Classical swine fever virus C-strain with eight mutation sites shows enhanced cell adaptation and protects pigs from lethal challenge

[1]  W. Fang,et al.  E2 and Erns of classical swine fever virus C-strain play central roles in its adaptation to rabbits , 2019, Virus Genes.

[2]  C. Li,et al.  The E2 glycoprotein is necessary but not sufficient for the adaptation of classical swine fever virus lapinized vaccine C-strain to the rabbit. , 2018, Virology.

[3]  W. Fang,et al.  Continuous Passaging of a Recombinant C-Strain Virus in PK-15 Cells Selects Culture-Adapted Variants that Showed Enhanced Replication but Failed to Induce Fever in Rabbits. , 2017, Journal of microbiology and biotechnology.

[4]  M. Beer,et al.  Classical Swine Fever—An Updated Review , 2017, Viruses.

[5]  W. Fang,et al.  Hypervariable antigenic region 1 of classical swine fever virus E2 protein impacts antibody neutralization. , 2016, Vaccine.

[6]  Z. Pan,et al.  Identification of two amino acids within E2 important for the pathogenicity of chimeric classical swine fever virus. , 2016, Virus research.

[7]  Cheng-qiang He,et al.  Studying classical swine fever virus: making the best of a bad virus. , 2015, Virus research.

[8]  H. Qiu,et al.  Classical swine fever in China: a minireview. , 2014, Veterinary microbiology.

[9]  H. Crooke,et al.  Challenge of Pigs with Classical Swine Fever Viruses after C-Strain Vaccination Reveals Remarkably Rapid Protection and Insights into Early Immunity , 2012, PloS one.

[10]  Jinrong Peng,et al.  Antigenic analysis of classical swine fever virus E2 glycoprotein using pig antibodies identifies residues contributing to antigenic variation of the vaccine C-strain and group 2 strains circulating in China , 2010, Virology Journal.

[11]  M. Beer,et al.  CP7_E2alf: a safe and efficient marker vaccine strain for oral immunisation of wild boar against Classical swine fever virus (CSFV). , 2007, Vaccine.

[12]  Tong Guang-zhi,et al.  The Lapinized Chinese Strain of Classical Swine Fever Virus: a Retrospective Review Spanning Half a Century , 2005 .

[13]  Matthias Schweizer,et al.  Genetic and antigenic characterization of novel pestivirus genotypes: implications for classification. , 2003, Virology.

[14]  V. Kaden,et al.  Oral immunisation against classical swine fever (CSF): onset and duration of immunity. , 2001, Veterinary microbiology.

[15]  V. Kaden,et al.  Classical swine fever (CSF): a historical review of research and vaccine production on the Isle of Riems. , 2001, Berliner und Munchener tierarztliche Wochenschrift.

[16]  M. Hulst,et al.  Passage of Classical Swine Fever Virus in Cultured Swine Kidney Cells Selects Virus Variants That Bind to Heparan Sulfate due to a Single Amino Acid Change in Envelope Protein Erns , 2000, Journal of Virology.

[17]  J. Tratschin,et al.  Analysis of classical swine fever virus replication kinetics allows differentiation of highly virulent from avirulent strains. , 2000, Veterinary microbiology.

[18]  P. V. van Rijn,et al.  Infectious RNA transcribed from an engineered full-length cDNA template of the genome of a pestivirus , 1996, Journal of virology.

[19]  J. Dahle,et al.  Assessment of safety and protective value of a cell culture modified strain "C" vaccine of hog cholera/classical swine fever virus. , 1995, Berliner und Munchener tierarztliche Wochenschrift.

[20]  H. Thiel,et al.  Hog cholera virus: molecular composition of virions from a pestivirus , 1991 .

[21]  H. Thiel,et al.  Molecular characterization of hog cholera virus. , 1991, Archives of virology. Supplementum.

[22]  M. Hulst,et al.  Molecular cloning and nucleotide sequence of hog cholera virus strain Brescia and mapping of the genomic region encoding envelope protein E1. , 1990, Virology.

[23]  Marian C. Horzinek,et al.  Recent advances in pestivirus research. , 1989, The Journal of general virology.

[24]  G. Wensvoort,et al.  The protective value of vaccine-induced neutralising antibody titres in swine fever. , 1988, Veterinary microbiology.