Provided is an African swine fever virus chimeric protein. The chimeric protein comprises: (1) an African swine fever virus p72 domain I; (2) an African swine fever virus p72 domain II; (3) an African swine fever virus p72 domain III; and (4) an African swine fever virus antigenic protein. By using African swine fever virus p72 protein as a skeleton, the chimeric protein provided in the present invention will exhibit antigenic epitopes of African swine fever virus antigenic proteins p54, p30, CD2v, and p12, achieve a good immune effect, and can produce significant humoral and cell-mediated immune response.

Provided herein are details on the construction of a recombinant African Swine Fever Virus (ASFV) live attenuated vaccine for prevention of ASF caused by various strains of ASFV, such as the highly virulent Georgia 2007 isolate (“ASFV-G”). An exemplary vaccine comprises the ASFV-GΔA137R modified virus, a recombinant ASFV-G modified by deleting a portion of the A137R ORF rendering the A137R gene nonfunctional.

The present invention relates to attenuated African Swine Fever Viruses. The attenuated viruses protect pigs against subsequent challenge with virulent virus. The present invention also relates to the use of such attenuated viruses to treat and/or prevent African Swine Fever.

A recombinant vector containing the immunogenic protein of African swine fever virus, a recombinant bacterium and use thereof, and relates to the technical field of gene recombination. The recombinant vector can be used to construct a recombinant Lactobacillus expressing the immunogenic protein of African swine fever virus, and after mixing the Lactobacillus solution that can secrete protein p72 and protein p54, respectively, an oral live bacterial preparation for preventing African swine fever can be prepared. The oral live bacteria preparation prepared by the disclosure can safely, effectively and quickly prevent the infection of African swine fever virus to pigs, and does not contain an immune process.

African swine fever virus (ASFV) is the etiological agent of a contagious, often lethal viral disease of domestic pigs. The control of African Swine Fever (ASF) has been hampered by the unavailability of vaccines. Experimental vaccines have been derived from naturally occurring, cell culture-adapted, or genetically modified live attenuated ASFVs; however, these vaccines are only successful when protecting against homologous viruses. We have constructed a recombinant Δ9GL/ΔUK virus derived from the highly virulent ASFV Georgia 2007 (ASFV-G) isolate by deleting the specific virulence-associated 9GL (B119L) and the UK (DP96R) genes. In vivo, ASFV-G Δ9GL/ΔUK administered intramuscularly to swine even at relatively high doses (10.sup.6 HAD.sub.50) does not induce disease. Importantly, animals infected with 10.sup.4 or 10.sup.6 HAD.sub.50 are solidly protected against the presentation of clinical disease when challenged at 28 days post infection with the virulent parental strain Georgia 2007.

An aspect of the present invention is related to nucleic acid constructs capable of expressing at least one African swine fever virus (ASFV) antigen that elicits an immune response in a mammal against ASFV virus, and methods of use thereof.

Provided herein are details on the construction of a recombinant African Swine Fever Virus (ASFV) live attenuated vaccine for prevention of ASF caused by various strains of ASFV, such as the highly virulent Georgia 2007 isolate (“ASFV-G”). An exemplary vaccine comprises the ASFV-GΔA137R modified virus, a recombinant ASFV-G modified by deleting a portion of the A137R ORF rendering the A137R gene nonfunctional.

The present invention relates to attenuated African Swine Fever viruses. The attenuated viruses protect pigs against subsequent challenge with virulent virus. The present invention also relates to the use of such attenuated viruses to treat and/or prevent African Swine Fever.

A method for generating progeny of an African swine fever (ASF) virus includes providing an isolated or purified fetal porcine lung alveolar macrophage cell capable of replicating the ASF virus, wherein the cell is cultured for at least 5 passages; exposing the cell to the ASF virus; and allowing the ASF virus to replicate in the cell; thereby generating progeny of the ASF virus.

The present invention relates to an attenuated African Swine Fever (ASF) virus, wherein: ?genes MGF 360-12L, 360-13L, 360-14L, 505-2R, 505-3R are deleted or are interrupted or mutated such that the genes are not transcribed and/or translated, ? ORF of ASFV_G_ACD_00520 is deleted or is interrupted or mutated such that it is not transcribed and/or translated, and ? genes MGF 505-1 R et 505-4R are truncated, compared to the genome of the corresponding unattenuated virus. The present invention also refers to a vaccine comprising the attenuated ASF virus, and its use in preventing African Swine Fever in a subject. The present invention also relates to an in-vitro method for obtaining the attenuated ASF virus, which comprises at least one step of thermal-attenuation of a virulent ASFV virus strain selected among Georgia 2007/1, Pig/HLJ/2018, a strain of ASF virus of genotype II or a genetically close ASF virus strain, and amplification by inoculation of Specific-Pathogen-Free pigs and selecting said attenuated ASF virus. The present invention refers to an in vitro method for the differential detection of the attenuated ASF virus and of the corresponding non-attenuated ASF virus as well.