Described is a vaccine composition comprising an effective amount of at least one polypeptide selected from the group of IdeSsuis, rIdeSsuis, an analogue or a fragment thereof, or a polynucleotide encoding the same. This vaccine composition is used in the prophylactic, metaphylactic or therapeutic treatment of a Streptococcus suis infections in pigs or humans.

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.

NEW MATERIAL: Recombinant plasmid pTPGIF2 having a size of 4,660 base pairs and a structure obtained by inserting a DNA having a size of 52 base pairs and containing a sequence coding somatostatin into a BamHI incision site of a plasmid vector pTP70-1 capable or fusing a heteropeptide to a carboxy-terminal of a dihydrofolic acid reductase gene of E. coli. USE: Producton of fused protein containing somatostatin.

PREPARATION: A somatostatin gene is integrated into a plasmid vector pTP70-1. pTPGIF2 is kept in stable state when introduced into E. coli. C600 strain. The E. coli. C600 train containing pTPGIF2 is deposited in Fermentation Research institute as FERM BP-1577.

Disclosed herein include methods, compositions, and kits suitable for use in vaccination. There are provided, in some embodiments, nucleic acid compositions (e.g., mRNA vaccine, DNA vaccine) comprising a polynucleotide encoding a fusion protein. The fusion protein can comprise an antigenic polypeptide (AP) and an endosomal sorting complex required for transport (ESCRT)-recruiting domain (ERD). A plurality of fusion proteins can be capable of self-assembling into an enveloped nanoparticle (ENP) secreted from a cell in which the fusion proteins are expressed. There are provided, in some embodiments, populations of ENPs.

Provided is a vaccine composition including a recombinant DNA vaccine against a pathogen. The recombinant DNA vaccine includes an expression cassette operably linked to a promoter, and the expression cassette encodes a non-structural protein of a Sindbis virus and an antigenic protein of the pathogen. Also provided is a method of producing a protective immune response against a pathogen in a subject in need thereof by administering the vaccine composition to the subject.

Nucleic acid molecules and compositions comprising one or more nucleotide sequences that encode a consensus Merkel Cell Polyomavirus (MCV) T antigen. Immunomodulatory methods and methods of inducing an immune response against MCV are disclosed. Method of treating infection by MCV and methods of treating or preventing Merkel Cell Carcinoma associated with MCV are disclosed. Modified consensus MCV T antigens are disclosed.

The present invention is directed to novel polynucleotides, polypeptides, and polyproteins of Mycoplasma surface proteins, all of which are useful in detecting infection and for the preparation of vaccines for treating and preventing diseases in swine and other animals. Vaccines provided according to the practice of the invention are effective against Mycoplasma infections. Detection and therapeutic polyclonal and monoclonal antibodies are also a feature of the present invention. Assays, kits, systems, and nanoparticle encapsulated compositions related to the polynucleotides, polypeptides, polyproteins, antibodies or fragments, derivatives, and variants thereof are also disclosed.

The present invention provides capsular polysaccharides from Streptococcus pneumoniae serotypes identified using NMR. The present invention further provides polysaccharide-protein conjugates in which capsular polysaccharides from one or more of these serotypes are conjugated to a carrier protein such as CRM197. Polysaccharide-protein conjugates from one or more of these serotypes may be included in multivalent pneumococcal conjugate vaccines having polysaccharides from multiple additional Steptococcus pneumoniae serotypes.

The present disclosure is directed to peptide antigens derived from a previously undefined epitope on influenza A virus hemagglutinin and methods for use thereof.

The present invention relates to new conjugated capsular saccharide antigens (glycoconjugates), immunogenic compositions comprising said glycoconjugates and uses thereof.