Viruses, and particularly genetically engineered, replication deficient viruses such as adenoviruses, poxviruses, MVA viruses, and baculoviruses which encode one or more antigens of interest, such as TB, malarial, and HIV antigens, are spray dried with a mannitol-cyclodextrin-trehalose-dextran (MCTD) to form a powder where the viability of the viruses are maintained at a suitable level for mass vaccinations after spray drying, and where the viability of the viruses are maintained at suitable level over a period of storage time, even in the presence of humidity.

Viruses, and particularly genetically engineered, replication deficient viruses such as adenoviruses, poxviruses, MVA viruses, and baculoviruses which encode one or more antigens of interest, such as TB, malarial, and HIV antigens, are spray dried with a mannitol-cyclodextrin-trehalose-dextran (MCTD) to form a powder where the viability of the viruses are maintained at a suitable level for mass vaccinations after spray drying, and where the viability of the viruses are maintained at suitable level over a period of storage time, even in the presence of humidity.

The present disclosure generally relates to methods of protecting the genomic integrity and/or biological activity of AAV viral particles in a sample containing both AAV particles and helper virus particles during heat inactivation. The methods include heating, to a temperature greater than or equal to 45°C., a sample containing helper virus particles, AAV particles, and a buffer. The buffer includes a concentration of 10 mM or greater kosmotropic salts and/or a concentration of 10 mM or greater of divalent or trivalent cations.

The present disclosure generally relates to methods of protecting the genomic integrity and/or biological activity of AAV viral particles in a sample containing both AAV particles and helper virus particles during heat inactivation. The methods include heating, to a temperature greater than or equal to 45° C., a sample containing helper virus particles, AAV particles, and a buffer. The buffer includes a concentration of 10 mM or greater kosmotropic salts and/or a concentration of 10 mM or greater of divalent or trivalent cations.

Viruses, and particularly genetically engineered, replication deficient viruses such as adenoviruses, poxviruses, MVA viruses, and baculoviruses which encode one or more antigens of interest, such as TB, malarial, and HIV antigens, are spray dried with a mannitol-cyclodextrin-trehalose-dextran (MCTD) to form a powder where the viability of the viruses are maintained at a suitable level for mass vaccinations after spray drying, and where the viability of the viruses are maintained at suitable level over a period of storage time, even in the presence of humidity.

Viruses, and particularly genetically engineered, replication deficient viruses such as adenoviruses, poxviruses, MVA viruses, and baculoviruses which encode one or more antigens of interest, such as TB, malarial, and HIV antigens, are spray dried with a mannitol-cyclodextrin-trehalose-dextran (MCTD) to form a powder where the viability of the viruses are maintained at a suitable level for mass vaccinations after spray drying, and where the viability of the viruses are maintained at suitable level over a period of storage time, even in the presence of humidity.

The present invention provides a human type 14 replication defective adenovirus vector, and a preparation method for the same, the method comprising: constructing an Ad14 genome into a plasmid, with knocking out E3 and E1 genes of the Ad14 genome, and replacing open reading frames 2, 3, 4, 6, and 6/7 of an E4 gene of the Ad14 genome with corresponding reading frames of an Ad5 genome. The human type 14 replication defective adenovirus vector according to the present invention is potentially applicable in the research and development of a vaccine and a drug against human type 14 adenovirus infection, applicable as a gene vector in the research and development of other pathogen vaccines, and applicable in a biological report and trace system, etc.

The present disclosure generally relates to methods of protecting the genomic integrity and/or biological activity of AAV viral particles in a sample containing both AAV particles and helper virus particles during heat inactivation. The methods include heating, to a temperature greater than or equal to 45C, a sample containing helper virus particles, AAV particles, and a buffer. The buffer includes a concentration of 10 mM or greater kosmotropic salts and/or a concentration of 10 mM or greater of divalent or trivalent cations.

Viruses, and particularly genetically engineered, replication deficient viruses such as adenoviruses, poxviruses, MVA viruses, and baculoviruses which encode one or more antigens of interest, such as TB, malarial, and HIV antigens, are spray dried with a mannitol-cyclodextrin-trehalose-dextran (MCTD) to form a powder where the viability of the viruses are maintained at a suitable level for mass vaccinations after spray drying, and where the viability of the viruses are maintained at suitable level over a period of storage time, even in the presence of humidity.

The present disclosure generally relates to methods of protecting the genomic integrity and/or biological activity of AAV viral particles in a sample containing both AAV particles and helper virus particles during heat inactivation. The methods include heating, to a temperature greater than or equal to 45? C., a sample containing helper virus particles, AAV particles, and a buffer. The buffer includes a concentration of 10 mM or greater kosmotropic salts and/or a concentration of 10 mM or greater of divalent or trivalent cations.