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4种禽源病毒感染CEF后β-catenin基因的动态表达 被引量:1

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摘要 旨在建立鸡β连环蛋白(β-catenin)m RNA的实时荧光定量RT-PCR方法,检测NDV、AIV、REV、ALV四种病毒感染鸡胚成纤维细胞(CEF)后β-catenin m RNA的动态表达水平;运用建立的Rrt-PCR方法,检测NDV F48E9、AIV H5N1、ALV和REV病毒感染后β-catenin m RNA的动态表达水平。研究结果:(1)NDV F48E9感染CEF后3 h诱导β-catenin m RNA的表达,而在感染后6 h至24 h抑制β-catenin m RNA的表达。其中接毒后的9、24 h,接毒组β-catenin m RNA的表达量分别是对照组的0.22倍和0.25倍,差异显著(P<0.05);(2)AIV H5N1感染CEF后3、6 h,接毒组β-catenin m RNA的表达水平高于对照组,其中3 h时接毒组是对照组的3.14倍,差异极显著(P<0.01);在感染后9、12、24 h抑制β-catenin m RNA的表达,接毒组分别是对照组的0.5、0.03、0.3倍,其中12 h时差异极显著(P<0.01);(3)REV感染CEF后诱导β-catenin m RNA表达,接毒后24 h、3、5、7、8 d,接毒组分别是对照组的2.38、2.71、2.05、2.64、2.79倍,差异均显著(P<0.05);(4)ALV感染CEF后诱导β-catenin m RNA的表达,其中接毒后3、5、7 d时,接毒组细胞β-catenin m RNA的表达水平分别是对照组的6.20、3.11、6.70倍,3、7 d时差异极显著(P<0.01),5 d时差异显著(P<0.05)。研究结论:β-catenin参与这四种病毒的感染应答,且表达模式不同。β-catenin动态表达为研究病毒感染致病与机体相互作用的分子机制提供了有价值的参考。
作者 傅安静 黄名英 高艳 文红
机构地区 成都农业科技职业学院 西南民族大学 成都温江区农法局动物检疫疾病控制中心
出处 《中国兽医杂志》 CAS 北大核心 2015年第5期34-38,共5页 Chinese Journal of Veterinary Medicine
关键词 荧光定量RT-PCR 新城疫病毒 禽流感病毒 禽白血病病毒 网状内皮组织增生症病毒 Β连环蛋白 鸡胚成纤维细胞
分类号 S852.659.5 [农业科学—基础兽医学]
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  • 1Willert K, Brown JD, Danenberg E, et al. Wnt proteins are lipidmodified and can act as stem cell growth factors. Nature 2003;423:448-52.
  • 2Bhanot P, Brink M, Samos CH et al. Links A new member of the frizzled family from Drosophila functions as a Wingless receptor.Nature 1996; 382:225-30.
  • 3Hsieh JC, Rattner A, Smallwood PM et al. Biochemical characterization of Wnt-frizzled interactions using a soluble, biologically active vertebrate Wnt protein. Proc Natl Acad Sci U S A 1999; 96:3546-51.
  • 4Dann CE, Hsieh JC, Rattner A et al. Insights into Wnt binding and signalling from the structures of two Frizzled cysteine-rich domains. Nature 2001; 412:86-90.
  • 5Wehrli M, Dougan ST, Caldwell K, et al. Arrow encodes an LDL-receptor-related protein essential for Wingless signalling.Nature 2000; 407:527-30.
  • 6Tolwinski NS, Wehrli M, Rives A, et al. Wg/Wnt signal can be transmitted through arrow/LRP5,6 and Axin independently of Zw3/Gsk3beta activity. Dev Cell 2003; 4:407-18.
  • 7Chen W, ten Berge D, Brown J, et al. Dishevelled 2 recruits betaarrestin 2 to mediate Wnt5A-stimulated endocytosis of Frizzled 4. Science 2003; 301:1391-1394.
  • 8Wong HC, Bourdelas A, Krauss A, et al. Direct binding of the PDZ domain of Dishevelled to a conserved internal sequence in the C-terminal region of Frizzled. Mol Cell 2003; 12:1251-60.
  • 9Kinzler KW, Nilbert MC, Su LK, et al. Identification of FAP locus genes from chromosome 5q21. Science 1991; 253: 661-5.
