抗猪伪狂犬病病毒的中草药制剂筛选
摘要
本文收集了大量的资料和文献,对猪伪狂犬病病毒分子生物学特性,以及猪伪狂犬病流行病学、临床症状、病理变化等方面进行了系统的综述。并用多种试验对抗猪伪狂犬病病毒的中草药的进行筛选。试验前期采用了包括PK-15细胞株的培养,PRV的TCID50进行测定,小鼠血清对PK-15细胞的安全浓度测定的方法。试验用三种用药的方法,对抗猪伪狂犬病病毒的中草药的进行筛选,第一种为先加药再加病毒,第二种为先加病毒后加药物,第三种是将病毒和药物作用一段时间后同时加入。通过观察细胞病变(CPE)和MTT法测算细胞保护率获得以下结果。
试验结果得知猪伪狂犬病病毒在PK-15细胞上TCID50为10-3.50.1ml,即该病毒3162倍稀释液0.1ml等于一个TCID50;含药小鼠血清在PK-15细胞上的安全浓度为1.25%;三种用药的方式的结果存在差异,第一种为先加药再加病毒,以黄芪、贯众、射干、蟾酥抗猪伪狂犬病病毒效果最佳,其保护率分别为94.08%、93.89%、97.33%、95.12;金银花、灰树花次之,其保护率分别为65.51%、35.50%;野菊花、昆布、金丝桃等效果最差,其保护率分别为6.70%、17.46%、12.31%。第二种为先加病毒后加药物,野菊花、射干抗猪伪狂犬病病毒效果最佳,其保护率分别为94.18%、98.35%;板蓝根、贯众、莪术次之,其保护率分别为49.49%。50.82%、52.78%。;灰树花、昆布、金丝桃等效果最差,其保护率分别为5.75% 10.49% 6.57%。第三种是将病毒和药物作用一段时间后同时加入。野菊花、射干、金银花抗猪伪狂犬病病毒效果最佳,其保护率分别为97.46%97.59%、80.51%;板蓝根、夏枯草次之,其保护率分别为47.66%。、49.60%;黄芪、贯众、金丝桃等效果最差,其保护率分别为10.77%、5.27%、4.17%。
三种作用方式得出结果,野菊花和射干药物能够抑制病毒,对细胞的保护率较高。
本试验通过三种不同的用药方法,筛选抗猪伪狂犬病的中草药。为生产实践提供参考依据。
We collected a lot of information and literature, against the pseudorabies virus molecular biology, epidemiology, clinical symptoms, pathological changes in other aspects of the system are reviewed. With a variety of tests against pseudorabies virus screening of Chinese herbs. PK-15 cell lines, including training; PRV's TCID50 were determined; use three methods of medication against the pseudorabies virus screening of Chinese herbal medicine, the first for the first dosing plus virus, the second after the first drug is added to increase the virus, the third is the role of the virus and drugs after a period of time is also added. By observing cytopathic (CPE) and the measured OD value of MTT method, with the formula, according to the degree of CPE and MTT OD values measured to judge the results. Results revealed that the pseudorabies virus in PK-15 cells TCID50 for the 10-3.50.1ml, that is 3162-fold dilution of the virus,0.1ml is equal to 1 TCID50; with drug serum PK-15 cells in the safety of the concentration 1.25%; three kinds of drugs the way the results were different, the first virus for the first dosing coupled to Astragalus, Guanzhong, Shegan, toad venom anti-pseudorabies virus best. The protection rate was 94.08%,93.89%,97.33%,95.12%. Honeysuckle, Grifola second, the protection rate was 65.51%,35.50%. Chrysanthemum, kelp, hypericin and so the worst, the protection rate was 6.70%,17.46%,12.31%. After the first plus the second drug is added to the virus, wild chrysanthemum, Shegan anti-pseudorabies virus and is the best protection rate was 94.18%,94.18%. Banlangen, Guanzhong, Curcuma second, the protection rate was 49.49 percent.50.82%,50.78%. Frondosa, kelp, hypericin and so the worst, the protection rate was 10.49% 5.75% 6.57%. The third is the role of the virus and drugs after a period of time is also added. Chrysanthemum, Shegan, honeysuckle against pseudorabies virus and is the best protection rate was 97.46%,97.57%,80.51%. Banlangen, Prunella second, the protection rate was 47.66%.,49.60%. Astragalus, Guanzhong, hypericin and so the worst, the protection rate was 10.77%,5.27%,4.17%. The outcome of three modes of action, wild chrysanthemum and Shegan drugs to inhibit virus protection on the cells is higher. In this experiment, three different application methods, selection of herbal anti-pseudorabies. Provide a reference for the production practice.
