The disclosure relates to a virus-like particle in which a protein complex is entrapped, ensuring the formation of the protein complex under physiological conditions, while protecting the protein complex during purification and identification. The disclosure further relates to the use of such virus-like particle for the isolation and identification of protein complexes.

A temperature-responsive vims storage system that allows vims to be stored, such as a non-frozen liquid, and maintain infectivity is described.

A temperature-responsive virus storage system that allows virus to be stored, such as a non-frozen liquid, and maintain infectivity is described.

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.

The present invention relates to a method for preparing viral vector-based compositions wherein the viral vector-based particles present in the composition have a particle size distribution with a polydispersity index (PDI) of less than 0.5, the method comprising the steps: (a) providing replication-deficient viral vectors; (b) providing a solution comprising at least one sugar and at least three different excipients selected from hydrophilic and amphiphilic excipients, wherein the excipients are characterized by polar, aliphatic, aromatic, negatively charged, and/or positively charged functional groups, and wherein the solution is further characterized by an excipient-sugar ratio of at least 1:2 (w/w); and (c) mixing the replication deficient viral vectors of step (a) with the solution of step (b). The present invention further relates to a viral vector-based composition obtainable by the method of the invention as well as to the viral vector-based composition of the invention for use as a prime-boost vaccine.

The invention relates to a protein comprising a plurality of conserved peptide sequences, or variants thereof, wherein at least one of the conserved sequences is conserved across all four dengue virus serotypes DENV-1, DENV-2, DENV-3 and DENV-4, and wherein the conserved sequences comprise at least part of a sequence of one or more non-structural proteins of the dengue virus serotypes. The invention further relates to associated peptides, compositions, nucleic acids, viral vectors, virus-like particles, use, prime boost vaccination kits, agents and methods.

Methods for generating immune responses using adenovirus vectors that allow multiple vaccinations with the same adenovirus vector and vaccinations in individuals with preexisting immunity to adenovirus are provided.

Provided herein are RNAi molecules for treating Huntington's disease. Further provided herein are expression cassettes, vectors (e.g., rAAV, recombinant adenoviral, recombinant lentiviral, and recombinant HSV vectors), cells, viral particles, and pharmaceutical compositions containing the RNAi. Yet further provided herein are methods and kits related to the use of the RNAi, for example, to treat Huntington's disease.

The present invention relates to a method for preparing viral vector-based compositions wherein the viral vector-based particles present in the composition have a particle size distribution with a polydispersity index (PDI) of less than 0.5, the method comprising the steps: (a) providing replication-deficient viral vectors; (b) providing a solution comprising at least one sugar and at least three different excipients selected from hydrophilic and amphiphilic excipients, wherein the excipients are characterized by polar, aliphatic, aromatic, negatively charged, and/or positively charged functional groups, and wherein the solution is further characterized by an excipient-sugar ratio of at least 1:2 (w/w); and (c) mixing the replication deficient viral vectors of step (a) with the solution of step (b). The present invention further relates to a viral vector-based composition obtainable by the method of the invention as well as to the viral vector-based composition of the invention for use as a prime-boost vaccine.

Provided herein are RNAi molecules for treating Huntington's disease. Further provided herein are expression cassettes, vectors (e.g., rAAV, recombinant adenoviral, recombinant lentiviral, and recombinant HSV vectors), cells, viral particles, and pharmaceutical compositions containing the RNAi. Yet further provided herein are methods and kits related to the use of the RNAi, for example, to treat Huntington's disease.