  • 10Nishisho I, Nakamura Y, Miyoshi Y, et al. Mutations of chromosome 5q21 genes in FAP and colorectal cancer patients. Science 1991; 253:665-9.

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  • 2Cheril Tapia-Rojas,Nibaldo C.Inestrosa.Loss of canonical Wnt signaling is involved in the pathogenesis of Alzheimer's disease[J].Neural Regeneration Research,2018,13(10):1705-1710. 被引量:22
  • 3Kevin J Zwezdaryk,Joseph A Combs,Cindy A Morris,Deborah E Sullivan.Regulation of Wnt/β-catenin signaling by herpesviruses[J].World Journal of Virology,2016,5(4):144-154. 被引量:3
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  • 5H.Agakishiev,M.M.Aggarwal,Z.Ahammed,A.V.Alakhverdyants,I.Alekseev,J.Alford,B.D.Anderson,C.D.Anson,D.Arkhipkin,G.S.Averichev,J.Balewski,D.R.Beavis,N.K.Behera,R.Bellwied,M.J.Betancourt,R.R.Betts,A.Bhasin,A.K.Bhat,H.Bichsel,J.Bieleik,J.Bielcikova,B.Biritz,L.C.Bland,W.Borowski,J.Bouchet,E.Braidot,A.V.Brandin,A.Bridgeman,S.G.Brovko,E.Bruna,S.Bueltmann,I.Bunzarov,T.P.Burton,X.Z.Cai,H.Caines,M.Calderon de la Barca Sanchez,D.Cebra,R.Cendejas,M.C.Cervantes,Z.Chajecki,P.Chaloupka,S.Chattopadhyay,H.F.Chen,J.H.Chen,J.Y.Chen,L.Chen,J.Cheng,M.Cherney,A.Chikanian,K.E.Choi,W.Christie,P.Chung,M.J.M.Codrington,R.Corliss,J.G.Cramer,H.J.Crawford,S.Dash,A.Davila Leyva,L.C.De Silvat,R.R.Debbe,T.G.Dedovich,A.A.Derevschikov,R.Derradi de Souza,L.Didenko,P.Djawotho,S.M.Dogra,X.Dong,J.L.Drachenberg,J.E.Draper,J.C.Dunlop,L.G Efimov,M.Elnim,J.Engelage,G Eppley,M.Estienne,L.Eun,O.Evdokimov,R.Fatemi,J.Fedorisin,A.Feng,R.G.Fersch,P.Filip,E.Finch,V.Fine,Y.Fisyak,C.A.Gagliardi,D.R.Gangadharan,A.Geromitsos,F.Geurts,P.Ghosh,Y.N.Gorbunov,A.Gordon,O.Grebenyuk,D.Grosnick,S.M.Guertin,A.Gupta,W.Guryn,B.Haag,O.Hajkova,A.Hamed,L-X.Han,J.W.Harris,J.P.Hays-Wehle,M.Heinz,S.Heppelmann,A.Hirsch,E.Hjort,G.W.Hoffmann,D.J.Hofiman,B.Huang,H.Z.Huang,T.J.Humanic,L.Huo,G.Igo,P.Jacobs,W.W.Jacobs,C.Jena,F.Jin,J.Joseph,E.G.Judd,S.Kabana,K.Kang,J.Kapitan,K.Kauder,H.Ke,D.Keane,A.Kechechyan,D.Kettler,D.P.Kikola,J.Kiryluk,A.Kisiel,V.Kizka,A.G.Knospe,D.D.Koetke,T.Kollegger,J.Konzer,I.Koralt,L.Koroleva,W.Korsch,L.Kotchenda,V.Kouchpil,P.Kravtsov,K.Krueger,M.Krus,L.Kumar,P.Kurnadi,M.A.C.Lamont,J.M.Landgraf,S.LaPointe,J.Lauret,A.Lebedev,R.Lednicky,J.H.Lee,W.Leight,M.J.LeVine,C.Lil,L.Li,N.Li,W.Li,X.Li,X.Li,Y.Li,Z.M.Li,M.A.Lisa,F.Liu,H.Liu,J.Liu,T.Ljubicic,W.J.Llope,R.S.Longacre,W.A.Love,Y.Lu,E.V.Lukashov,X.Luo,G.L.Ma,Y.G.Mai,D.P.Mahapatra,R.Majka,O.I.Mall,L.K.Mangotra,R.Manweiler,S.Margetis,C.Markert,H.Masui,H.S.Matis,Yu.A.Matulenko,D.MeDonald,T.S.McShane,A.Meschanin,R.Milner,N.G.Minaev,S.Mioduszewski,A.Mischke,M.K.Mitrovski,B.Mohanty,M.M.Mondal,B.Morozov,D.A.Morozov,M.G.Munhoz,M.Naglis,B.K.Nandi,T.K.Nayak,P.K.Netrakanti,L.V.Nogach,S.B.Nurushev,G.Odyniec,A.Ogawa,Oh,Ohlson,V.Okorokov,E.W.Oldag,D.Olsont,M.Pachr,B.S.Page,S.K.Pal,Y.Pandit,Y.Panebratsev,T.Pawlak,H.Pei,T.Peitzmann,C.Perkins,W.Peryt,S.C.Phatak,P.Pile,M.Planinic,M.A.Ploskon,J.Pluta,D.Plyku,N.Poljak,A.M.Poskanzer,B.V.K.S.Potukuchi,C.B.Powell,D.Prindle,N.K.Pruthi,A.M.Poskanzer,B.V.K.S.Potukuchi,B.Powell,D.Prindle,N.K.Pruthi,P.R.Pujahar,J.Putschke,H.Qiu,R.Raniwala,S.Raniwala,R.L.Ray,R.Redwine,R.Reed,H.G.Riter,J.B.Roberts,O.V.Rogachevskiy,J.L.Romero,A.Rose,L.Ruan,J.Rusnak,N.R.Sahoo,S.Sakai,I.Sakrejda,T.Sakuma,S.Salur,J.Sandweiss,E.Sangaline,A.Sarkar,J.Schambach,R.P.Scharenberg,A.M.Schmah,N.Schmitz,T.R.Schuster,J.Seele,J.Seger,I.Selyuzhenkov,P.Seyboth,E.Shahaliev,M.Shao,M.Sharma,S.S.Shi,Q.Y.Shou,E.P.Sichtermann,F.Simon,R.N.Singaraju,M.J.Skoby,N.Smirnov,H.M.Spinka,B.Srivastava,T.D.S.Stanislaus,D.Staszak,S.G.Steadman,J.R.Stevens,R.Stock,M.Strikhanov,B.Stringfellow,A.A.P.Suaide,M.C.Suarez,N.L.Subba,M.Sumbera,X.M.Sun,Y.Sun,Z.Sun,B.Surrow,D.N.Svirida,T.J.M.Symons,A.Szanto de Toledo,J.Takahashi,A.H.Tang,Z.Tang,L.H.Tarini,T.Tarnowsky,D.Thein,J.H.Thomas,J.Tian,A.R.Timmins,D.Tlusty,M.Tokarev,V.N.Tram,S.Trentalange,R.E.Tribble,Tribedy,O.D.Tsai,T.Ullrich,D.G.Underwood,G.Van Buren,G.van Nieuwenhuizen,J.A.Vanfossen,R.Varma,G.M.S.Vasconcelos,A.N.Vasiliev,F.Videbaek,Y.P.Viyogi,S.Vokal,M.Wadat,M.Walker,F.Wang,G.Wang,H.Wang,J.S.Wang,Q.Wang,X.L.Wang,Y.Wang,G.Webb,J.C.Webb,G.D.Westfall,C.Whitten,H.Wieman,S.W.Wissink,R.Witt,W.Witzke,Y.F.Wu,Xiao,W.Xie,H.Xu,N.Xu,Q.H.Xu,W.Xu,Y.Xu,Z.Xu,L.Xue,Y.Yang,P.Yepes,K.Yip,I-K.Yoo,M.Zawisza,H.Zbroszczyk,W.Zhan,J.B.Zhang,S.Zhang,W.M.Zhang,X.P.Zhang,Y.Zhang,Z.P.Zhang,J.Zhao,C.Zhong,W.Zhou,X.Zhu,Y.H.Zhu,R.Zoulkarneev,Y.Zoulkarneeva.Measurements of dihadron correlations relative to the event plane in Au+Au collisions at√^(S)NN=200 GeV[J].Chinese Physics C,2021,45(4):198-241. 被引量:351

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中国兽医杂志
2015年 第5期

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