The invention relates to biotechnology, immunology and virology and, in particular, to an immunobiological agent for the prevention of diseases caused by severe acute respiratory syndrome virus SARS-CoV-2. Also, a method of inducing specific immunity to the SARS-CoV-2 virus is disclosed, comprising the administration to mammals of one or more immunobiological agents for the prevention of diseases caused by severe acute respiratory syndrome virus SARS-CoV-2. The invention facilitates an effective induction of the immune response to the SARS-CoV-2 virus.

Embodiments herein relate to compositions of and methods for live viruses. In certain embodiments, a live, attenuated virus composition includes, but is not limited to, one or more live, attenuated viruses and compositions to reduce inactivation and/or degradation of the live, attenuated virus. In other embodiments, the live, attenuated virus composition may be a vaccine composition. In yet other compositions, a live, attenuated virus composition may include at least one carbohydrate, at least one protein and at least one high molecular weight surfactants for reducing inactivation and/or degradation of the live, attenuated virus.

Provided herein are adeno-associated virus (AAV) compositions that can restore F8 gene function in cell. Also provide are packaging systems for making the adeno-associated virus compositions.

Provided herein are adeno-associated virus (AAV) compositions that can restore F8 gene function in a cell without co-transducing or co-administering an exogenous nuclease or a nucleotide sequence that encodes an exogenous nuclease. Also provided are methods of using the AAV compositions to correct an F8 gene mutation and/or treat a disease or disorder associated with an F8 gene mutation. Packaging systems for making the adeno-associated virus compositions are also provided.

Embodiments herein relate to compositions of and methods for live viruses. In certain embodiments, a live, attenuated virus composition includes, but is not limited to, one or more live, attenuated viruses and compositions to reduce inactivation and/or degradation of the live, attenuated virus. In other embodiments, the live, attenuated virus composition may be a vaccine composition. In yet other compositions, a live, attenuated virus composition may include at least one carbohydrate, at least one protein and at least one high molecular weight surfactants for reducing inactivation and/or degradation of the live, attenuated virus.

Embodiments herein relate to compositions of and methods for live viruses. In certain embodiments, a live, attenuated virus composition includes, but is not limited to, one or more live, attenuated viruses and compositions to reduce inactivation and/or degradation of the live, attenuated virus. In other embodiments, the live, attenuated virus composition may be a vaccine composition. In yet other compositions, a live, attenuated virus composition may include at least one carbohydrate, at least one protein and at least one high molecular weight surfactants for reducing inactivation and/or degradation of the live, attenuated virus.

Provided herein are adeno-associated virus (AAV) compositions that can restore F8 gene function in a cell without co-transducing or co-administering an exogenous nuclease or a nucleotide sequence that encodes an exogenous nuclease. Also provided are methods of using the AAV compositions to correct an F8 gene mutation and/or treat a disease or disorder associated with an F8 gene mutation. Packaging systems for making the adeno-associated virus compositions are also provided.

Provided herein are adeno-associated virus (AAV) compositions that can restore F8 gene function in cell. Also provide are packaging systems for making the adeno-associated virus compositions.

The present invention provides a vaccine formulation, a preparation method therefor and a use thereof. The vaccine formulation comprises a vaccine carrier and an antigen component, wherein the vaccine carrier is obtained by hydrothermal transformation of microorganisms. The vaccine formulation of the present invention is obtained by compounding the vaccine carrier obtained by hydrothermal transformation of microorganisms with the antigen component.

The present invention provides a vaccine formulation, a preparation method therefor and a use thereof. The vaccine formulation comprises a vaccine carrier and an antigen component, wherein the vaccine carrier is obtained by hydrothermal transformation of microorganisms. The vaccine formulation of the present invention is obtained by compounding the vaccine carrier obtained by hydrothermal transformation of microorganisms with the antigen component.