Abstract: Circular nucleic acid vectors that provide for persistently high levels of protein expression are provided. The circular vectors of the subject invention are characterized by being devoid of expression-silencing bacterial sequences, where in many embodiments the subject vectors include a unidirectional site-specific recombination product hybrid sequence in addition to an expression cassette. Also provided are methods of using the subject vectors for introduction of a nucleic acid, e.g., an expression cassette, into a target cell, as well as preparations for use in practicing such methods. The subject methods and compositions find use in a variety of different applications, including both research and therapeutic applications. Also provided is a highly efficient and readily scalable method for producing the vectors employed in the subject methods, as well as reagents and kits/systems for practicing the same.

Abstract: Compositions and methods are provided for integrating one or more genes of interest into cellular DNA without substantially disrupting the expression of the gene at the locus of integration, i.e., the target locus. These compositions and methods are useful in any in vitro or in vivo application in which it is desirable to express a gene of interest in the same spatially and temporally restricted pattern as that of a gene at a target locus while maintaining the expression of the gene at the target locus, for example, to treat disease, in the production of genetically modified organisms in agriculture, in the large scale production of proteins by cells for therapeutic, diagnostic, or research purposes, in the induction of iPS cells for therapeutic, diagnostic, or research purposes, in biological research, etc. Reagents, devices and kits thereof that find use in practicing the subject methods 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: The present invention relates to variant AAV capsid polypeptides, wherein the variant AAV capsid polypeptides exhibit increased transduction and/or tropism in human muscle tissue or cells as compared non-variant parent capsid polypeptides.

Abstract: The present invention relates to AAV vectors encoding variant capsid polypeptides that are more cationic as compared to a non-variant parent capsid polypeptide and/or another variant capsid polypeptide, and wherein the vector comprising the variant capsid polypeptide is capable of comprising a longer nucleic acid insert as compared to a vector encoding a non-variant parent capsid polypeptide and/or another variant capsid polypeptide.

Abstract: Methods and compositions are provided for editing the genome of a cell without the use of an exogenously supplied nuclease. Aspects of the methods include contacting a cell with a targeting vector comprising nucleic acid sequence to be integrated into the target locus, where the cell is not also contacted with a nuclease. In addition, reagents, devices and kits thereof that find use in practicing the subject methods are provided.

Abstract: The present invention features compositions and methods relating to tRNA-derived small RNAs (tsRNAs). Provided herein are oligonucleotide compositions that are complementary to tsRNAs, in particular leuCAGtsRNA, and methods of using the oligonucleotides for the regulation of respective tsRNA. Further provided are methods of inducing apoptosis through the inhibition of leuCAGtsRNA.

Abstract: The present invention features compositions and methods relating to tRNA-derived small RNAs (tsRNAs). Provided herein are oligonucleotide compositions that are complementary to tsRNAs, in particular leuCAGtsRNA, and methods of using the oligonucleotides for the regulation of respective tsRNA. Further provided are methods of inducing apoptosis through the inhibition of leuCAGtsRNA.

Abstract: Provided are nucleic acids and expression vectors having a non-silencing selectable marker gene, and methods of using the same. A subject expression vector includes an expression cassette and a non-silencing selectable marker gene. In some cases, the non-silencing selectable marker gene provides for drug resistance for prokaryotic cells, and includes a nucleotide sequence that (i) encodes a drug selectable marker protein; (ii) is operably linked to a promoter functional in prokaryotic cells, and (iii) includes an increased A/T content relative to a corresponding wild type nucleotide sequence. In some cases, the non-silencing selectable marker gene provides for drug resistance for prokaryotic cells, and includes a nucleotide sequence that (i) encodes a drug selectable marker protein; (ii) is operably linked to a promoter functional in prokaryotic cells, and (iii) has an A/T content in a range of from 52% to 70%.

Abstract: Compositions and methods are provided for achieving persistent, high level expression of transgenes in vitro and in vivo. Aspects of the invention include vectors comprising an intronic cassette that comprises plasmid elements, and methods that rely on the use of vectors comprising an intronic cassette that comprises plasmid elements. These compositions and methods find use in many applications, including therapeutic applications such as in gene therapy; synthesis applications such as in the synthesis of peptides, proteins, and RNAs, e.g. for research or therapeutic purposes; and research applications, such as in the production of transgenic cells and animals. In addition, reagents, devices and kits thereof that find use in making the subject compositions and practicing the subject methods are provided.