试验结果得知猪伪狂犬病病毒在PK-15细胞上TCID50为10-3.50.1ml,即该病毒3162倍稀释液0.1ml等于一个TCID50;含药小鼠血清在PK-15细胞上的安全浓度为1.25%;三种用药的方式的结果存在差异,第一种为先加药再加病毒,以黄芪、贯众、射干、蟾酥抗猪伪狂犬病病毒效果最佳,其保护率分别为94.08%、93.89%、97.33%、95.12;金银花、灰树花次之,其保护率分别为65.51%、35.50%;野菊花、昆布、金丝桃等效果最差,其保护率分别为6.70%、17.46%、12.31%。第二种为先加病毒后加药物,野菊花、射干抗猪伪狂犬病病毒效果最佳,其保护率分别为94.18%、98.35%;板蓝根、贯众、莪术次之,其保护率分别为49.49%。50.82%、52.78%。;灰树花、昆布、金丝桃等效果最差,其保护率分别为5.75% 10.49% 6.57%。第三种是将病毒和药物作用一段时间后同时加入。野菊花、射干、金银花抗猪伪狂犬病病毒效果最佳,其保护率分别为97.46%97.59%、80.51%;板蓝根、夏枯草次之,其保护率分别为47.66%。、49.60%;黄芪、贯众、金丝桃等效果最差,其保护率分别为10.77%、5.27%、4.17%。
三种作用方式得出结果,野菊花和射干药物能够抑制病毒,对细胞的保护率较高。
本试验通过三种不同的用药方法,筛选抗猪伪狂犬病的中草药。为生产实践提供参考依据。
We collected a lot of information and literature, against the pseudorabies virus molecular biology, epidemiology, clinical symptoms, pathological changes in other aspects of the system are reviewed. With a variety of tests against pseudorabies virus screening of Chinese herbs. PK-15 cell lines, including training; PRV's TCID50 were determined; use three methods of medication against the pseudorabies virus screening of Chinese herbal medicine, the first for the first dosing plus virus, the second after the first drug is added to increase the virus, the third is the role of the virus and drugs after a period of time is also added. By observing cytopathic (CPE) and the measured OD value of MTT method, with the formula, according to the degree of CPE and MTT OD values measured to judge the results. Results revealed that the pseudorabies virus in PK-15 cells TCID50 for the 10-3.50.1ml, that is 3162-fold dilution of the virus,0.1ml is equal to 1 TCID50; with drug serum PK-15 cells in the safety of the concentration 1.25%; three kinds of drugs the way the results were different, the first virus for the first dosing coupled to Astragalus, Guanzhong, Shegan, toad venom anti-pseudorabies virus best. The protection rate was 94.08%,93.89%,97.33%,95.12%. Honeysuckle, Grifola second, the protection rate was 65.51%,35.50%. Chrysanthemum, kelp, hypericin and so the worst, the protection rate was 6.70%,17.46%,12.31%. After the first plus the second drug is added to the virus, wild chrysanthemum, Shegan anti-pseudorabies virus and is the best protection rate was 94.18%,94.18%. Banlangen, Guanzhong, Curcuma second, the protection rate was 49.49 percent.50.82%,50.78%. Frondosa, kelp, hypericin and so the worst, the protection rate was 10.49% 5.75% 6.57%. The third is the role of the virus and drugs after a period of time is also added. Chrysanthemum, Shegan, honeysuckle against pseudorabies virus and is the best protection rate was 97.46%,97.57%,80.51%. Banlangen, Prunella second, the protection rate was 47.66%.,49.60%. Astragalus, Guanzhong, hypericin and so the worst, the protection rate was 10.77%,5.27%,4.17%. The outcome of three modes of action, wild chrysanthemum and Shegan drugs to inhibit virus protection on the cells is higher. In this experiment, three different application methods, selection of herbal anti-pseudorabies. Provide a reference for the production practice.
引文
[1]姚卫东,田荣福,于国明.猪伪狂犬病毒的分子生物学进展[J].黑龙江畜牧兽医,2002,4:44-45.
[2]TC Mettenleiter.The progress of PRV and the cause of molecular pathygenesis[J].Vet Res,2000,31:99-115
[3]娄高明.伪狂犬病分子生物学诊断方法[J].动物医学进展,2000,2(110):31-35.
[4]Maes R,Beisel C,Spatz S,et al.Polymerase chain reaction amplification of pseudorabies virus DNA from acutely and latently infected cellls [J]. Vet Microbiol,1990,24:281-295.
[5]娄高明,杜伟贤.伪狂犬病流行概况及猪场防制策略[J].中国动物免疫,1999,16(5):43-45.
[6]Gntekunst D E.Latent pseudorabies virus infection in swine detected by RNA-DNA hybridization[J].Am JVet.Res,1979,40:1568-1572.
[7]McFarlane R G, Thawley D G, Solorzano R F.Detection of latent pseudorabies virus in porcine tissue,using a DNA hybridization dot-blot assay[J].Am JVet Res,1986,47:2329-2336.
[8]Maes R K,Spatz S J, Thacker B J.Nonradioactive probes to detect acute and latent pseudorabies virus (Aujeszky"disease)infections[C].Proc 10thIPVS congress,Rio dejaneiro,Brazil.1988.169.
[9]Belak S, Ballagi-pordany A, Flensburg J, et al.Detection of pseudorabies virus DNA sequences by the polymerase chain reaction[J].Arch Virol,1989,108:279-286.
[10]郭万柱,冯炳芳,曹军,等.应用32P标记DNA探针检测伪狂犬病病毒的研究[J].四川农业大学学报,1991,9(1):52-56.
[11]冉智光,童光志.伪狂犬病诊断方法的研究进展[J].中国兽医杂志,2000,37(5):39-41.
