团头鲂Toll样受体3基因的克隆及特征研究
cDNA CLONING AND CHARACTERIZATION OF TOLL-LIKE RECEPTOR 3 IN BLUNTNOSE BLACK BREAM,MEGALOBRAMA AMBLYCEPHALA
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摘要: 由草鱼呼肠孤病毒(Grass carp reovirus, GCRV)引起的草鱼出血病,是对草鱼危害最大的传染性疾病之一。GCRV是双链RNA病毒,属呼肠孤病毒科(Reoviridae),水生呼肠孤病毒属(Aquareovirus),G亚型。
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[1] Fang Q, Zhu Z Y. Advances in aquareovirus research [J]. V irologica S inica, 2003, 18 (1) : 82-86 [方勤,朱作言. 水生呼肠孤病毒研究进展. 中国病毒学, 2003, 18 (1) : 82-86] Fang Q, Zhu Z Y. Advances in aquareovirus research [J]. V irologica S inica, 2003, 18 (1) : 82-86 [方勤,朱作言. 水生呼肠孤病毒研究进展. 中国病毒学, 2003, 18 (1) : 82-86]
[2] DingQ Q, Yu L F, Ke L H, et al. Study on infecting other fisheswith grass carp hemorrhage virus [J]. V irologica S inica, 1991, 6(4) : 371-373 [丁清泉,余兰芬,柯丽华,等. 草鱼出血病病毒对其他鱼的感染性研究. 中国病毒学, 1991, 6 ( 4) : 371-373] DingQ Q, Yu L F, Ke L H, et al. Study on infecting other fisheswith grass carp hemorrhage virus [J]. V irologica S inica, 1991, 6(4) : 371-373 [丁清泉,余兰芬,柯丽华,等. 草鱼出血病病毒对其他鱼的感染性研究. 中国病毒学, 1991, 6 ( 4) : 371-373]
[3] Wang T H, Liu P L, Chen H X, et al. Preliminary study on thesuscep tibility of Gobiocypris rarus to hemorrhagic virus of grasscarp (GCHV) [J]. Acta Hydrobiologica S inica, 1994, 18 ( 2) :144-149 [王铁辉,刘沛霖,陈宏溪,等. 稀有鲫对草鱼出血病病毒敏感性的初步研究. 水生生物学报, 1994, 18 ( 2 ) :144-149] Wang T H, Liu P L, Chen H X, et al. Preliminary study on thesuscep tibility of Gobiocypris rarus to hemorrhagic virus of grasscarp (GCHV) [J]. Acta Hydrobiologica S inica, 1994, 18 ( 2) :144-149 [王铁辉,刘沛霖,陈宏溪,等. 稀有鲫对草鱼出血病病毒敏感性的初步研究. 水生生物学报, 1994, 18 ( 2 ) :144-149]
[4] Scump ia P O, Kelly KM, ReevesW H, et al. DoubletrandedRNA signals antiviral and inflammatory p rograms and dysfunctional glutamate transport in TLR32exp ressing astrocytes [J]. Glia,2005, 52: 153-162
[5] Alexopoulou L, Holt A C, Medzhitov R, et al. Recognition ofdoublestranded RNA and activation ofNF2κB by Toll2like receptor 3 [J]. N ature, 2001, 413: 732-738
[6] Sen G C, Sarkar S N. Transcrip tional signaling by doublestranded RNA: role of TLR3 [J]. Cytokine Grow th FactorRev, 2005,16: 1-14
[7] Wang T H, Town T, Alexopoulou L, et al. Toll2like recep tor 3 mediatesWest Nile virus entry into the brain causing lethal encephalitis [J]. N atMed, 2004, 10: 1366-1373
[8] Choe J, KelkerM S, Wilson IA. Crystal structure of human Tolllike recep tor 3 ( TLR3 )ectodomain [J]. Science, 2005, 309:581-585
[9] Loving C L, Brockmeier S L, MaW, et al. Innate cytokine responses in porcine macrophage populations: evidence for differential recognition of double2stranded RNA [J]. J Imm unol, 2006,177: 8432-8439
[10] Vercammen E, Staal J, Beyaert R. Sensing ofViral Infection and Activation of Innate Immunity by Toll2Like Recep tor 3 [J]. ClinM icrobiol Rev, 008, 21: 13-25
