[1] 胡鸿惠,娄高明.猪瘟疫苗研究进展[J].中国畜牧兽医,2012,39(4):196-200. HU H H,LOU G M.Research progress of the vaccine of classical swine fever[J].China Animal Husbandry & Veterinary Medicine,2012,39(4):196-200.(in Chinese)
[2] 刘萍.猪瘟疫苗的研究进展[J].中国畜牧兽医,2008,35(7):95-98. LIU P.Research strategy on the vaccine of classical swine fever[J].China Animal Husbandry & Veterinary Medicine,2008,35(7):95-98.(in Chinese)
[3] 张双,郭慧,徐浩,等.新型猪瘟疫苗的研究进展[J].中国兽医杂志,2015,51(1):72-75. ZHANG S,GUO H,XU H,et al.Research progress on new swine fever vaccine[J] Chinese Journal ofVeterinary Medicine,2015,51(1):72-75.(in Chinese)
[4] HULIST M M,WESTRA D F,WENVOORT G,et al.Glycoprotein E2 of hog cholera virus expressed in insect cells protects swine from hog cholera[J].Journal Virology,1993,67(9):5435-5442.
[5] ZHANG H W,LI X M,PENG G Q,et al.Glycoprotein E2 of classical swine fever virus expressed by baculovirus induces the protective immune responses in rabbits[J].Vaccine,2014,32(49):6607-6613.
[6] MADERA R,GONG W J,WANG L H,et al.Pigs immunized with a novel E2 subunit vaccine are protected from subgenotype heterologous classical swine fever virus challenge[J].Veterinary Research,2016,12(1):197-207.
[7] 杨贺,李余先,李晓微,等.猪瘟表面抗原E2-Erns蛋白在亚麻芥种子中的表达及活性分析[J].基因组学与应用生物学,2017,36(10):4212-4216. YANG H,LI Y X,LI X W,et al.Expression and activity analysis of swine fever surface antigen E2-Erns protein in seeds of Camelina sativa[J].Genomics and Applied Biology,2017,36(10):4212-4216.(in Chinese)
[8] 黄德尚,郭爱珍.黄芪多糖佐剂对猪瘟疫苗免疫效果的影响[J].中国畜牧兽医,2011,38(6):189-192. HUANG D S,GUO A Z.Effects of immunity in astragalan adjuvan on swine plague vaccine on piglets[J].China Animal Husbandry & Veterinary Medicine,2011,38(6):189-192.(in Chinese)
[9] XU Y G,GUAN X T,LIU Z M,et al.Immunogenicity in swine of orally administered recombinant Lactobacillus plantarum expressing classical swine fever virus E2 protein in conjunction with thymosin α-1 as an adjuvan[J].Applied & Environmental Microbiology,2015,81(11):3745-3752.
[10] MUÑOZ-GONZÁLEZ S,SORDO Y,PÉREZ-SIMÓ M,et al.Corrigendum to "Efficacy of E2 glycoprotein fused to porcine CD154 as a novel chimeric subunit vaccine to prevent classical swine fever virus vertical transmission in pregnant sows"[J].Veterinary Microbiology,2017,213:143-149.
[11] 李世芳,刘泽众,常惠芸.细胞因子佐剂研究进展[J].中国畜牧兽医,2017,44(1):296-301. LI S F,LIU Z Z,CHANG H F.Research progress on cytokine adjuvants[J].China Animal Husbandry &Veterinary Medicine,2017,44(1):296-301.(in Chinese)
[12] ANDREW M E,MORRISSY C J,LENGHAUS C,et al.Protection of pigs against classical swinefever with DNA-delivered gp55[J].Vaccine,2000,18(18):1932-1938.
[13] HAMMOND J M,JANSEN E S,MORRISSY C J,et al.A prime-boost vaccination strategy using naked DNA followed by recombinant porcine adenovirus protects pigs from classical swine fever[J].Veterinary Microbiology,2001,80(2):101-119.
[14] 许信刚,胡建和,张彦明.猪瘟病毒DNA疫苗的构建及动物免疫试验[J].中国农学通报,2005,21(3):9-11. XU X G,HU J H,ZHANG Y M.Construction of DNA vaccine for swine fever virus and animal immunity test[J].Chinese Agriculture Bulletin,2005,21(3):9-11.(in Chinese)
[15] 李娜,孙元,仇华吉.猪瘟DNA疫苗研究进展[J].生物工程学报,2010,26(3):281-289. LI N,SUN Y,CHOU H J.Progress in research on DNA vaccine for swine fever[J].Journal of Bioengineering,2010,26(3):281-289.(in Chinese)
[16] ZHAO H P,SUN J F,LI N,et al.Assessment of the cell-mediated immunity induced by alphavirus replicon-vectored DNA vaccines against classical swine fever in a mouse model[J].Veterinary Immunology and Immunopathology,2009,129(1):57-65.
