Abstract: This invention relates to a transgenic vector for transducing cells of a mammal's CNS and transgenically expressing a protein in the mammal's CNS. The transgenic vector comprises a virus-derived vector, a nucleic acid sequence encoding the protein, and an endogenous ATP1A3 promoter sequence. This invention also relates to a composition comprising a recombinant AAV vector comprising a nucleic acid sequence encoding a ATP1A3 protein, in a form compatible with administration into the CNS. The invention also relates to a method for treating a subject having a neurological disorder associated with mutations in the ATP1A3 gene and a method for delivering a transgenic ATP1A3 DNA to the central nervous system of a mammal by administering the recombinant AAV vector into the mammal's CNS.

Abstract: This invention relates to a transgenic vector for transducing cells of a mammal's CNS and transgenically expressing a protein in the mammal's CNS. The transgenic vector comprises a virus-derived vector, a nucleic acid sequence encoding the protein, and an endogenous ATP1A3 promoter sequence. This invention also relates to a composition comprising a recombinant AAV vector comprising a nucleic acid sequence encoding a ATP1A3 protein, in a form compatible with administration into the CNS. The invention also relates to a method for treating a subject having a neurological disorder associated with mutations in the ATP1A3 gene and a method for delivering a transgenic ATP1A3 DNA to the central nervous system of a mammal by administering the recombinant AAV vector into the mammal's CNS.

Abstract: This invention relates to a transgenic vector for transducing cells of a mammal's CNS and transgenically expressing a protein in the mammal's CNS. The transgenic vector comprises a virus-derived vector, a nucleic acid sequence encoding the protein, and an endogenous ATP1A3 promoter sequence. This invention also relates to a composition comprising a recombinant AAV vector comprising a nucleic acid sequence encoding a ATP1A3 protein, in a form compatible with administration into the CNS. The invention also relates to a method for treating a subject having a neurological disorder associated with mutations in the ATP1A3 gene and a method for delivering a transgenic ATP1A3 DNA to the central nervous system of a mammal by administering the recombinant AAV vector into the mammal's CNS.

Abstract: The invention provides a gene transfer vector comprising a humanized nucleic acid sequence encoding an immunogenic portion of one or more exotoxins of Bacillus anthracis and a heterologous sorting signal. The invention also provides a method of producing an immune response against Bacillus anthracis in a host comprising administering to the host the gene transfer vector.

Abstract: The invention provides an isolated or purified nucleic acid molecule consisting essentially of a nucleotide sequence of at least 1877 contiguous nucleotides of (a) SEQ ID NO:1 or (b) a nucleotide sequence encoding an angiogenic factor, wherein the nucleotide sequence comprises cDNA comprising exons 1-5 of a vascular endothelial growth factor (VEGF) joined to genomic DNA comprising introns 5, 6, and 7 and exons 6, 7, and 8 of VEGF and further comprising a mutation in one or more of the splice donor, branch point, and splice acceptor regions contained in an exon selected from the group consisting of exons 5, 6, 7, and 8, wherein the mutation promotes the production of one isoform of VEGF as compared to another isoform of VEGF. Expression constructs, compositions, and cells comprising such a nucleic acid molecule also are provided by the invention.