[12]娄高明,杜伟贤,郭万柱.猪犬病病毒糖蛋白研究进展[J].广东畜牧兽医科技,1999(4):3-7.
[13]曹兴萍,张以芳,杨培昌,高自寿,饶梅.猪伪狂犬病的血清流行病学调查[J]中国动物检疫,2006,(11):18-21.
[14]刘秀清,郭鑫,赵荣茂,宁金友,才让措,唐文山.猪伪狂犬病野毒感染的血清学调查[J]中国兽医杂志,2006,(07):32-37.
[15]张国华,王荣菊,王晓玲,孙景.西宁市猪伪狂犬病血清学调查[J]中国兽医杂志,2006,(09):44-49.
[16]刘显熠,猪伪狂犬病的临床症状及控制对策[J].中国兽医杂志,2003,1(39):25-26.
[17]崔尚金,猪伪狂犬病的临床症状及病理变化[J].主体策划,2005,04:15-18
[18]陈一帆,猪伪狂犬的病理变化及鉴别诊断.[J]福建畜牧兽医,2006,1:33-37.
[19]赵东升,安福生,刘有昌.猪伪狂犬病的发生特点及其预防控制(二)[J]畜禽业,2008,(07).
[20]潘耀荣.规模猪场伪狂犬病的净化方案[J]今日畜牧兽医,2008,(03).
[21]初秀;法国猪伪狂犬病弱毒疫苗Alfort26株简介[J].中国兽医科技,1986,(12):33-35.
[22]齐萌,饶宝,张家明,陈龙飞,付仁一,尹红轩.猪伪狂犬病诊断技术研究进展[J].河南畜牧兽医(综合 版),2008,(06):75-81.
[23]蒋滢,张波,府伟灵.药物筛选模型的分类及应用[J].国际检验医学志,2007,28(10):918-920:45-47.
[24]胡娟娟,杜冠华.药物筛选模型究进展[J].基础医学与临床,2001.21(4):302-305:44-47.
[25]姚佳,杨建波,杨洁.高通量药物筛选模型[J].药学进展.2004.28(1):5-11.
[26]韩博,陈文,杨春梅.高通量筛选技术在中药研究的应用[J].江西中医学院学报,2005,17(5):36-38.
[27]Lander E S.The New Genomies:Global Views of Biology[J].science,1996,274(5293):1594.1595
[28]Ferriandes PB. Technological advance high-throughput-screen[J]. CurtOpin ChemBiol,1998,2(5): 597-603
[29]Christopher J,Torrance L,vija,et al.Use of isogenie human cancer cells for high throughput screen and durg discovery[J]. Nature Biotechnology,2001,19(10):940-945.
[30]Suto C M, Ignar D M. Selection of an optimal reporter gene for cell-based high throughput screening assays[J].J Biomol Screening,1997,2(4):7-9
[31]Coward P,Humphries G M,Conklin BR,et al,Chimeric proteins allow high-throughput signaling assay of G-coupled receptors [J]. Anal Biochem,1999,270(2):242-248.
[32]DU G H.Strategy of drug development and application of high-throughput-screen[J].Chin JNew Drugs,2002,1(1):31-36
[33]XU ZH, JIANG S.Newmethod of drug screening-high-throughput-screening[J].BullBiol,2003,38 (3): 7-9.
[34]张慧君,陈鸿英,现代生物技术在中药药效研究中的应用[J],2006,1:20-24.
[35]杜冠华,高通量药物筛选在新药研究中的应用[J],2001,21(4):289-294
[36]杜冠华,胡娟娟,夏丽娟,等[J]药物筛选的发展与现,药学学报[J],1998,30:166-169
[37]蒋成全,中药抗病毒作用及其应用[J].中国医药导报,2007,4(15):8-9
[38]刘立超,吕点点,李先磊,高通量筛选在中药研究中的应用[J],2009,4:19-22.
[39]GURWITZ D.HARING R.Ligand-selective signaling and high-content-screening for GPCR drugs[J].DrugDiscovToday,2003,8:1108-1109.
[40]LV Q J.Progress in drug screening technologies[J].ForeignMed Sc(SectPharm),2003,30(3):129-133.
[41]周琳,干扰索-λ在人神经细胞内的表达、调节及抗病毒作用[D]华中科技大学,2009:12-15.
[42]颜邦森,猪白细胞干扰素临床治疗猪瘟及猪病毒性腹泻的效果观察,内江科技[J],1994,2:13-17.
[43]李祥瑞,赵星灿,重组白细胞介素-2提高PRRS抗体阳性猪的猪瘟疫苗免疫效果试验,畜牧与兽医[J],2007,08:25-27.
[44]葛孝忠,应黄慧,陈晓,汪成发,傅红兴.金刚烷类药物的研究进展[J]中国医药工业杂 志,2003,(11):37-41.
[45]谢勇.抗病毒药物曲金刚胺及其类似物的合成[D]四川大学,2006:65-71
[46]张天明,病毒唑的试验及临床研究进展,中国药理学通报[J]1989,01:2-4.
[47]祝丽敏,邓思清,曾涛,熊红莉.利巴韦林气雾剂的研究[J]中国医院药学杂志,1996,(06).
