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 method of preparing a recombinant adeno-associated virus (rAAV) including: (1) preparing a shuttle plasmid and a corresponding recombinant bacmid including a baculovirus genome, where the shuttle plasmid includes at least an rAAV gene of interest flanked by inverted terminal repeats (ITR-GOI) integrated with a heterologous functional gene fragment, and the recombinant bacmid includes an expression cassette of functional protein components necessary for assembly of the rAAV; (2) integrating the rAAV ITR-GOI and the expression cassette of functional protein components by using the shuttle plasmid and the recombinant bacmid, to yield a recombinant bacmid including a recombinant baculovirus genome; and (3) transfecting, with the recombinant bacmid, a host cell line.

Provided herein are methods and compositions useful in the production of recombinant AAV (rAAV) in host producer cells, such as insect cells. In some embodiments, methods, uses and compositions are provided that comprise recombinant VP1 genes comprising modified Kozak sequences to express AAV VP1 proteins in amounts that are useful for producing infective rAAV particles. These infective rAAV particles may comprise a gene of interest.

The present invention is directed to viral vectors and methods of their production and use.

The present disclosure relates generally to modified adeno-associated virus (AAV) from serotypes other than serotype 2, which have a viral capsid protein with a subunit 1 (VP1) sequence which is modified relative to the corresponding wildtype sequence. In particular, the modified AAVs of the disclosure comprise site-specific amino acid substitutions within the phospholipase A2 (PLA2) domain and flanking sequence relative to the corresponding wild-type sequence which improve functionality of the AAV when produced in insect cells. The present disclosure also relates to methods of producing the modified AAVs, reagents therefor, baculovirus expression systems and insect cells for producing said modified AAVs.

Provided herein is a baculovirus expression vector system for the production of a desired protein. In one aspect, the desired protein is a closed-ended DNA (ceDNA) molecule comprising wild-type and/or truncated inverted terminal repeats derived from a genome of a member of the viral family Parvoviridae.

The present invention relates nucleic acid constructs for the production of recombinant parvoviral (e.g. adeno-associated viral) vectors in insect cells, to insect cells comprising such constructs and to methods wherein the cells are used to produce recombinant parvoviral virions. The insect cells preferably comprise a first nucleotide sequence encoding the parvoviral rep proteins whereby the initiation codon for translation of the parvoviral Rep78 protein is a suboptimal initiation codon that effects partial exon skipping upon expression in insect cells. The insect cell further comprises a second nucleotide sequence comprising at least one parvoviral (AA V) inverted terminal repeat (ITR) nucleotide sequence and a third nucleotide sequence comprising a sequences coding for the parvoviral capsid proteins.

Provided are a preparation method and system for a recombinant adeno-associated virus (rAAV) and a recombinant bacmid. The method comprises: first reconstructing a recombinant bacmid containing a recombinant baculovirus genome that produces essential functional elements for an rAAV, at least one of the essential functional elements being inserted into the N-terminal or C-terminal of a locus of an essential gene of the recombinant baculovirus genome; and then transfecting the obtained recombinant bacmid containing the recombinant baculovirus genome that produces the rAAV into a host cell line for culturing to prepare an rAAV. Compared with recombinant baculoviruses obtained by conventional Tn7 recombinant preparations of recombinant bacmid, the recombinant baculovirus obtained by inserting a core element containing Cap, Rep and ITR into two sides of a baculovirus essential gene has a more stable rAAV serial passage production level in a cell and has a higher rAAV yield.

The present disclosure provides nucleic acid molecules comprising a first inverted terminal repeat (ITR), a second ITR, and a genetic cassette encoding a target sequence. In some embodiments, the first ITR and/or the second ITR is an ITR of human bocavirus. Also disclosed are methods of using the nucleic acid molecules in gene therapy applications.

The disclosure relates to compositions, methods, and processes for the preparation, use, and/or formulation of adeno-associated virus (AAV) particle comprising a viral gene and a capsid, wherein the viral genome comprises at least one Vectorized Editing of Nucleic acids to correct Overt Mutations (VENOM) element.