Provided are compositions and methods for vaccinating against picornaviruses. The compositions include modified Newcastle Disease viruses (NDVs) that are sufficient to produce virus-like particles (VLPs) in a host recipient. The modified NDVs contain a single stranded negative sense RNA polynucleotide having nucleotide sequences configured in a 3′-5′ direction encoding sequentially NDV nucleocapsid protein (NP), phosphoprotein (P), matrix protein (M), fusion protein (F), hemagglutinin-neuraminidase (HN) and RNA-dependent RNA polymerase (L) protein. A first nucleotide sequence encoding a picornavirus capsid polyprotein precursor is positioned between the between P and M nucleotide sequences. A second nucleotide sequence encoding a picornavirus protease that is capable of processing the capsid polyprotein precursor is positioned between the HN and L nucleotide sequences. Purified, infectious non-pathogenic NDV particles are included, as are methods for using such particles for vaccination against any infectious picornavirus. Kits and articles of manufacture containing and/or for making the NDV particles are also provided.

An engineered Newcastle Disease Virus (NDV) vector is provided. In particular, the present disclosure provides methods of treating or preventing a disease such as cancer, or an infectious disease, or methods for eliciting an immune response, with the engineered NDV vector. The engineered NDV vector provided herein is useful as an immunogenic composition, an oncolytic agent, or a vaccine.

The present invention describes a recombinant herpesvirus of turkeys (rHVT) that can be used as a vector vaccine for poultry against infection and disease from multiple poultry pathogens. Specifically the rHVT expresses an infectious bursal disease virus (IBDV) viral protein 2 (VP2) gene and a Newcastle disease virus (NDV) fusion (F) protein gene from a first and a second expression cassette inserted in the unique small (Us) region, and expresses an avian influenza vims (AIV) haemagglutinin (HA) gene from a third expression cassette inserted in the unique long (UL) region of the genome of said rHVT either between the UL40 and UL41 genes, or between the UL44 and UL45 genes. This rHVT can be used to vaccinate poultry against MDV, IBDV, NDV and AIV.

A vaccine delivery method is presented that includes a composition including as one component a slurry matrix that is a liquid at room temperature and a gel at physiological pH, physiological salt concentrations and/or physiological temperatures and as a second component one or more antigens. Also included are methods of inducing an immune response in a subject and vaccinating a subject by administering such compositions.

The invention relates to recombinant viral vectors for the insertion and expression of foreign genes for use in safe immunizations to protect against a variety of pathogens. The invention also relates to multivalent compositions or vaccine comprising one or more recombinant viral vectors for protection against a variety of pathogens. The present invention relates to methods of making an using said recombinant viral vectors.

The present disclosure provides a recombinant herpesvirus of turkeys (HVT) and a preparation method and use thereof. The present disclosure specifically provides a recombinant HVT, where an exogenous gene is inserted in a spacer region between an HVT005 region and an HVT006 region of an HVT genome; and the exogenous gene is selected from a gene derived from the group consisting of a Newcastle disease virus (NDV), an avian influenza virus (AIV), and an infectious bursal disease virus (IBDV); the spacer region between an HVT005 region and an HVT006 region of an HVT genome is located between 8,867 nt and 9,319 nt of the HVT genome, and has a nucleotide sequence set forth in SEQ ID NO: 1.

The present invention is based on the surprising finding that H5 protein of clade 1 H5N1 induces, in particular by a single-shot vaccination, a cross-clade protective immune response to influenza viruses with H5N1 HA.

In one aspect, the invention is thus directed to H5 protein of clade 1 H5N1 virus for use in a method of treating or preventing infections with H5N1 virus of a different clade, namely of a clade different from clade 1 or from any clade with the exception of clade 1, respectively.

The invention relates to a bonding and forming device for an inner box of a paper box and surface paper. The bonding and forming device comprises a stand, a lifting platform, a paper box inner support member, a flanging pressing plate, an ejector pin, a left hairbrush, a right hairbrush, a first pushing part, a front hairbrush, a rear hairbrush and a second pushing part and also comprises a driving device, a first control device a second control device, a third control device, a fourth control device and a fifth control device, wherein the driving device is used for driving the ejector pin to rise or fall; the first control device is used for controlling the paper box inner support member to rise or fall; the second control device is used for controlling the left hairbrush and the right hairbrush to stretch; the third control device is used for controlling the first pushing part to stretch; the fourth control device is used for controlling the front hairbrush and the rear hairbrush to stretch; the fifth control device is used for controlling the second pushing part to stretch; an inhibiting device is arranged between the first control device and the driving device; and the paper box inner support member and the flanging pressing plate are respectively provided with a through hole for the ejector pin to pass through. By adopting the technical scheme, according to the bonding and forming device for the inner box of the paper box and the surface paper, provided by the invention, the inner box and other surfaces of the surface paper can be automatically bonded to be formed after a bottom plate of the inner box and the bottom surface of the surface paper are bonded. The degree of automation is high and the production efficiency is high.

The present invention relates to the development and manufacturing of viral vaccines. In particular, the invention relates to the field of industrial production of viral vectors and vaccines, more in particular to the use of avian embryonic stem cells, preferably the EBx® cell line derived from duck embryonic stem cells, for the production of viral vectors and viruses. The invention is particularly useful for the industrial production of viral vaccines to prevent viral infection of humans and animals.

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.