[48]赵金明;王圣符,缩氨脲和缩氨硫脲的合成[J]沈阳化工,1990,6:15-17.
[49]ZHANGHM,LIUX B,etal.Preparation and determina-tion of mitoxantrone-loaded immunonanosphere for anti-hepatoma[J].Isotopes 2001,14(1):1-5.
[50]袁浩龙,阿昔洛韦应用十年概况[J]国外医药,1993,6:9-10.
[51]王慧英,康克非.阿昔洛韦-一种抗疱疹病毒特效药[J]新药与临床,1990,(01):43-46..
[52]王春林,聚肌胞的药理和临床应用[J]江苏医药,1992,5:40-42.
[53]Masamoto Torisu,Hidehiro Murakami,Fazle Akbar,Hidetaka Matsui,Yoichi Hiasa,Bunzo Matsuura,Morikazu Onji. Protecti role ofinterleukin-10-producing regulatory dendritic cells against murine autoimmune gastritis[J] Journal of Gastroenterology,2008,43, (2):56-58.
[54]洪学猪流感和猪感冒的区别及防治[J].农村实用科技信息,2005,(07):42-47..
[55]郑一敏;宋丹;傅善全.阿糖腺苷生物合成的研究[J]重庆中草药研究.2001,2:6-10
[56]甄宇红;徐永平;夏艳秋.卵黄抗体分离、提取和纯化方法研究进展[J].中国饲料,2003,18:8-10.
[57]CARLSSON J,DREVIN H,AXEN R. Protein thiolation and re-versible protein-protein conjugation [J].Biochem J,1978,173(3):723-737.
[58]杨泽林;吴宣;杨晓燕,抗病毒药物在兽医临床的应用及存在的问题[J].广西畜牧兽医,2003,5:30-34.
[59]谢虹,抗病毒病中西药剂的应用[J].兽药与饲料添加剂,2000,5:9-12.
[60]谢虹,抗病毒中西药剂[J].当代畜禽养殖业,2002,3:44-47
[61]李仪奎.中药药理世纪回眸[J].中成药,2000,22:59-63.
[62]杨小林,陈关平.兽用抗菌抗病毒中草药的研究进展[J].长江大学学报,2006,3(2):10-14.
[63]李芳,李建北,张东明.柴胡的药理进展[J].时珍国医国药,2004,15(2):28-32.
[64]张克家,兽医中药的合理开发[J],2003,9:47-52.
[65]陈智伟;吴灵威;刘树涛;毛细管电泳法研究板蓝根水提物抗流感病毒的机制[J]中国中药杂志,2006,20:018.
[66]郑剑玲,王美惠,杨秀珍,吴立军.大青叶和板蓝根提取物的抑菌作用研究[J]中国微生态学杂志,2003,(01).
[67]兰阿峰.金银花生物学特性的研究[D].西北农林科技大学,2006
[68]胡克杰等.连翘酯苷体外抗病毒作用的试验研究[J].中国中医药科技,2001,8(2):89.
[69]Fukuchi M, Matsuo T, Uchino K, Tonosaki A. New 5'-nucleotidase inhibitors, NPF-86ⅠA, NPF-86ⅠB, NPF-86ⅡA, and NPF-86ⅡB from Areca catechu; Part Ⅱ. Anti-tumor effects. Planta Med.1988 Oct;54(5):422-425.
[70]孟军华.射干化学成分的研究[D].中国优秀博硕士学位论文全文数据库(硕士),2006,(11):17-20.
[71]郭强.中药复方制剂抗禽流感病毒的试验研究[D].中国优秀硕士学位论文全文数据库,2009,(03):32-35.
[72]Sun Y,Chen T,Xu Q.Si-Ni-San,a traditional Chinese pre scription,and its drug-pairs suppress contact sensitivity in mice via inhibition of the activity of metalloproteinases and adhesion of T lymphocytes[J]. Journal of Pharmacy and Pharmacology,2003:45-51.
[73]杨小林,陈关平.兽用抗菌抗病毒中草药的研究进展[J].长江大学学报,2006,3(2):39-41.
[74]剑平.张应禄.李滋睿兽用中草药研究开发展望[J]动物科学与动物医学2004(9):25-29.
[75]王守菊.清瘟汤治疗温和性猪瘟[J].中兽医医药杂志,2001,6:38-42.
[76]尚若锋.王雯慧.崔颖.罗永江.王学江.金丝桃素蛋白络合物体外抗H5N1亚型禽流感病毒的活性研究[J].中兽医医药杂志2006(3):45-47.
[77]王盛库.中药治疗鸡痘[J].中国家禽.2003,25(7):51-54.
[78]李春华.猪伪狂犬病研究进展[J].动物医学进展.2008,3:15-21.
[79]王本祥主编.现代中药药理与临床[M].天津:天津科技翻译出版公司,2004:944,987,566,858,905,238.
[80]张妙.兽医中西药联合使用问题的思考[J].福建畜牧兽医,1(26):60-61.
[81]王天奇;丁珂;张玲;韩利方,DMEM体外培养结肠小袋纤毛虫的研究[J].中国病原生物学杂志,2009,12:9-13.
[82]陈慧梅,廖红,高静.肝细胞培养方法研究进展[J]细胞生物学杂志,2002,(03):31-34.
[83]缪勇;臧广州.中草药植物提取与深加工新技术实用手册[M]天津电子出版社,2004:512-519.
[84]薛庆善.体外培养的原理与技术[M].科学出版社,2001,02:42-45.
[84]王捷.动物细胞培养技术与应用[M].化学工业出版社,2004,05:17-23.
[85]杨芳,路国华,刘利兵,刘芳娥,曲萍.影响MTT比色试验的关键环节[J]第四军医大学学报,2009,(03):12-17.
[86]周岷江.抗病毒中药研究的最新进展[J].中成药,2005,27(1).151-155.
[87]李娜,仇华吉,童光志.病毒的细胞受体[J].畜牧兽医科技信息,2003(10):15-19.
[88]王慧明.抗猪繁殖与呼吸系统综合症病毒的中草药筛选[D].湖南农业大学,2009.
[89]刘钊,肖红,文莉.MTT法在抗病毒药物筛选中的应用[J].武汉大学学报,2004,3(25):18-22.
[90]阎祖伟;朱欣;李闻文.MTT法、CPE观察法用于药物细胞毒性试验的比较与分析[J].实用预防医学,2001,05:45-52.
[91]吴泽芳,熊朝敏.射干与贯众的药理作用比较研究[J].中药药理与临床,1990,6(6):28-30.
[92]张成镐,玄延花,曹红子,曹东铉.贯众水提取液对感染柯萨奇B3病毒3培养大鼠心肌细胞的影响[J].延边大学医学学报,2001,24(4):268-270.
[93]陈斌,蔡宝昌.板蓝根的药理研究[J].南京中医药大学学报,2006,22(1):47-49.
[94]张素梅,杨明凡,王学斌,崔保安,王莉.黄茂、金银花体外对伪狂犬病病毒作用研究.[J]中兽医医药杂志,2003(2):8-10
[95]任宇皓,胡元亮,刘家国,张宝康,宋大鲁.黄芪多糖、淫羊蓝多糖和淫羊菠总黄酮对新城疫病毒感染细胞的影响.[J]南京农业大学学报,2001,24(2):102-105
[96]孙晓娟,董熙昌.黄蔑不同提取部分抗Ⅰ型和H型疙疹病毒的实验研究.[J]贵阳医学院学报,1991,16(4):309-312
[97]刘桂芝,马延霞.应用黄茂多糖注射治疗鸡传染性法氏囊病.[J]中国畜禽传染病,1998(1):13
[98]左娟,董臣昌,孙晓娟.黄茂A6组分与无环乌昔联合对Ⅰ型单纯疙疹病毒感染小鼠的治疗作用.[J]中国病毒学,1995,10(2):177-178.
[99]王志洁.金银花、黄茂合用抗工型疤疹病毒药效分析[J].浙江中医学院学报,1999,23(5):37-40.
[100]苏琦华瞥自强罗炳锋赵方允罗学军尚杰黄茂对体外B组柯萨持续感染抑制作用的研究[J].天津医科大学学报,2004,10(3):382-384.
[101]单俊杰,王顺春,刘涤,胡之壁.黄茂多糖和化学和药理研究进展[J].上海中医药大学学报,2000,14(3):61-65.
[102]侯云德,宋代军,傅丰水.黄蔑某些生物学活性的有效部分的研究[J].中西医结合杂志,1984,4(7):420-422.
[103]盛晓蓉,野菊花水提液体外抗流感病毒实验研究[J].中华中西医杂志,2004,7:32-35.
[104]任爱农,王志刚,王礼文.野菊花抑菌和抗病毒作用实验研究[J].药物生物技术,1999,6(4):28-31.
[105]于德泉.金银花抗病毒有效成分双抗素类似物的合成和活性研究[D].中国协和医科大学,2008:56-59.
[106]季志平.金银花提取物抗病毒作用研究[J].中国医药导刊,2009,11(1):25-29.
[107]韩杨,孔红,李宜平.射干的抗病毒试验研究[J].中草药,2000(3):307-308.
[108]冯小花,肖兵南,段洪峰.中草药抗病毒作用的研究动态及展望[J].湖北畜牧兽医2006(2):78-79.
[109]吉文亮,秦民坚.中药射干的化学与药理研究进展[J].国外医药·植物药分册,2000,15(2):57-60.
[2]TC Mettenleiter.The progress of PRV and the cause of molecular pathygenesis[J].Vet Res,2000,31:99-115
[3]娄高明.伪狂犬病分子生物学诊断方法[J].动物医学进展,2000,2(110):31-35.
[4]Maes R,Beisel C,Spatz S,et al.Polymerase chain reaction amplification of pseudorabies virus DNA from acutely and latently infected cellls [J]. Vet Microbiol,1990,24:281-295.
[5]娄高明,杜伟贤.伪狂犬病流行概况及猪场防制策略[J].中国动物免疫,1999,16(5):43-45.
[6]Gntekunst D E.Latent pseudorabies virus infection in swine detected by RNA-DNA hybridization[J].Am JVet.Res,1979,40:1568-1572.