[17] 孙元,刘大飞,王宇飞,等.表达猪瘟病毒E2蛋白的重组腺病毒对猪的免疫效力评价[J].中国动物传染病报,2009,17(1):15-21. SUN Y,LIU D F,WANG Y F,et al.To evaluate the immunological efficacy of the recombinant adenovirus of E2 protein in swine fever[J].China Animal Epidemic Report,2009,17(1):15-21.(in Chinese)
[18] LI W I,MAO L,ZHOU B,et al.The swine CD81 enhances E2-based DNA vaccination against classical swine fever[J].Vaccine,2015,33(30):3542-3548.
[19] TIAN D Y,SUN Y,WAI S F,et al.Enhancement of the immunogenicity of an alphavirus replicon-based DNA vaccine against classical swine fever by electroporation and coinjection with a plasmid expressing porcine interleukin 2[J].Vaccine,2012,30(21):3587-3594.
[20] 史雪萍,樊晓旭.提高DNA疫苗免疫效果研究进展[J].中国兽医杂志,2016,52(9):60-62. SHI X P,FAN X X.Advances in improving DNA vaccine immunity[J].Chinese Journal of Veterinary Medicine,2016,52(9):60-62.(in Chinese)
[21] 赵佳琪,马春平,张东红,等.核酸疫苗免疫机制研究新进展[J].吉林医药学院学报,2017,38(5):378-380. ZHAO J Q,MA C P,ZHANG D H,et al.New advances in research on immunization mechanism of nucleic acid vaccine[J].Journal of Jilin Medical University,2017,38(5):378-380.(in Chinese)
[22] 杨海,王芳宇.DNA疫苗的研究进展[J].中国畜牧兽医,2013,40(1):72-76. YANG H,WANG F Y.Research progress of DNA vaccine[J].China Animal Husbandry & Veterinary Medicine,2013,40(1):72-76.(in Chinese)
[23] 王养会,李谱华,张淼涛,等.表达猪瘟病毒石门株E0基因重组鸡痘病毒的构建及动物免疫试验[J].病毒学报,2008,11(1):59-63. WANG Y H,LI P H,ZHANG M T,et al.The construction of E0 gene recombinant chicken pox virus and animal immunity test were expressed[J].Journal of Virus,2008,11(1):59-63.(in Chinese)
[24] 李谱华,张淼涛,王养会,等.猪瘟病毒E2基因重组鸡痘病毒的构建及免疫保护试验[J].上海交通大学学报(农业科学版),2009,27(2):96-100. LI P H,ZHANG M T,WANG Y H,et al.The establishment and immunological protection test of recombinant chicken pox virus in E2 gene of swine fever virus[J].Journal of Shanghai Jiaotong University (Agricultural Science Edition),2009,27(2):96-100.(in Chinese)
[25] LIN H,MA Z,CHEN L,et al.Recombinant swinepox virus expressing glycoprotein E2 of classical swine fever virus confers complete protection in pigs upon viral challenge[J].Frontiers in Veterinary Science,2017,4:81.
[26] WANG Y,YUAN J,CONG X,et al.Generation and efficacy evaluation of a recombinant pseudorabies virus variant expressing the E2 protein of classical swine fever virus in pigs[J].Clinical and Vaccine Immunology,2015,22(10):1121-1129.
[27] LEI J L,XIA S L,WANG Y,et al.Safety and immunogenicity of a gE/gI/TK gene-deleted pseudorabies virus variant expressing the E2 protein of classical swine fever virus in pigs[J].Immunology Letters,2016,174:63-71.
[28] SUN Y,LIU D F,WANG Y F,et al.Generation and efficacy evaluation of a recombinant adenovirus expressing the E2 protein of classical swine fever virus[J].Research in Veterinary Science,2010,88(1):77-82.
[29] SUN Y,LI N,LI H Y,et al.Enhanced immunity against classical swine fever in pigs induced by prime-boost immunization using an alphavirus replicon-vectored DNA vaccine and a recombinant adenovirus[J].Veterinary Immunology and Immunopathology,2010,137(2):20-27.
