A preparation method of an interfering peptide targeting SARS-CoV-2 N protein includes the following steps: designing an interfering peptide segment targeting amino acids located in a dimerization domain of the SARS-CoV-2 N protein; fusing the interfering peptide segment with HIV-TAT; modifying the interfering peptide segment fused with HIV-TAT into a reverse isomer to obtain an amino acid sequence of a final interfering peptide NIP-V; and synthesizing the interfering peptide NIP-V using D-amino acids as raw materials. The above-mentioned interfering peptide drug NIP-V is able to interact with the dimerization domain of the SARS-CoV-2 N protein, inhibit the oligomerization of N protein, and then relieve the inhibition for innate immunity by the N protein, so as to achieve the purpose of inhibiting the replication of SARS-CoV-2 virus in cells and animals.

The invention describes a method of generating antibodies to a mixture of SARS-CoV-2 peptidogenic proteins or polynucleotides encoding SARS-CoV-2 peptidogenic proteins wherein the SARS-CoV-2 peptidogenic protein has altered conformational dynamics as compared to a SARS-CoV-2 starting protein and wherein the SARS-CoV-2 peptidogenic protein has a similar conformation to the SARS-CoV-2 starting protein. The SARS-CoV-2 peptidogenic proteins can be used to induce an immune response, which can lead to the generation of antibodies and/or can be used to vaccinate a mammal.

A vaccine for preventing β-CoV infection includes at least one viral vector containing a β-CoV DNA sequence which codes the S protein for the β-CoV. The β-CoV RNA sequence can be a SARS-2 β-CoV DNA sequence. The vaccine may further includes a packaging plasmid based on an adenovirus. The viral vector and packaging plasmid can be contained in a packaging cell and encapsidated in a capsid. A method of vaccinating a mammal subject against infection from at least one group of β-CoV includes separating a broad group of β-CoV into homology groups based on similarities in the β-CoV RNA sequences which code for their S proteins, identifying at least one consensus sequence for each homology group which has a sequence identity of greater than 60% to all other members of the homology group, and preparing a viral vector including at least a portion of the consensus sequence from at least one homology group.

Disclosed herein are methods of forming compounds and exemplary stable compounds in the nature of a conjugated compound at refrigerated or room temperature, which in some embodiments comprises an antigen and virus particle mixed in a conjugation reaction to form a conjugate mixture, such that the conditions and steps of forming these products allow for use of the conjugate mixture as a vaccine, including but not limited to use as a vaccine against various pathogens including for treatment of diseases caused by novel coronaviruses (including SARS-COV 2).

The present disclosure provides compositions and methods for detecting the presence of neutralizing antibodies in a sample. Unlike conventional assays, the methods provided herein do not require the use of live virus or virus pseudoparticles to identify neutralizing antibodies.

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.

The present disclosure provides particles for delivering a nucleic acid that encodes an immunogenic peptide in an antigen presenting cell. The disclosed particles can function as a vaccine and can be used to treat or prevent a viral or bacterial infection in a subject by expressing in vivo an immunogenic peptide, thereby stimulating the subject's immune system to attack the virus or bacteria that naturally express the immunogenic peptide.

Plants and plant produced compositions which include Coronavirus S proteins are disclosed. These may be used as vaccines, boosters or immune modulators. The compositions have been shown to reduce the inflammatory cytokine response by altering cytokine levels when administered to an animal. The compositions may be used as an immune modulator to reduce/ameliorate or prevent the cytokine storm often associated with Coronavirus or other virus infection. The compositions may also be used to produce additive protection when administered with any vaccine composition to increase vaccine effectiveness. The compositions when used as vaccines have been shown to protect newborn animals through passive immunity.

A recombinant protein and a vaccine composition for porcine epidemic diarrhea (PED) are provided. The recombinant protein is a fusion protein formed by connecting the truncated segment of S protein (Spike protein) from porcine epidemic diarrhea virus (PEDV) in tandem with the Fc fragment of porcine IgG, and the truncated fragment of S protein is preferably selected from N-terminal domain (NTD) with sialic acid binding activity in S1 subunit of S protein, neutralizing epitope domain (COE) and multiple B-cell epitopes in S2 subunit; the vaccine composition contains recombinant protein and adjuvants. The recombinant protein of the application can produce IgG antibody and neutralizing antibody titers of rather high level after immunizing mice, and the proportions of CD3.sup.+CD4.sup.+, CD3.sup.+CD8.sup.+ lymphocytes and the concentrations of IFN-γ and IL-4 in lymphocytes are significantly increased.

This document provides methods and materials related to selected severe acute respiratory distress coronavirus 2 (SARS-CoV-2) polypeptides. For example, this document provides vaccine compositions that contain one or more selected SARS-CoV-2 polypeptides provided herein and that have the ability to induce or increase immune responses against coronaviruses such as SARS-CoV-2 within a mammal (e.g., a human).