[7]McFarlane R G, Thawley D G, Solorzano R F.Detection of latent pseudorabies virus in porcine tissue,using a DNA hybridization dot-blot assay[J].Am JVet Res,1986,47:2329-2336.
[8]Maes R K,Spatz S J, Thacker B J.Nonradioactive probes to detect acute and latent pseudorabies virus (Aujeszky"disease)infections[C].Proc 10thIPVS congress,Rio dejaneiro,Brazil.1988.169.
[9]Belak S, Ballagi-pordany A, Flensburg J, et al.Detection of pseudorabies virus DNA sequences by the polymerase chain reaction[J].Arch Virol,1989,108:279-286.
[10]郭万柱,冯炳芳,曹军,等.应用32P标记DNA探针检测伪狂犬病病毒的研究[J].四川农业大学学报,1991,9(1):52-56.
[11]冉智光,童光志.伪狂犬病诊断方法的研究进展[J].中国兽医杂志,2000,37(5):39-41.
[12]娄高明,杜伟贤,郭万柱.猪犬病病毒糖蛋白研究进展[J].广东畜牧兽医科技,1999(4):3-7.
[13]曹兴萍,张以芳,杨培昌,高自寿,饶梅.猪伪狂犬病的血清流行病学调查[J]中国动物检疫,2006,(11):18-21.
[14]刘秀清,郭鑫,赵荣茂,宁金友,才让措,唐文山.猪伪狂犬病野毒感染的血清学调查[J]中国兽医杂志,2006,(07):32-37.
[15]张国华,王荣菊,王晓玲,孙景.西宁市猪伪狂犬病血清学调查[J]中国兽医杂志,2006,(09):44-49.
[16]刘显熠,猪伪狂犬病的临床症状及控制对策[J].中国兽医杂志,2003,1(39):25-26.
[17]崔尚金,猪伪狂犬病的临床症状及病理变化[J].主体策划,2005,04:15-18
[18]陈一帆,猪伪狂犬的病理变化及鉴别诊断.[J]福建畜牧兽医,2006,1:33-37.
[19]赵东升,安福生,刘有昌.猪伪狂犬病的发生特点及其预防控制(二)[J]畜禽业,2008,(07).
[20]潘耀荣.规模猪场伪狂犬病的净化方案[J]今日畜牧兽医,2008,(03).
[21]初秀;法国猪伪狂犬病弱毒疫苗Alfort26株简介[J].中国兽医科技,1986,(12):33-35.
[22]齐萌,饶宝,张家明,陈龙飞,付仁一,尹红轩.猪伪狂犬病诊断技术研究进展[J].河南畜牧兽医(综合 版),2008,(06):75-81.
[23]蒋滢,张波,府伟灵.药物筛选模型的分类及应用[J].国际检验医学志,2007,28(10):918-920:45-47.
[24]胡娟娟,杜冠华.药物筛选模型究进展[J].基础医学与临床,2001.21(4):302-305:44-47.
[25]姚佳,杨建波,杨洁.高通量药物筛选模型[J].药学进展.2004.28(1):5-11.
[26]韩博,陈文,杨春梅.高通量筛选技术在中药研究的应用[J].江西中医学院学报,2005,17(5):36-38.
[27]Lander E S.The New Genomies:Global Views of Biology[J].science,1996,274(5293):1594.1595
[28]Ferriandes PB. Technological advance high-throughput-screen[J]. CurtOpin ChemBiol,1998,2(5): 597-603
[29]Christopher J,Torrance L,vija,et al.Use of isogenie human cancer cells for high throughput screen and durg discovery[J]. Nature Biotechnology,2001,19(10):940-945.
[30]Suto C M, Ignar D M. Selection of an optimal reporter gene for cell-based high throughput screening assays[J].J Biomol Screening,1997,2(4):7-9
[31]Coward P,Humphries G M,Conklin BR,et al,Chimeric proteins allow high-throughput signaling assay of G-coupled receptors [J]. Anal Biochem,1999,270(2):242-248.
[32]DU G H.Strategy of drug development and application of high-throughput-screen[J].Chin JNew Drugs,2002,1(1):31-36
[33]XU ZH, JIANG S.Newmethod of drug screening-high-throughput-screening[J].BullBiol,2003,38 (3): 7-9.
[34]张慧君,陈鸿英,现代生物技术在中药药效研究中的应用[J],2006,1:20-24.
[35]杜冠华,高通量药物筛选在新药研究中的应用[J],2001,21(4):289-294
[36]杜冠华,胡娟娟,夏丽娟,等[J]药物筛选的发展与现,药学学报[J],1998,30:166-169
[37]蒋成全,中药抗病毒作用及其应用[J].中国医药导报,2007,4(15):8-9
[38]刘立超,吕点点,李先磊,高通量筛选在中药研究中的应用[J],2009,4:19-22.
[39]GURWITZ D.HARING R.Ligand-selective signaling and high-content-screening for GPCR drugs[J].DrugDiscovToday,2003,8:1108-1109.
[40]LV Q J.Progress in drug screening technologies[J].ForeignMed Sc(SectPharm),2003,30(3):129-133.
[41]周琳,干扰索-λ在人神经细胞内的表达、调节及抗病毒作用[D]华中科技大学,2009:12-15.