[30] SUN Y,TIAN D Y,LI S,et al.Comprehensive evaluation of the adeno virus/alphavirus-replicon chimeric vector-based vaccine rAdV-SFV-E2 against classical swine fever[J].Research in Veterinary Science,2013,31(3):538-544.
[31] XIA S L,LEI J L,DU M L,et al.Enhanced protective immunity of the chimeric vector-based vaccine rAdV-SFV-E2 against classical swine fever in pigs by a Salmonella bacterial ghost adjuvant[J].Veterinary Research,2016,47(1):47-64.
[32] 刘元杰,邹兴启,徐璐,等.基于Erns和E2基因的猪瘟标记疫苗研究概述[J].微生物学通报,2017,44(12):3038-3044. LIU Y J,ZOU X Q,XU L,et al.Overview of researches on CSF marker vaccine based on Erns and E2[J].Microbiology China,2017,44(12):3038-3044.(in Chinese)
[33] HOLINKA L G,DONNELL V,GUILLERMO R,et al.Early protection events in swine immunized with an experimental live attenuated classical swine fever marker vaccine,FlagT4G[J].PLoS One,2017,12(5):e0177433.
[34] FREY C F,BAUHOFER O,RUGGLI N,et al.Classical swine fever virus replicon particles lacking the Erns gene:A potential marker vaccine for intradermal application[J].Veterinary Research,2006,37(5):655-670.
[35] RUGGLI N,SUMMERFIELD A,FIEBACH A R,et al.Classical swine fever virus can remain virulent after specific elimination of the interferon regulatory factor 3-degrading function of Npro[J].Journal of Virology,2009,83(2):817-829.
[36] LI Y F,SHEN L S,SUN Y,et al.Effects of the nuclear localization of the N(pro) protein of classical swine fever virus on its virulence in pigs[J].Veterinary Microbiology,2014,174(4):391-398.
[37] VELAZQUEZ-SALINAS L,RISATTI G R,HOLINKA L G,et al.Recoding structural glycoprotein E2 in classical swine fever virus (CSFV) produces complete virus attenuation in swine and protects infected animals against disease[J].Virology,2016,494:178-189.
[38] PARK G S,LIM S I,HONG S H,et al.Establishment and characterization of an infectious cDNA clone of a classical swine fever virus LOM strain[J].Veterinary Microbiology,2012,13(1):81-91.
[39] ZHAO T S,XIA Y H.Establishment and characterization of a chimeric infectious cDNA clone of classical swine fever virus[J].Acta Virologica,2016,60(2):201-205.
[40] LI Y F,WANG X,SUN Y,et al.Generation and evaluation of a chimeric classical swine fever virus expressing a visible marker gene[J].Archives of Virology,2016,161(3):563-571.
[41] LI L,PANG H N,WU R,et al.Development of a novel single-step reverse genetics system for the generation of classical swine fever virus[J].Archives of Virology,2016,161(7):1831-1838.
[42] WU R,LI L,ZHAO Y,et al.Identification of two amino acids within E2 important for the pathogenicity of chimeric classical swine fever virus[J].Virus Research,2016,211(4):79-85.
[43] ZHOU B,LIU H,LIANG Y,et al.Multiple linear B-cell epitopes of classical swine fever virus glycoprotein E2 expressed in E.coli as multiple epitope vaccine induces a protective immune response[J].Virology Journal,2011,8(1):1-5.
[44] FERNÁNDEZ E,TOLEDO J R,LIDICE M,et al.Conformational and thermal stability improvements for the large-scale production of yeast-derived rabbit hemorrhagic disease virus-like particles as multipurpose vaccine[J].PLoS One,2013,8(2):e56417.
[45] TIAN H,HOU X M,WU J Y,et al.A promising multiple-epitope recombinant vaccine against classical swine fever virus[J].Veterinary Immunology and Immunopathology,2014,157(1-2):59-64.
[46] WANG C Y,LI S J,JIA H J,et al.Monoclonal and oligoclonal TCR AV and BV gene usage in CD4+ T cells from pigs immunised with C-strain CSFV vaccine[J].Scientific Reports,2018,8(1):1655.
[47] 李世芳,邵军军,常慧芸.口蹄疫表位疫苗的研究进展[J].中国畜牧兽医,2017,44(2):396-401. LI S F,SHAO J J,CHANG H Y.Research progress on the epitope-based vaccine against foot and mouth disease[J].China Animal Husbandry & Veterinary Medicine,2017,44(2):396-401.(in Chinese) |