An adenovirus expression vector is provided. The adenovirus expression vector may include: a) one or more mutations that render the adenovirus replication incompetent and b) at least one nucleotide sequence encoding a protein or an RNA is provided. A method of synthesizing an adenovirus vector is also provided. The synthesis may include: a) producing a plurality of overlapping adenovirus sub-fragments, each sub-fragment comprising a portion of the full genome of the adenovirus; b) circularizing the sub-fragments to form plasmid structures; and c) assembling the circularized sub-fragments into a linear structure, wherein the vector comprises a combination of two or more sub-fragments. A mammalian cell line configured to replicate adenoviral vectors, wherein the cell line comprises nucleotide sequences expressing E1A and E1B gene products but is devoid of other adenovirus sequences is also provided.

The present invention relates to a bacteriophage composition comprising at least one bacteriophage species, at least one α-linked polymeric glucose and at least one polyol. In certain embodiments, the α-linked polymeric glucose has a mean molecular weight of greater than 10 kDa.

Compositions include modified adenoviruses. Nucleotides, cells, and methods associated with the compositions, including their use as vaccines. Viral vectors using a TET promoter system and methods of producing viruses having the same.

This disclosure provides replication-incompetent adenoviral vectors useful in vaccine development and gene therapy. The disclosed vectors comprise a selective deletion of E3 and are particularly useful for preparation of vaccines development and for gene therapy using toxic transgene products that result in vector instability that occurs when the entire E3 domain is deleted.

Provided are compounds that enhance the efficacy of viruses by increasing spread of the virus in cells, increasing the titer of virus in cells, or increasing the antigen expression from a virus, gene or trans-gene expression from a virus, or virus protein expression in cells. Other uses, compositions and methods of using same are also provided.

Recombinant cells and methods therefor are contemplated that allow for rapid and high titer production of recombinant viruses, and especially replication deficient Ad5 virus. In some preferred aspects, the host cell is modified to produce an inhibitor that reduces or eliminates the expression of a therapeutic protein encoded in the virus, while in other aspects, the virus includes a gene that directly or indirectly reduces or eliminates the expression of a therapeutic protein encoded in the virus. Most preferably, shRNA encoded by the host cell will reduce or suppress expression of a payload gene encoded in the recombinant virus.

Producing adenovirus gene therapy vector in producer cells that express or over-express adenoviral polypeptide IX enables one to produce pIX-deleted adenovirus in suspension cell culture. Using producer cells that express or over-express adenoviral polypeptide IX also increases the yield of adenovirus vector, regardless of whether that adenovirus is pIX-deleted. Using producer cells that express or over-express adenoviral polypeptide IX also improves the resulting vector's transduction kinetics, reducing the number of pfu/target cell required to achieve a given level of transduction/infection, shortening the time the vector requires to transduce or infect a target cell, and shortening the time an infected target cell produces progeny virus.

This disclosure provides replication-incompetent adenoviral vectors useful in vaccine development and gene therapy. The disclosed vectors comprise a selective deletion of E3 and are particularly useful for preparation of vaccines development and for gene therapy using toxic transgene products that result in vector instability that occurs when the entire E3 domain is deleted.

The present invention relates to a cell line, use of the cell line and a method for producing infectious viral particles using said cell line.

A recombinant vector comprises simian adenovirus 43, 45, 46, 47, 48, 49 or 50 sequences and a heterologous gene under the control of regulatory sequences. A cell line which expresses simian adenovirus 43, 45, 46, 47, 48, 49 or 50 gene(s) is also disclosed. Methods of using the vectors and cell lines are provided.