Abstract: Vectors that encode Adeno-Associated Virus (AAV) Rep and Cap proteins of different serotypes and Adenovirus transcription products that provide helper functions were used to produce pseudotyped recombinant AAV (rAAV) virions. Purification methods generated pseudotyped rAAV virion stocks that were 99% pure with titers of 1×1012–1×1013 vector genomes/ml.

Abstract: The invention provides modifications to a baculovirus-based recombinant adeno associated virus (AAV) system including enhancement of the helper virus stability and construction of novel baculovirus vectors for rAAV pseudotyping. The modified system extends the flexibility of rAAV vector production and promotes the utility of AAV as, a clinically applicable gene therapy vector.

Abstract: Disclosed are serotype-specific recombinant adeno-associated viral (rAAV) vectors, as well as viral particles and compositions comprising them, useful in the expression of neurotherapeutic agents (including neurotherapeutic peptides and polypeptides) in selected mammalian neural cells, as well as tissues and organ systems comprising them. In particular embodiments, rAAV serotype 1 and serotype 5 vectors are disclosed useful for the delivery of therapeutic agents to neural cells of affected mammals.

Abstract: Disclosed are improved VP2-modified recombinant adeno-associated viral (rAAV) vectors, expression systems, and rAAV virions that are fully virulent, yet lack functional VP2 protein expression. Also disclosed are pharmaceutical compositions, virus particles, host cells, and pharmaceutical formulations that comprise these modified vectors useful in the expression of therapeutic proteins, polypeptides, peptides, antisense oligonucleotides and/or ribozymes in the cells and tissues of selected mammals, including, for example, human tissues and host cells.

Abstract: Disclosed are improved recombinant adeno-associated viral (rAAV) vectors having mutations in one or more capsid proteins. Exemplary vectors are provided that have altered affinity for heparin or heparin sulfate, as well as vectors, expression systems, and rAAV virions that lack functional VP2 protein expression, but are nevertheless, fully virulent. Also provided by the invention are rAAV vector-based compositions, virus particles, host cells, and pharmaceutical formulations that comprise them useful in the expression of selected therapeutic proteins, polypeptides, peptides, antisense oligonucleotides and/or ribozymes in selected mammals, including organs, tissues, and human host cells.

Abstract: Vectors that encode Adeno-Associated Virus (AAV) Rep and Cap proteins of different serotypes and Adenovirus transcription products that provide helper functions were used to produce pseudotyped recombinant AAV (rAAV) virions. Purification methods generated pseudotyped rAAV virion stocks that were 99% pure with titers of 1×1012-1×1013 vector genomes/ml.

Abstract: The invention provides a system for modeling neurodegenerative and other diseases through somatic gene transfer. In addition, methods of multiple gene transfer, disease analysis and drug testing are provided for.

Abstract: Disclosed are methods for the isolation and purification of high-titer recombinant adeno-associated virus (rAAV) compositions. Also disclosed are methods for reducing or eliminating the concentration of helper adenovirus in rAAV samples. Methods are disclosed that provide highly-purified rAAV stocks having titers up to about 1013 particles/ml at particle-to-infectivity ratios of less than 100 in processes that are accomplished about 24 hours or less.

Abstract: Disclosed are methods for the isolation and purification of high-titer recombinant adeno-associated virus (rAAV) compositions. Also disclosed are methods for reducing or eliminating the concentration of helper adenovirus in rAAV samples. Methods are disclosed that provide highly-purified rAAV stocks having titers up to about 1013 particles/ml at particle-to-infectivity ratios of less than 100 in processes that are accomplished about 24 hours or less.

Abstract: The present invention provides temperature-sensitive (ts) adeno-associated virus (AAV) Rep78 and Rep68 proteins. In preferred embodiments, the ts AAV Rep78 and Rep68 proteins have missense mutations at amino acid positions 40, 42 and 44 that confer a temperature-sensitive phenotype. Also provided are nucleotide sequences and vectors encoding the inventive ts Rep proteins. In preferred embodiments, a hybrid adenovirus vector is provided that stably comprises a nucleotide sequence encoding a ts AAV Rep protein according to the invention. The present invention also provides methods of packaging AAV vectors and methods of ex vivo gene delivery using the ts Rep proteins of the invention. Further provided are cells containing the ts AAV Rep proteins, preferably stably integrated into the genome of the cell.