Abstract: The teachings herein are generally directed to a method of enhancing the genetic stability of parvovirus vectors. The stability of conventional ss or dsAAV vector constructs can be enhanced, for example, to obtain a concurrent increase in vector titer and purity, as well as an improvement in vector safety, due at least in part to the elimination of stuffer DNA from the AAV vector. The method is broadly applicable to all gene transfer/therapy applications, such as those requiring delivery of foreign DNA containing recombinant gene expression cassettes. Such foreign DNA can range, for example, from about 0.2 up to about 5.2 kb in length. The enhanced vector constructs are highly flexible, user-friendly, and can be easily modified (via routine DNA cloning) and utilized (via standard AAV vector technology) by anyone skilled in the art.

Abstract: Compositions and methods for modulating transcription by RNA polymerases are described.

Abstract: The present invention provides minicircle nucleic acid vector formulations for use in administering to a subject, wherein the minicircle nucleic acid vectors include a polynucleotide of interest, a product hybrid sequence of a unidirectional site-specific recombinase, and are devoid of plasmid backbone bacterial DNA sequences. Also provided are methods of producing the subject formulations as well as methods for administering the minicircle nucleic acid vector formulations to a subject. The subject methods and compositions find use in a variety of different applications, including both research and therapeutic applications.

Abstract: Recombinant adeno-associated viral (AAV) capsid proteins are provided. Methods for generating the recombinant adeno-associated viral capsid proteins and a library from which the capsids are selected are also provided.

Abstract: Recombinant adeno-associated viral (AAV) capsid proteins are provided. Methods for generating the recombinant adeno-associated viral capsid proteins and a library from which the capsids are selected are also provided.

Abstract: The teachings herein are generally directed to a method of enhancing the genetic stability of parvovirus vectors. The stability of conventional ss or dsAAV vector constructs can be enhanced, for example, to obtain a concurrent increase in vector titer and purity, as well as an improvement in vector safety, due at least in part to the elimination of stuffer DNA from the AAV vector. The method is broadly applicable to all gene transfer/therapy applications, such as those requiring delivery of foreign DNA containing recombinant gene expression cassettes. Such foreign DNA can range, for example, from about 0.2 up to about 5.2 kb in length. The enhanced vector constructs are highly flexible, user-friendly, and can be easily modified (via routine DNA cloning) and utilized (via standard AAV vector technology) by anyone skilled in the art.

Abstract: The present invention provides minicircle nucleic acid vector formulations for use in administering to a subject, wherein the minicircle nucleic acid vectors include a polynucleotide of interest, a product hybrid sequence of a unidirectional site-specific recombinase, and are devoid of plasmid backbone bacterial DNA sequences. Also provided are methods of producing the subject formulations as well as methods for administering the minicircle nucleic acid vector formulations to a subject. The subject methods and compositions find use in a variety of different applications, including both research and therapeutic applications.

Abstract: A method and apparatus for synthesizing nucleic acid (NA) by sequential addition of nucleotide triphosphates to a single stranded NA molecule (growing-chain) is described. The growing-chain is annealed to an oligonucleotide, wherein the 3? end of the oligonucleotide is complementary to the 3? end of the growing-chain and wherein the protruding 5? end of the oligonucleotide has the correct sequence to serve as a template for the growing-chain to produce a NA product. The growing-chain is then brought into contact with a polymerase in the presence of one or more nucleotide triphosphates under conditions permitting the polymerase to catalyze addition of one or more nucleotide triphosphates to the 3? end of the growing-chain using the annealed oligonucleotide as a template. After polymerization has occurred, the annealed growing-chain and oligonucleotide are denatured so that the steps can be repeated until the NA product of desired length is synthesized.

Abstract: Human somatic cells are reprogrammed to become induced pluripotent stem cells (iPS cells) by the introduction of a minicircle DNA vector. Cells of interest include adipose stem cells.

Abstract: Methods and compositions are provided for modulating, e.g., reducing, expression of a target sequence in mammals and mammalian cells. In the subject methods, an effective amount of an RNAi agent, e.g., an interfering ribonucleic acid (such as an siRNA or shRNA) or a transcription template thereof, e.g., a DNA encoding an shRNA, is introduced into a target cell, e.g., by being administered to a mammal that includes the target cell, e.g., via a hydrodynamic administration protocol. Also provided are RNAi agent pharmaceutical preparations for use in the subject methods. The subject methods and compositions find use in a variety of different applications, including academic and therapeutic applications.