[42]颜邦森,猪白细胞干扰素临床治疗猪瘟及猪病毒性腹泻的效果观察,内江科技[J],1994,2:13-17.
[43]李祥瑞,赵星灿,重组白细胞介素-2提高PRRS抗体阳性猪的猪瘟疫苗免疫效果试验,畜牧与兽医[J],2007,08:25-27.
[44]葛孝忠,应黄慧,陈晓,汪成发,傅红兴.金刚烷类药物的研究进展[J]中国医药工业杂 志,2003,(11):37-41.
[45]谢勇.抗病毒药物曲金刚胺及其类似物的合成[D]四川大学,2006:65-71
[46]张天明,病毒唑的试验及临床研究进展,中国药理学通报[J]1989,01:2-4.
[47]祝丽敏,邓思清,曾涛,熊红莉.利巴韦林气雾剂的研究[J]中国医院药学杂志,1996,(06).
[48]赵金明;王圣符,缩氨脲和缩氨硫脲的合成[J]沈阳化工,1990,6:15-17.
[49]ZHANGHM,LIUX B,etal.Preparation and determina-tion of mitoxantrone-loaded immunonanosphere for anti-hepatoma[J].Isotopes 2001,14(1):1-5.
[50]袁浩龙,阿昔洛韦应用十年概况[J]国外医药,1993,6:9-10.
[51]王慧英,康克非.阿昔洛韦-一种抗疱疹病毒特效药[J]新药与临床,1990,(01):43-46..
[52]王春林,聚肌胞的药理和临床应用[J]江苏医药,1992,5:40-42.
[53]Masamoto Torisu,Hidehiro Murakami,Fazle Akbar,Hidetaka Matsui,Yoichi Hiasa,Bunzo Matsuura,Morikazu Onji. Protecti role ofinterleukin-10-producing regulatory dendritic cells against murine autoimmune gastritis[J] Journal of Gastroenterology,2008,43, (2):56-58.
[54]洪学猪流感和猪感冒的区别及防治[J].农村实用科技信息,2005,(07):42-47..
[55]郑一敏;宋丹;傅善全.阿糖腺苷生物合成的研究[J]重庆中草药研究.2001,2:6-10
[56]甄宇红;徐永平;夏艳秋.卵黄抗体分离、提取和纯化方法研究进展[J].中国饲料,2003,18:8-10.
[57]CARLSSON J,DREVIN H,AXEN R. Protein thiolation and re-versible protein-protein conjugation [J].Biochem J,1978,173(3):723-737.
[58]杨泽林;吴宣;杨晓燕,抗病毒药物在兽医临床的应用及存在的问题[J].广西畜牧兽医,2003,5:30-34.
[59]谢虹,抗病毒病中西药剂的应用[J].兽药与饲料添加剂,2000,5:9-12.
[60]谢虹,抗病毒中西药剂[J].当代畜禽养殖业,2002,3:44-47
[61]李仪奎.中药药理世纪回眸[J].中成药,2000,22:59-63.
[62]杨小林,陈关平.兽用抗菌抗病毒中草药的研究进展[J].长江大学学报,2006,3(2):10-14.
[63]李芳,李建北,张东明.柴胡的药理进展[J].时珍国医国药,2004,15(2):28-32.
[64]张克家,兽医中药的合理开发[J],2003,9:47-52.
[65]陈智伟;吴灵威;刘树涛;毛细管电泳法研究板蓝根水提物抗流感病毒的机制[J]中国中药杂志,2006,20:018.
[66]郑剑玲,王美惠,杨秀珍,吴立军.大青叶和板蓝根提取物的抑菌作用研究[J]中国微生态学杂志,2003,(01).
[67]兰阿峰.金银花生物学特性的研究[D].西北农林科技大学,2006
[68]胡克杰等.连翘酯苷体外抗病毒作用的试验研究[J].中国中医药科技,2001,8(2):89.
[69]Fukuchi M, Matsuo T, Uchino K, Tonosaki A. New 5'-nucleotidase inhibitors, NPF-86ⅠA, NPF-86ⅠB, NPF-86ⅡA, and NPF-86ⅡB from Areca catechu; Part Ⅱ. Anti-tumor effects. Planta Med.1988 Oct;54(5):422-425.
[70]孟军华.射干化学成分的研究[D].中国优秀博硕士学位论文全文数据库(硕士),2006,(11):17-20.
[71]郭强.中药复方制剂抗禽流感病毒的试验研究[D].中国优秀硕士学位论文全文数据库,2009,(03):32-35.
[72]Sun Y,Chen T,Xu Q.Si-Ni-San,a traditional Chinese pre scription,and its drug-pairs suppress contact sensitivity in mice via inhibition of the activity of metalloproteinases and adhesion of T lymphocytes[J]. Journal of Pharmacy and Pharmacology,2003:45-51.
[73]杨小林,陈关平.兽用抗菌抗病毒中草药的研究进展[J].长江大学学报,2006,3(2):39-41.
[74]剑平.张应禄.李滋睿兽用中草药研究开发展望[J]动物科学与动物医学2004(9):25-29.
[75]王守菊.清瘟汤治疗温和性猪瘟[J].中兽医医药杂志,2001,6:38-42.