Abstract: This invention provides a system for modeling neurodegenerative and other diseases through somatic gene transfer. In addition, methods of multiple gene transfer, disease analysis and drug testing are provided for.

Abstract: Disclosed are methods for the isolation and purification of high-titer recombinant adeno-associated virus (rAAV) compositions. Also disclosed are methods for reducing or eliminating the concentration of helper adenovirus in rAAV samples. Methods are disclosed that provide highly-purified rAAV stocks having titers up to about 10.sup.13 particles/ml at particle-to-infectivity ratios of less than 100 in processes that are accomplished about 24 hours or less.

Abstract: Disclosed are synthetic and "humanized" versions of green fluorescent protein (GFP) genes adapted for high level expression in mammalian cells, especially those of human origin. Base substitutions are made in various codons in order to change the codon usage to one more appropriate for expression in mammalian cells. Recombinant vectors carrying such humanized genes are also disclosed. In addition, various methods for using the efficient expression of humanized GFP in mammalian cells and in animals are described.

Abstract: Disclosed are synthetic and "humanized" versions of green fluorescent protein (GFP) genes adapted for high level expression in mammalian cells, especially those of human origin. Base substitutions are made in various codons in order to change the codon usage to one more appropriate for expression in mammalian cells. Recombinant vectors carrying such humanized genes are also disclosed. In addition, various methods for using the efficient expression of humanized GFP in mammalian cells and in animals are described.

Abstract: Disclosed are synthetic and "humanized" versions of green fluorescent protein (GFP) genes adapted for high level expression in mammalian cells, especially those of human origin. Base substitutions are made in various codons in order to change the codon usage to one more appropriate for expression in mammalian cells. Recombinant vectors carrying such humanized genes are also disclosed. In addition, various methods for using the efficient expression of humanized GFP in mammalian cells and in animals are described.

Abstract: A method for in vitro packaging of adeno-associated viral particles is described. The procedure involves the preparation of cell-free extracts containing all the essential components for packaging. Homogeneous purified substrate DNA for packaging may be prepared separately. The in vitro packaged AAV particles are useful in transduction of mammalian cells and for gene therapy in animals. In one described method, the DNA packaged into AAV particles is not limited by the size constraints characteristic of in vivo packaged AAV particles.

Abstract: A method for in vitro packaging of adeno-associated viral particles is described. The procedure involves the preparation of cell-free extracts containing all the essential components for packaging. Homogeneous purified substrate DNA for packaging may be prepared separately. The in vitro packaged AAV particles are useful in transduction of mammalian cells and for gene therapy in animals. In one described method, the DNA packaged into AAV particles is not limited by the size constraints characteristic of in vivo packaged AAV particles.

Abstract: A method for in vitro packaging of adeno-associated viral particles is described. The procedure involves the preparation of cell-free extracts containing all the essential components for packaging. Homogeneous purified substrate DNA for packaging may be prepared separately. The in vitro packaged AAV particles are useful in transduction of mammalian cells and for gene therapy in animals. In one described method, the DNA packaged into AAV particles is not limited by the size constraints characteristic of in vivo packaged AAV particles.

Abstract: A method for in vitro packaging of adeno-associated vital particles is described. The procedure involves the preparation of cell-free extracts containing all the essential components for packaging. Homogeneous purified substrate DNA for packaging may be prepared separately. The in vitro packaged AAV particles are useful in transduction of mammalian cells and for gene therapy in animals. In one described method, the DNA packaged into AAV particles is not limited by the size constraints characteristic of in vivo packaged AAV particles.

Abstract: A hybrid gene vector suitable for introducing foreign DNA into a mammalian cell comprising the foreign DNA ligated to an AAV genome; a method of constructing the hybrid gene vector; a method of transducing foreign DNA into mammalian cells comprising infecting the cells with the above hybrid gene vector and a method of rescuing foreign DNA from mammalian cells utilizing helper virus.