A heat-resistant recombinant Newcastle Disease Virus vaccine strain rLS-tFib2-C capable of expressing truncated Fiber 2 protein of fowl adenovirus serotype 4 has been preserved at the China Center for Type Culture Collection, Wuhan University, Wuhan, China with the preservation number of CCTCC No. V202042.

A vaccine composition for birds comprising as an active ingredient a structure containing O-antigen derived from Gram-negative bacteria, provided that said structure does not contain a whole cell, and a process for preparing the same are provided. By using a structure containing O-antigen (e.g. lipopolysaccharide) derived from Gram-negative bacteria as an active ingredient in accordance with the present invention, alleviation of inoculation reaction and reduction in an amount of injection are attained as compared to the conventional whole-cells vaccine to thereby allow for the increase in the number of other antigens to be mixed therewith.

The disclosure relates to the technical field of veterinary biological products, and discloses an avian influenza and fowl adenovirus type 4 bi-combined genetic engineering subunit vaccine. An antigen in the vaccine is a fusion antigen; the fusion antigen has a) avian influenza virus HA protein; b) fowl adenovirus fiber2 protein; c) a specific linker peptide located between the avian influenza virus HA protein and the fowl adenovirus fiber2 protein; the amino acid sequence of the specific linker peptide is as shown in SEQ ID NO:2. This vaccine contains the fusion antigen which can induce poultries to produce a high-level specific antibody to protect poultries from avian influenza and fowl adenovirus infection. Meanwhile, the disclosure also discloses a method for preparing the vaccine.

The present invention relates to a strain of Salmonella enteritidis 3934vac, which has been deleted the waaL gene to obtain a rough phenotype (3934vac DwaaL), the obtaining procedure and the oligos used with the objective of reducing toxicity and maintaining immunogenicity for its application as a vaccine. Another aspect of the present invention relates to a strain of Salmonella enteritidis 3934vac DwaaL, i.e. rough type, which has been modified to express the gene of the avian adenovirus type I fiber, in addition to the procedure for obtaining a Salmonella enteritidis 3034 vac DwaaL strain expressing an AvA-I fiber gene. The invention also comprises the development of a new, live, recombinant, effective and innocuous avian vaccine against the AvA-I virus developed via an insertion and integration process of AvA-I fiber genes in the chromosome of an attenuated and non-pathogenic strain of the bacterium Salmonella enteritidis.

A recombinant vaccine comprising a serotype 9 fowl adenovirus vector (FAdV-9) having at least one exogenous nucleotide sequence inserted encoding at least one antigen of a disease of interest and replacing the adenovirus genome non-essential region, and a pharmaceutically acceptable vehicle, adjuvant and/or excipient, wherein the at least one exogenous nucleotide sequence encoding at least one antigen of a disease of interest and replacing the adenovirus genome non-essential region is located between the 491 and 2782 nucleotides.

The vector of this vaccine is stable for industrial scale production. Likewise, even when administering this vaccine in combination with a vaccine against Marek's disease, both vaccines produce an adequate immune response which is not affected by interference between each other. In the same way, effectiveness of the recombinant vaccine is not affected by maternal antibodies, and is capable of inducing both an early and lasting protective response, even with only one application.

The present disclosure provides a tFiber protein fragment of avian egg drop syndrome virus, wherein the gene that encoded the tFiber protein fragment of avian egg drop syndrome virus has a nucleotide sequence shown in SEQ ID NO. 2 or a degenerate sequence thereof, and a vaccine composition prepared from the protein fragment. The fragment has good immunogenicity and is capable of preparing combined vaccine with various antigens, producing complete protection to the chickens and ducks.

The present invention relates to methods and compositions of thermostable nonenveloped virus as obtained by a laminar counter-current spray drying process. The compositions comprise aerosolizable amorphous particles, comprising free, non-encapsulated nonenveloped virus and an excipient, wherein the particles typically have a mass median aerodynamic diameter (MMAD) of less 5 μm and comprise less than 5% water.

The disclosure relates to the technical field of veterinary biological products, and discloses an avian influenza and fowl adenovirus type 4 bi-combined genetic engineering subunit vaccine. An antigen in the vaccine is a fusion antigen; the fusion antigen has a) avian influenza virus HA protein; b) fowl adenovirus fiber2 protein; c) a specific linker peptide located between the avian influenza virus HA protein and the fowl adenovirus fiber2 protein; the amino acid sequence of the specific linker peptide is as shown in SEQ ID NO:2. This vaccine contains the fusion antigen which can induce poultries to produce a high-level specific antibody to protect poultries from avian influenza and fowl adenovirus infection. Meanwhile, the disclosure also discloses a method for preparing the vaccine.

A heat-resistant recombinant Newcastle Disease Virus vaccine strain rLS-tFib2-C capable of expressing truncated Fiber 2 protein of fowl adenovirus serotype 4 has been preserved at the China Center for Type Culture Collection, Wuhan University, Wuhan, China with the preservation number of CCTCC No. V202042.

The present invention relates to a strain of Salmonella enteritidis 3934vac, which has been deleted the waaL gene to obtain a rough phenotype (3934vac DwaaL), the obtaining procedure and the oligos used with the objective of reducing toxicity and maintaining immunogenicity for its application as a vaccine. Another aspect of the present invention relates to a strain of Salmonella enteritidis 3934vac DwaaL, i.e. rough type, which has been modified to express the gene of the avian adenovirus type I fiber, in addition to the procedure for obtaining a Salmonella enteritidis 3034 vac DwaaL strain expressing an Ava-I fiber gene. The invention also comprises the development of a new, live, recombinant, effective and innocuous avian vaccine against the AvA-I virus developed via an insertion and integration process of Ava-I fiber genes in the chromosome of an attenuated and non-pathogenic strain of the bacterium Salmonella enteritidis.