Abstract: The invention relates to modified Factor IX coding sequence, expression cassette, vectors such as viral (e.g., lenti- or adeno-associated viral) vectors, and gene transfer methods and uses. In particular, to target Factor IX nucleic acid to cells, tissues or organs for expression (transcription) of Factor IX.

Abstract: Methods for preparing highly purified AAV vector formulations are provided. The highly pure AAV formulations described herein are superior for clinical use.

Abstract: A test of visual function and/or functional vision may be performed at varying luminance levels. A first course may be selected for a subject. A given course may comprise a layout having a beginning point, at least one turn, at least one obstacle, and an ending point. The first course may be illuminated with a first luminance level based on an estimated lower light sensitivity cutoff. The subject may be prompted to perform a first run of the test. The test may comprise, from the beginning point to the ending point, navigating the layout of the first course by walking around the at least one turn and avoiding the at least one obstacle. A determination may be made as to whether the subject successfully completed the first course based on one or both of speed or accuracy.

Abstract: This application relates to the fields of gene therapy and molecular biology. In accordance with the present invention, an adeno-associated virus (AAV) vector comprising an altered capsid protein is provided. More specifically, this invention provides adeno-associated viral vectors comprising protein capsid variants which accelerate vector breakdown and clearance, thereby reducing undesirable immune responses.

Abstract: Methods and uses of treating a disease in a mammal are provided by administering to a mammalian non-central nervous system (CNS) cell, organ or tissue, for delivery to mammalian CNS (e.g., brain). Methods and uses of treating a disease in a mammal include, inter alia, administering to a mammalian non-ocular cell, organ or tissue for delivery to a mammalian ocular cell, organ or tissue.

Abstract: Methods for preparing highly purified AAV vector formulations are provided. The highly pure AAV formulations described herein are superior for clinical use.

Abstract: In accordance with the present invention, a method for increasing the yield of rLV vector particles comprising a trans gene encoding a therapeutic protein or fragment thereof is disclosed. In one approach, cells are transfected with plasmids encoding the necessary components for rLV production using a calcium chloride transfection mix at pH 7.1 wherein the calcium chloride and plasmids form a complex which is added to the cells at a constant speed. The cells are then incubated for a suitable time period wherein virus particle media is collected at least twice during the incubation period and stored in a cold storage unit, thereby reducing virus inactivation.

Abstract: Compositions and methods are provided for inhibiting T cell mediated destruction of virally transduced, trangene containing cells.

Abstract: Disclosed herein are compositions and methods of treating and/or correcting ocular disease in a subject, such as a mammal (e.g., human) eye using an Adeno-associated virus (AAV) system. The AAV system employs a nucleic acid encoding a CRISPR-Cas9 system for targeted gene disruption or correction.

Abstract: The invention provides compositions including modified blood clotting factors that have a non-native proteolytic cleavage site engineered into them allowing intracellular cleavage and secretion of an active form. The compositions are useful in the methods for treating a bleeding or clotting disorder.

Abstract: Compositions and methods for AAV mediated gene therapy are disclosed. AAV vectors comprise protein capsid variants comprising therapeutically beneficial transgenes. AAV variants are provided which exhibit increased transduction efficiency when compared to AAV serotypes (e.g., AAV1, AAV2, AAV8, AAV-rh74), which lack the modifications disclosed herein. Such improved vectors are useful for transduction of a variety of tissues.

Abstract: The invention relates to adeno-associated virus (AAV) serotype AAV-Rh74 and related AAV vectors, and AAV-Rh74 and related AAV vector mediated gene transfer methods and uses. In particular, AAV-Rh74 and related AAV vectors target polynucleotides to cells, tissues or organs for expression (transcription) of genes encoding therapeutic proteins and peptides, and polynucleotides that function as or are transcribed into inhibitory nucleic acid sequences.

Abstract: Compositions and methods for AAV mediated gene therapy are disclosed. AAV vectors comprise protein capsid variants comprising therapeutically beneficial transgenes. AAV variants are provided which exhibit increased transduction efficiency when compared to AAV serotypes (e.g., AAV1, AAV2, AAV8, AAV-rh74), which lack the modifications disclosed herein. Such improved vectors are useful for transduction of a variety of tissues.

Abstract: The invention relates to adeno-associated virus (AAV) serotype AAV-Rh74 and related AAV vectors, and AAV-Rh74 and related AAV vector mediated gene transfer methods and uses. In particular, AAV-Rh74 and related AAV vectors target polynucleotides to cells, tissues or organs for expression (transcription) of genes encoding therapeutic proteins and peptides, and polynucleotides that function as or are transcribed into inhibitory nucleic acid sequences.

Abstract: A test of visual function and/or functional vision may be performed at varying luminance levels. A first course may be selected for a subject. A given course may comprise a layout having a beginning point, at least one turn, at least one obstacle, and an ending point. The first course may be illuminated with a first luminance level based on an estimated lower light sensitivity cutoff. The subject may be prompted to perform a first run of the test. The test may comprise, from the beginning point to the ending point, navigating the layout of the first course by walking around the at least one turn and avoiding the at least one obstacle. A determination may be made as to whether the subject successfully completed the first course based on one or both of speed or accuracy.

Abstract: Factor VIII variants and methods of use thereof are disclosed. In particular embodiments, Factor VIII variants are expressed more efficiently by cells over wild-type Factor VIII proteins, are secreted at increased levels by cells over wild-type Factor VIII proteins, exhibit enhanced activity over wild-type Factor VIII proteins and are packaged more efficiently into viral vectors.

Abstract: Disclosed herein are methods and compositions for insertion of Factor IX (FIX) sequences into the genome of a cell for treating hemophilia B.

Abstract: The invention relates to modified Factor IX coding sequence, expression cassette, vectors such as viral (e.g., lenti- or adeno-associated viral) vectors, and gene transfer methods and uses. In particular, to target Factor IX nucleic acid to cells, tissues or organs for expression (transcription) of Factor IX.

Abstract: Disclosed herein are compositions and methods of treating and/or correcting ocular disease in a subject, such as a mammal (e.g., human) eye using an Adeno-associated virus (AAV) system. The AAV system employs a nucleic acid encoding a CRISPR-Cas9 system for targeted gene disruption or correction.

Abstract: Methods for preparing highly purified AAV vector formulations are provided. The highly pure AAV formulations described herein are superior for clinical use.