[11] MatsumotoM, Kikkawa S, Kohase M, et al. Establishment of amonoclonal antibody against human Toll2like recep tor 3 that blocks double2stranded RNA2mediated signaling [J]. B iochemB iophys Res Comm un, 2002, 293: 1364-1369
[12] Choudhary S, Gao J, Leaman D W, et al. Interferon action against human parainfluenza virus type 3: involvement of a novel antiviral pathway in the inhibition of transcrip tion [J]. J V irol,2001, 75: 4823-4831
[13] Letunic I, Cop ley R R, PilsB, et al. SMART 5: domains in thecontext of genomes and networks [J]. N uclAcids Res, 2006, 34:D257-D260
[14] Hulo N, Bairoch A, Bulliard V, et al. The 20 years of PROSITE[J]. N ucleic Acids Res, 2008, 36: D245-D249
[15] Tamura K, Dudley J, NeiM, et al. MEGA4: molecular evolutionary genetics analysis (MEGA) software version 4. 0 [J]. M olB iol Evol, 2007, 24: 1596-1599
[16] KrachtM, Saklatvala J. Transcrip tional and post2transcrip tional control of gene exp ression in inflammation [J]. Cytokine, 2002,20: 91-106
[17] Ponten A, Sick C, WeeberM, et al. Dominant2negative mutantsof human MxA p rotein: domains in the carboxyl2terminal moietyare important for oligomerization and antiviral activity [J]. J V ir2ol, 1997, 71: 2591-2599
[18] Toshchakov V Y, FentonM J, Vogel S N. Cutting Edge: Differential Inhibition of TLR Signaling Pathways by Cell2Permeable Pep tides Rep resenting BB Loop s of TLRs [J]. J Imm unol,2007, 178: 2655-2660
[19] Zhang Y B, J iang J, Chen Y D, et al. The innate immune response to grass carp hemorrhagic virus (GCHV) in cultured Carassius auratus blastulae (CAB) cells [J]. Dev Com p Imm unol,2007, 31: 232-243
[20] Su J, Zhu Z, Wang Y, et al. Toll2like recep tor 3 regulatesMxexp ression in rare minnow Gobiocypris rarus after viral infection[J]. Imm unogenetics, 2008, 60: 195-205
[21] Phelan P E, Mellon M T, Kim C H. Functional characterizationof full2length TLR3, IRAK24, and TRAF6 in zebrafish (Daniorerio) [J]. Mol Imm unol, 2005, 42: 1057-1071
[22] Bilodeau A L, Waldbieser G C. Activation of TLR3 and TLR5 in channel catfish exposed to virulent Edwardsiella ictaluri [J]. DevCom p Imm unol, 2005, 29: 713-721
[23] RodriguezM F, Wiens GD, PurcellM K, et al. Characterizationof Toll2like recep tor 3 gene in rainbow trout ( Oncorhynchusm ykiss) [J]. Imm unogenetics, 2005, 57: 510-519
[24] Gavel Y, von Heijne G. Sequence differences between glycosylated and nonglycosylated Asn2X2Thr/Ser accep tor sites: imp lications for p rotein engineering [J]. Protein Eng, 1990, 3: 433-442
[25] Kishimoto A, Nishiyama K, Nakanishi H, et al. Studies on the phosphorylation of myelin basic p rotein by p rotein kinase C and adenosine 3′: 5′2 monophosphate2dependent p rotein kinase [J]. JB iol Chem, 1985, 260: 12492-12499
[26] Grand R J A. Acylation of viral and eukaryotic p roteins [J]. B iochem J, 1989, 258: 625-638
[27] Pinna L A. Casein kinase 2: an ′eminence grise′in cellular regulation [J]. B iochim B iophys Acta, 1990, 1054: 267-284
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