[76]尚若锋.王雯慧.崔颖.罗永江.王学江.金丝桃素蛋白络合物体外抗H5N1亚型禽流感病毒的活性研究[J].中兽医医药杂志2006(3):45-47.
[77]王盛库.中药治疗鸡痘[J].中国家禽.2003,25(7):51-54.
[78]李春华.猪伪狂犬病研究进展[J].动物医学进展.2008,3:15-21.
[79]王本祥主编.现代中药药理与临床[M].天津:天津科技翻译出版公司,2004:944,987,566,858,905,238.
[80]张妙.兽医中西药联合使用问题的思考[J].福建畜牧兽医,1(26):60-61.
[81]王天奇;丁珂;张玲;韩利方,DMEM体外培养结肠小袋纤毛虫的研究[J].中国病原生物学杂志,2009,12:9-13.
[82]陈慧梅,廖红,高静.肝细胞培养方法研究进展[J]细胞生物学杂志,2002,(03):31-34.
[83]缪勇;臧广州.中草药植物提取与深加工新技术实用手册[M]天津电子出版社,2004:512-519.
[84]薛庆善.体外培养的原理与技术[M].科学出版社,2001,02:42-45.
[84]王捷.动物细胞培养技术与应用[M].化学工业出版社,2004,05:17-23.
[85]杨芳,路国华,刘利兵,刘芳娥,曲萍.影响MTT比色试验的关键环节[J]第四军医大学学报,2009,(03):12-17.
[86]周岷江.抗病毒中药研究的最新进展[J].中成药,2005,27(1).151-155.
[87]李娜,仇华吉,童光志.病毒的细胞受体[J].畜牧兽医科技信息,2003(10):15-19.
[88]王慧明.抗猪繁殖与呼吸系统综合症病毒的中草药筛选[D].湖南农业大学,2009.
[89]刘钊,肖红,文莉.MTT法在抗病毒药物筛选中的应用[J].武汉大学学报,2004,3(25):18-22.
[90]阎祖伟;朱欣;李闻文.MTT法、CPE观察法用于药物细胞毒性试验的比较与分析[J].实用预防医学,2001,05:45-52.
[91]吴泽芳,熊朝敏.射干与贯众的药理作用比较研究[J].中药药理与临床,1990,6(6):28-30.
[92]张成镐,玄延花,曹红子,曹东铉.贯众水提取液对感染柯萨奇B3病毒3培养大鼠心肌细胞的影响[J].延边大学医学学报,2001,24(4):268-270.
[93]陈斌,蔡宝昌.板蓝根的药理研究[J].南京中医药大学学报,2006,22(1):47-49.
[94]张素梅,杨明凡,王学斌,崔保安,王莉.黄茂、金银花体外对伪狂犬病病毒作用研究.[J]中兽医医药杂志,2003(2):8-10
[95]任宇皓,胡元亮,刘家国,张宝康,宋大鲁.黄芪多糖、淫羊蓝多糖和淫羊菠总黄酮对新城疫病毒感染细胞的影响.[J]南京农业大学学报,2001,24(2):102-105
[96]孙晓娟,董熙昌.黄蔑不同提取部分抗Ⅰ型和H型疙疹病毒的实验研究.[J]贵阳医学院学报,1991,16(4):309-312
[97]刘桂芝,马延霞.应用黄茂多糖注射治疗鸡传染性法氏囊病.[J]中国畜禽传染病,1998(1):13
[98]左娟,董臣昌,孙晓娟.黄茂A6组分与无环乌昔联合对Ⅰ型单纯疙疹病毒感染小鼠的治疗作用.[J]中国病毒学,1995,10(2):177-178.
[99]王志洁.金银花、黄茂合用抗工型疤疹病毒药效分析[J].浙江中医学院学报,1999,23(5):37-40.
[100]苏琦华瞥自强罗炳锋赵方允罗学军尚杰黄茂对体外B组柯萨持续感染抑制作用的研究[J].天津医科大学学报,2004,10(3):382-384.
[101]单俊杰,王顺春,刘涤,胡之壁.黄茂多糖和化学和药理研究进展[J].上海中医药大学学报,2000,14(3):61-65.
[102]侯云德,宋代军,傅丰水.黄蔑某些生物学活性的有效部分的研究[J].中西医结合杂志,1984,4(7):420-422.
[103]盛晓蓉,野菊花水提液体外抗流感病毒实验研究[J].中华中西医杂志,2004,7:32-35.
[104]任爱农,王志刚,王礼文.野菊花抑菌和抗病毒作用实验研究[J].药物生物技术,1999,6(4):28-31.
[105]于德泉.金银花抗病毒有效成分双抗素类似物的合成和活性研究[D].中国协和医科大学,2008:56-59.
[106]季志平.金银花提取物抗病毒作用研究[J].中国医药导刊,2009,11(1):25-29.
[107]韩杨,孔红,李宜平.射干的抗病毒试验研究[J].中草药,2000(3):307-308.
[108]冯小花,肖兵南,段洪峰.中草药抗病毒作用的研究动态及展望[J].湖北畜牧兽医2006(2):78-79.
[109]吉文亮,秦民坚.中药射干的化学与药理研究进展[J].国外医药·植物药分册,2000,15(2):57-60.