The present invention discloses a method for assessing the capacity of a substance to treat or prevent hepadnavirus infection. A reporter virus carrying genetic information for a first fragment of a recombinase and a reporter cell expressing a second fragment of the recombinase are used. When the reporter virus infects the reporter cell, the two fragments of the recombinase associate and excise a stop cassette that is flanked by two recombination sites and blocks the expression of a reporter gene. Accordingly, the present invention relates to a method of assessing the capacity of a substance to treat or prevent hepadnavirus infection, a hepadnavirus comprising a nucleic acid encoding a first fragment of a recombinase and a mammalian hepatocyte or hepatoma cell comprising a nucleic acid encoding a second fragment of a recombinase and a nucleic acid comprising a stop cassette flanked by two recombination sites fused to a reporter gene.

Provided herein is a dual vector transfection system for the production of recombinant adeno-associated virus (rAAV). The dual vector transfection system generally comprises: (1) a first nucleic acid vector comprising a first nucleotide sequence encoding an AAV Rep protein, a second nucleotide sequence comprising an rAAV genome comprising a transgene, and a third nucleotide sequence encoding an AAV capsid protein; and (2) a second nucleic acid vector comprising a helper virus gene.

The present invention provides new stable packaging cell lines and producer cell lines as well as methods to obtain them, and a new method to produce lentiviral vectors using such cell lines. New methods and packaging cell lines of the invention are generated using a baculo-AAV hybrid system for stable expression of structural and regulatory lentiviral proteins, such system comprising a baculoviral backbone containing an integration cassette flanked by AAV ITR, in combination with a plasmid encoding rep protein. This system allows to obtain a stable integration of the structural and regulatory HIV-1 proteins gag/pol and rev. The system allows to obtain a first intermediate including only the structural and regulatory HIV proteins gag/pol and rev, to be used as starting point to obtain stable packaging cell lines as well as producer cell lines.

A gene editing system of Escherichia coli includes an Escherichia coli, a helper plasmid and a donor plasmid. The helper plasmid successively includes a transposase complex expression cassette, a Cas12k expression cassette, a first sgRNA cassette, a first antibiotic resistance gene and a first replication origin. The donor plasmid successively includes a left end sequence of a ShCAST transposon, an exogenous gene expression cassette, a right end sequence of the ShCAST transposon, a second sgRNA cassette, a second antibiotic resistance gene and a second replication origin.

The present invention relates a vector system and a vector system for use in a method of treating a disease, each comprising a first vector and a second vector. The present invention further relates to the first vector, the second vector and a combination of the first vector and the second vector. In addition, the present invention relates to a pharmaceutical composition comprising the vector system of the invention or the combination of the invention.

The present invention concerns a production bacterial cell for producing phage particles or phage-derived delivery vehicles, said production bacterial cell stably comprising at least one phage structural gene(s) and at least one phage DNA packaging gene(s), said phage structural gene(s) and phage DNA packaging gene(s) being derived from a first type of bacteriophage, wherein the expression of at least one of said phage structural gene(s) and/or at least one of said phage DNA packaging gene(s) in said production bacterial cell is controlled by at least one induction mechanism, and wherein said production bacterial cell is from a bacterial species or strain different from the bacterial species or strain from which said first type of bacteriophage comes and/or that said first type of bacteriophage targets.

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

Provided herein are compositions that include one or more adeno-associated virus (AAVs) vectors and methods of inducing differentiation of a hair cell using these vector(s).

Methods and compositions for modulating a target genome are disclosed.

The present invention features a dual vector system for disrupting and replacing a target gene comprising a mutation (e.g., dominant, recessive mutation). Embodiments of the invention may also provide compositions comprising the dual vector system, and methods of using the dual vector system, including but not limited to methods of modifying the genome of a cell, methods of genomic editing, and methods of treating cells or a subject suffering from a genetic disease comprising a mutation.