A method for reducing heterogeneity of a virus preparation may include generating virus ions from the virus preparation, repeatedly increasing at least one of a temperature and an incubation period at the increased temperature of at least one of the virus preparation and the generated virus ions, measuring mass-to-charge ratios and charge magnitudes of at least some of the generated virus ions at each increase of the at least one of the temperature and the incubation period, determining a mass spectrum at each increase of the at least one of the temperature and the incubation period based on values of the respective mass-to-charge ratios and charge magnitudes, and determining, based on the mass spectrums, optimum ones of the temperature and the incubation period which together minimize, or at least reduce, a heterogeneity of the virus preparation without aggregation of virus capsids in the virus preparation.

The present disclosure provides compositions and methods of restoring or enhancing visual function in an individual by administering to the individual a pharmaceutical composition comprising a recombinant adeno-associated viral (rAAV) vector having a polynucleotide sequence that encodes a medium wavelength cone opsin (MW-opsin). The MW-opsin is expressed in a retinal cell in the individual, thereby restoring or enhancing visual function.

Disclosed herein are methods of high-throughput mapping of viral neutralizing antibody epitopes. Also disclosed are in vitro immunoprecipitation-based adeno-associated virus Barcode-Seq-based methods of mapping viral neutralizing antibody epitopes. In some embodiments, a method of high-throughput mapping of viral NtAb conformational epitopes can be utilized, which may comprise HP scanning of mutant viral libraries, immunoprecipitation (IP), and/or next-generation sequencing (NGS) technology. In some embodiments, a method of identifying one or more dominant epitopes in a viral vector may comprise contacting a mutant capsid of a virus with serum from a subject previously exposed to the virus and immunoprecipitating serum immunoglobulins from the serum. In various embodiments, the viral vector may be an AAV vector.

The present invention provides a polyploid adeno-associated virus (AAV) capsid, wherein the capsid comprises capsid protein VP1, wherein said capsid protein VP1 is from one or more than one first AAV serotype, wherein said capsid protein VP2 is from one or more than one first AAV serotype and capsid protein VP3, wherein said capsid protein VP3 is from one or more than one second AAV serotype and wherein at least one of said first AAV serotype is different from at least one of said second AAV serotype and is different from at least one of said third AAV serotype, in any combination.

The invention provides adeno-associated virus (AAV) Factor VIII (FVIII)-encoding/expressing vectors and virus, including AAV FVIII vectors with high expression activity and AAV FVIII vectors that express full-length or truncated functional FVIII protein. The invention also relates to methods of making the herein described AAV FVIII vectors, recombinant AAV FVIII virus particles comprising or expressing such vectors, associated pharmaceutical formulations comprising the same and therapeutic uses thereof.

The disclosure in some aspects relates to recombinant adeno-associated viruses having distinct tissue targeting capabilities. In some aspects, the disclosure relates to gene transfer methods using the recombinant adeno-associated viruses. In some aspects, the disclosure relates to isolated AAV capsid proteins and isolated nucleic acids encoding the same.

The present invention relates to vectors and compositions for the treatment of glycogen storage disease III.

The present invention relates to adeno-associated virus (AAV) vectors modified by the covalent coupling of at least one compound comprising a lactam moiety (e.g., β-lactam) to at least one amino group of an amino acid residue of the capsid of the AAV vectors. The AAV vectors are useful in transducing a cell, especially for gene therapy.

The invention provides compositions and methods for the preparation, manufacture, formulation and therapeutic use of adeno-associated virus (AAV) particles for the prevention and/or treatment of diseases.

Provided are variant adeno-associated virus (AAV) capsid proteins and recombinant AAV virions having one or more variant AAV capsid proteins. Also provided are compositions and methods for the use of the recombinant AAV virions, such as for the treatment or prophylaxis of a disease or disorder.