3). The invention also relates to a fully human chimeric antigen receptor (CAR) wherein the CAR is able to target GPC3.

Abstract: The present invention is directed to nucleic acid and amino acid sequences of a novel piggyBac transposase enzymes created by modifying the transposase of Trichoplusia ni. The piggyBac transposases of the present invention are functionally active or hyperactive for excision and have decreased integration activity compared to wild type Trichoplusia ni piggyBac transposase enzyme. These transposases are ideal for use in methods of transforming cells and organisms. In particular embodiments, the present invention provides methods of transient integration and expression of transgenes.

Abstract: A biologically active RNA-alkali metal-dication formulation, a pharmaceutical composition containing the complexes, and methods of producing the same. The formulation is particularly useful to introduce RNA and an attached cargo into cells allowing its biological intracellular activities: e.g. immunostimulation (immunomodulation), RNA interference or gene expression.

Abstract: The present disclosure is in the field of genome engineering, particularly targeted integration of anti-HIV transgenes into the genome of a cell for the treatment and/or prevention of HIV.

Abstract: The present invention provides for a recombinant nucleic acid comprising a nucleotide sequence comprising a plurality of constructs, wherein each construct independently comprises a nucleotide sequence of interest flanked by a pair of recombinase recognition sequences. Each pair of recombinase recognition sequences is recognized by a distinct recombinase. Optionally, each construct can, independently, further comprise one or more genes encoding a recombinase capable of recognizing the pair of recombinase recognition sequences of the construct. The recombinase can be an orthogonal (non-cross reacting), site-selective recombinase (OSSR).

Abstract: The disclosure provides multimeric oligonucleotide compounds, comprising two or more target-specific oligonucleotides (e.g., antisense oligonucleotides (ASOs)), each being resistant to cleavage, and linked together by a cleavable linker. In particular, two or more linked target-specific oligonucleotides, each to a different target, allows concomitant inhibition of multiple genes' expression levels, while exhibiting favorable pharmacokinetic and pharmacodynamic properties. Methods of making and uses of the described compounds are also provided.

Abstract: The silencing effect of a spacer sequence, for example a bacterial backbone sequence in a plasmid or other episomal vector, on transgene expression is reversed by engineering of the spacer to include nucleosome exclusion sequences.

Abstract: Disclosed are: a virus vector in which a gene encoding an antigenic polypeptide is integrated in human parainfluenza virus type 2 gene, wherein the antigenic polypeptide is expressed in the form of a fusion protein with a viral structural protein; and a method for producing the same. The virus vector of the present invention contains a quantitatively large amount of the antigenic peptide on the virus particle and can efficiently deliver the antigenic polypeptide to a target cell.

Abstract: Methods and compositions for a genetic disease are provided.

Abstract: Agrobacterium strains that harbor transformation-enhancing genes on a plasmid capable of replication independently of the Agrobacterium chromosome, the Ti plasmid, and plant transformation binary vectors, and uses for these Agrobacterium strains are provided. Additionally, Agrobacterium strains that are deficient in DNA recombination functions that result in instability or rearrangement of plant transformation binary vectors, and that harbor transformation-enhancing genes on a plasmid capable of replication independently of the Agrobacterium chromosome, the Ti plasmid, and plant transformation binary vectors, and uses for these strains, are also provided. Further included are Agrobacterium strains that harbor transformation-enhancing genes integrated into the Agrobacterium chromosome at a locus that does not interfere with or otherwise compromise the normal growth and plant transformation ability of the Agrobacterium cells, and uses for these Agrobacterium strains.

Abstract: The present invention relates to a double-stranded ribonucleic acid (dsRNA) having a nucleotide sequence which is substantially identical to at least a part of a target gene and which is no more than 49, preferably less than 25, nucleotides in length, and which comprises a complementary (antisense) RNA strand having a 1 to 4 nucleotide overhang at the 3?-end and a blunt 5?-end. The invention further relates to a pharmaceutical composition comprising the dsRNA and a pharmaceutically acceptable carrier. The pharmaceutical compositions are useful for inhibiting the expression of a target gene, as well as for treating diseases caused by expression of the target gene, at low dosages (i.e., less than 5 milligrams, preferably less than 25 micrograms, per kg body weight per day). The invention also relates to methods for inhibiting the expression of a target gene, as well as methods for treating diseases caused by the expression of the gene.

Abstract: The present application describes a cell that has integrated into its genome fusion molecule V16-CREB.

Abstract: A method of generating a particle is disclosed, the particle being for delivery of a polynucleotide to a target cell. The method comprises (a) contacting the polynucleotide with a composition comprising cationic molecules, wherein the cationic molecules condense the polynucleotide by electrostatic interactions to generate a complex, wherein the cationic molecules are not comprised in a liposome; and (b) covalently binding the complex to a targeting moiety at a pH equal to or below about 4.5, thereby generating the particle for delivery of the polynucleotide agent to the target cell. Use of the particles and compositions comprising same are also disclosed.

Abstract: The invention provides transgenomic mitochondria, transmitochondrial cells and organisms, and the materials and methods for making such mitochondria, cells, and organisms.

Abstract: The present invention provides constructs including a tubular biodegradable polyglycolic acid scaffold, wherein the scaffold may be coated with extracellular matrix proteins and substantially acellular. The constructs can be utilized as an arteriovenous graft, a coronary graft, a peripheral artery bypass conduit, or a urinary conduit. The present invention also provides methods of producing such constructs.

Abstract: Provided are a sub-totipotent stem cell product and epigenetic modification label thereof, a method for inducing the generation of the sub-totipotent stem cell product and identification for the epigenetic modification label of the differentiation potential of stem cells. Also provided is a use of histone modification states of sub-totipotent genes and/or differentiation related genes to predict the epigenetic modification label of the differentiation potentials of stem cells.

Abstract: The present disclosure provides method of generating cardiomyocytes from post-natal fibroblasts. The present disclosure further provides cells and compositions for use in generating cardiomyocytes.

Abstract: The disclosure relates to a method of reprogramming one or more somatic cells, e.g., partially differentiated or fully/terminally differentiated somatic cells, to a less differentiated state, e.g., a pluripotent or multipotent state. In further embodiments the invention also relates to reprogrammed somatic cells produced by methods of the invention, to chimeric animals comprising reprogrammed somatic cells of the invention, to uses of said cells, and to methods for identifying agents useful for reprogramming somatic cells.

Abstract: The invention provides compositions comprising a carrier comprising a continuous phase of a hydrophobic substance, liposomes, and a polynucleotide, and methods for using such compositions for delivering a polynucleotide to a subject.

Abstract: Some embodiments include a method of fabricating features associated with a semiconductor substrate. A first region of the semiconductor substrate is altered relative to a second region. The altered first region has different physisorption characteristics for polynucleotide relative to the second region. The altered first region and the second region are exposed to polynucleotide. The polynucleotide selectively adheres to either the altered first region or the second region to form a polynucleotide mask. The polynucleotide mask is used during fabrication of features associated with the semiconductor substrate.