[1] |
DIXON L K,CHAPMAN D A G,NETHERTON C L,et al.African swine fever virus replication and genomics[J].Virus Res,2013,173(1):3-14.
|
[2] |
MALOGOLOVKIN A,KOLBASOV D.Genetic and antigenic diversity of African swine fever virus[J].Virus Res,2019,271:197673.
|
[3] |
GE S Q,LI J M,FAN X X,et al.Molecular characterization of African swine fever virus,China,2018[J].Emerg Infect Dis,2018,24(11):2131-2133.
|
[4] |
CACKETT G,MATELSKA D,SÝKORA M,et al.The African swine fever virus transcriptome[J].J Virol,2020,94(9):e00119-20.
|
[5] |
ZHU Z Z,CHEN H T,LIU L,et al.Classification and characterization of multigene family proteins of African swine fever viruses[J].Brief Bioinform,2021,22(4):bbaa380.
|
[6] |
FARLOW J,DONDUASHVILI M,KOKHREIDZE M,et al.Intra-epidemic genome variation in highly pathogenic African swine fever virus (ASFV) from the country of Georgia[J].Virol J,2018,15(1):190.
|
[7] |
DIXON L K,ISLAM M,NASH R,et al.African swine fever virus evasion of host defences[J].Virus Res,2019,266:25-33.
|
[8] |
O’DONNELL V,HOLINKA L G,GLADUE D P,et al.African swine fever virus Georgia isolate harboring deletions of MGF360 and MGF505 genes is attenuated in swine and confers protection against challenge with virulent parental virus[J].J Virol,2015,89(11):6048-6056.
|
[9] |
郭泽恒.非洲猪瘟病毒MGF360-13L蛋白通过cGAS-STING信号通路抑制Ⅰ型干扰素的产生[D].武汉:华中农业大学,2021.GUO Z H.African swine fever virus MGF360-13L inhibited type I interferon production through cGAS-STING pathway[D].Wuhan:Huazhong Agricultural University,2021.(in Chinese)
|
[10] |
KUPRASH D V,NEDOSPASOV S A.Molecular and cellular mechanisms of inflammation[J].Biochemistry (Mosc),2016,81(11):1237-1239.
|
[11] |
CORREIA S,VENTURA S,PARKHOUSE R M.Identification and utility of innate immune system evasion mechanisms of ASFV[J].Virus Res,2013,173(1):87-100.
|
[12] |
LI D,YANG W P,LI L L,et al.African swine fever virus MGF-505-7R negatively regulates cGAS–STING-mediated signaling pathway[J].J Immunol,2021,206(8):1844-1857.
|
[13] |
LI D,LIU Y G,QI X L,et al.African swine fever virus MGF-110-9L-deficient mutant has attenuated virulence in pigs[J].Virol Sin,2021,36(2):187-195.
|
[14] |
潘 力,罗 瑞,王 涛,等.非洲猪瘟病毒研究进展:组学视角[J].病毒学报,2022,38(2):246-256.PAN L,LUO R,WANG T,et al.Advances in African swine fever virus research:An omics view[J].Chinese Journal of Virology,2022,38(2):246-256.(in Chinese)
|
[15] |
URBANO A C,FERREIRA F.Role of the DNA-binding protein pA104R in ASFV genome packaging and as a novel target for vaccine and drug development[J].Vaccines (Basel),2020,8(4):585.
|
[16] |
O’DONNELL V,RISATTI G R,HOLINKA L G,et al.Simultaneous deletion of the 9GL and UK genes from the African swine fever virus Georgia 2007 isolate offers increased safety and protection against homologous challenge[J].J Virol,2016,91(1):e01760-16.
|
[17] |
BORCA M V,RAMIREZ-MEDINA E,SILVA E,et al.Development of a highly effective African swine fever virus vaccine by deletion of the I177L gene results in sterile immunity against the current epidemic Eurasia strain[J].J Virol,2020,94(7):e02017-19.
|
[18] |
RAMIREZ-MEDINA E,VUONO E A,RAI A,et al.Evaluation in swine of a recombinant African swine fever virus lacking the MGF-360-1L gene[J].Viruses,2020,12(10):1193.
|
[19] |
RAMIREZ-MEDINA E,VUONO E,PRUITT S,et al.X69R is a non-essential gene that,when deleted from African swine fever,does not affect virulence in swine[J].Viruses,2020,12(9):918.
|
[20] |
GALINDO I,ALONSO C.African swine fever virus:A review[J].Viruses,2017,9(5):103.
|
[21] |
黄 瑶,赵 军,曾喻兵,等.非洲猪瘟病毒调控宿主细胞因子表达水平的研究进展[J].病毒学报,2021,37(6):1484-1490.HUANG Y,ZHAO J,ZENG Y B,et al.Research advances in regulation of expression of cytokines in hosts by the African swine fever virus[J].Chinese Journal of Virology,2021,37(6):1484-1490.(in Chinese)
|
[22] |
HAMIDZADEH K,CHRISTENSEN S M,DALBY E,et al.Macrophages and the recovery from acute and chronic inflammation[J].Annu Rev Physiol,2017,79:567-592.
|
[23] |
BORCA M V,O’DONNELL V,HOLINKA L G,et al.The L83L ORF of African swine fever virus strain Georgia encodes for a non-essential gene that interacts with the host protein IL-1β[J].Virus Res,2018,249:116-123.
|