The invention relates to a recombinant baculoviral genome useful for the production of viral vectors for gene therapy, allowing said production from a single infection.

The present invention provides phagemid vectors and associated phagemid particles for cancer treatment, and in particular, to the use of novel phagemid particles and associated expression systems for the treatment, prevention, amelioration, or management of cancer. In particular, the invention relates to the use of phagemid particles and expression systems for the delivery of transgenes encoding cytokines, for the treatment, prevention, amelioration, or management of cancer. The invention also extends to the use of phagemid particles and expression systems for the delivery of transgenes, and for the combination of such treatment with the use of adoptively transferred T cells, for the treatment, prevention, amelioration, or management of cancer.

Disclosed is an expression system for expressing a herpesvirus glycoprotein complex. The expression system may include a vector inserted with two or more nucleic acid sequences that encode two or more subunits of a herpesvirus glycoprotein complex linked by one or more linking sequences such that the subunits are co-expressed simultaneously and self-processed to assemble into a glycoprotein complex. Also disclosed are vaccine compositions comprising the expression system or the vector and methods of preventing or treating herpesvirus infections using the vaccine compositions.

Described herein are embodiments relating to manipulation of populations and sex ratio in populations through DNA sequence modifications.

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.

Disclosed is a viral vector comprising (a) a cDNA of a recombinant viral RNA having a sequence of a Borna disease viral genome comprising a disrupted G gene of the Borna disease viral genome and an inserted G gene of an avian bornaviral genome, wherein the cDNA of the recombinant viral RNA has at least an N gene, an X gene, a P gene and an L gene of the Borna disease viral genome in the same order as in the Borna disease viral genome and has an inserted foreign gene; (b) DNAs encoding ribozymes; and (c) a promoter sequence, wherein (b) the DNAs encoding ribozymes are located upstream and downstream of (a) the cDNA of the recombinant viral RNA, and (a) the cDNA of the recombinant viral RNA and (b) the DNAs encoding ribozymes are located downstream of (c) the promoter sequence. The present invention can be used as a gene introduction technique that does not affect a host chromosome and can be suitable for the application in various fields, such as the treatment and prevention of brain and neurological diseases, visualization techniques of nerve cells in the field of neuroscience, etc.

In certain embodiments, the disclosure relates to vectors containing bacterial nucleic acid sequences and a paramyxovirus gene. Typically, the expression vector comprises a bacterial artificial chromosome (BAC), and a nucleic acid sequence comprising a respiratory syncytial virus (RSV) gene in operable combination with a regulatory element and optionally a reporter gene.

Disclosed are methods and constructs for engineering circular RNA. Disclosed is a vector for making circular RNA, said vector comprising the following elements operably connected to each other and arranged in the following sequence: a.) a 5 homology arm, b.) a 3 group I intron fragment containing a 3 splice site dinucleotide, c.) optionally, a 5 spacer sequence, d.) a protein coding or noncoding region, e.) optionally, a 3 spacer sequence, f) a 5 Group I intron fragment containing a 5 splice site dinucleotide, and g.) a 3 homology arm, said vector allowing production of a circular RNA that is translatable or biologically active inside eukaryotic cells. In another embodiment, the vector can comprise the 5 spacer sequence, but not the 3 spacer sequence. In yet another embodiment, the vector can comprise the 3 spacer sequence, but not the 5 spacer sequence. Also disclosed is a method for purifying the circular RNA produced by the vector and the use of nucleoside modifications in circular RNA produced by the vector.

The present invention relates to a retroviral particle comprising a protein derived from the Gag polyprotein, an envelope protein, optionally an integrase and at least two encapsidated non-viral RNAs, the encapsidated non-viral RNAs each comprising an RNA sequence of interest bound to an encapsidation sequence, each encapsidation sequence being recognized by a binding domain introduced into the protein derived from the Gag polyprotein and/or into the integrase, and at least one of said sequences of interest of the encapsidated non-viral RNAs comprises a part coding a nuclease.

The invention relates to bacterial artificial chromosomes (BAC) comprising retroviral nucleic acid sequences encoding: gag and pol proteins, and an env protein or a functional substitute thereof, wherein each of the retroviral nucleic acid sequences are arranged as individual expression constructs within the BAC. The invention also relates to uses and methods of transient transfection using said BAC.