OALib Journal期刊
ISSN: 2333-9721
费用：99美元

投递稿件

查看量	下载量

相关文章
更多...

植物保护学报 2005

水稻矮缩病毒基因组及毒粒三维结构的研究进展

, PP. 207-213

陈茂,叶恭银,李毅,姚洪渭,胡萃

Keywords: 水稻矮缩病毒,基因组分析,三维结构,复制与组装

Full-Text Cite this paper Add to My Lib

Abstract:

水稻矮缩病毒(Ricedwarfvirus,RDV)为双层壳、二十面体的双链RNA病毒,是水稻的重要病原物之一。文中比较了RDV中国福建分离物与日本分离物基因组各片段核苷酸序列的相似性,发现RDV两个不同分离物基因组相应片段的相似性均在92%以上,最高可达96%;分析了相应基因组片段编码的结构蛋白P1、P2、P3、P5、P7、P8及以前一直被认为是非结构蛋白的P9和非结构蛋白Pns4、Pns6、Pns10、Pns11和Pns12在RDV复制、组装过程中的功能;回顾了RDV粒子三维结构的研究概况,对RDV粒子内、外层衣壳的晶体学结构作了较详细的描述;简要介绍了RDV复制与组装的机制,发现核心蛋白与dsRNA间相互作用成为一个单元是病毒RNA的分拣及包装到病毒粒子核心内的可能机制。同时,指出基于PDR的植物抗病毒基因工程在水稻矮缩病毒防治上的可能性。

References

[1]	肖锦李毅.水稻矮缩病毒第一号组份基因和编码蛋白的序列分析[J].微生物学报,1998,38(5):348-358,.
[2]	曲林李毅.水稻矮缩病毒第七号基因的序列分析及在大肠杆菌中的表达[J].微生物学报,1996,36(5):335-343,.
[3]	肖锦李毅.水稻矮缩病毒第11号组分基因序列和编码蛋白的功能分析[J].生物工程学报,1996,12(3):361-366,.
[4]	李胜刘慧君等.水稻矮缩病毒外壳蛋白基因S8在昆虫细胞中的表达[J].微生物学报,2001,41(2):162-166,.
[5]	李毅陈章良.水稻病毒的分子生物学[M].北京：科学出版社,2001.28-32.
[6]	Suzuki N, Tanimura M, Watanabe Y, et al. Molecular analysis of rice dwarf phytoreovirus segment S1: interviral homology of the putative RNA-dependent RNA polymerase between plant and animal-infectious reoviruses. Virology, 1992, 190: 240-247.
[7]	Uyeda I, Suda N, Yamada N, et al. Nucleotide sequence of rice dwarf phytoreovirus genome segment 2: completion of sequence analysis office dwarf virus. Intervirology, 1994, 37: 6-11.
[8]	鲁瑞芳李毅杨崇林.水稻矮缩病毒最外层外壳蛋白（S2）cDNA基因克隆、序列分析及其在大肠杆菌中的表达[J].微生物学报,1999,39:305-314.
[9]	Yan J, Tomaru M, Takahashi A, et al. P2 protein encoded by genome segment S3 of rice dwarf phytoreovirus is essential for virus infection. Virology, 1996, 224: 539-541.
[10]	Tomaru M, Maruyama W, Kikuchi A, et al. The loss of outer capsid protein P2 results in nontransmissibility by the insect vector of rice dwarf phytoreovirus. Journal of Virology, 1997, 71: 8019-8023.
[11]	Omura T, Yan J, Zhong, B X, et al. The P2 protein of rice dwarf phytoreovirus is required for adsorption of the virus to cells of the insect vector. Journal of Virology, 1998, 72(11): 9370-9373.
[12]	Zhang F, Li Y, Liu Y F, et al. Molecular cloning, sequencing, and functional analysis and expression in E.coli of major core protein gene (S3) of rice dwarf virus Chinese isolate. Acta Virologica, 1997, 141: 161-168.
[13]	Ueda S, Masuta C, Uyeda I. Hypothesis on particle structure and assembly of rice dwarf phytoreovirus: interactions among multiple structural proteins. Journal of General Virology, 1997, 78: 3135-3140.
[14]	Hagiwara K, Higashi T, Namba K, et al. Assembly of single-shelled cores and double-shelled virus-like particles after baculovirus expression of major structural proteins P3, P7 and P8 of Rice dwarf virus. Journal of General Virology, 2003, 84(4): 981-984.
[15]	Zheng H H, Li Y, Wei C H, et al. Assembly of double-shelled, virus-like particles in transgenic rice plants expressing two major structural proteins of rice dwarf virus. Journal of Virology, 2000, 74(20): 9808-9810.
[16]	Suzuki N, Wantanabe Y, Kusano T, et al. Sequence analysis of rice dwarf phytoreovirus genome segments S4, S5 and S6: comparison with the equivalent wound tumor virus segments. Virology, 1990, 179: 446-454.
[17]	Ichimi K, Kikuchi A, Moriyasu Y, et al. Sequence analysis and GTP-binding ability of the minor core protein P5 of Rice gall dwarf virus. Japan Agricultural Research Quarterly, 2002, 36(2): 83-87.
[18]	Nakashima K, Kakutani T, Minobe Y. Sequence analysis and product assignment of segment 7 of the rice dwarf virus genome. Journal of General Viology, 1990,71: 725-729.
[19]	Ueda S, Uyeda I. The rice dwarf phytoreovirus structural protein P7 possesses non-specific nucleotide acids binding activity in vitro. Molecular Plant Pathology On-line [http://www. bspp.org.uk/mppol/]0123 ueda, 1997.
[20]	Zhong B X, Don A R, Zhu Y F, et al. An assembly model of rice dwarf virus particle. Science in China Ser. C Life Science, 2004, 47(1): 92-100.
[21]	更多...
[22]	Omura T, Takahashi Y, Tomiyama M, et al. Nucleotide sequence of the outer capsid protein gene of a severe strain office dwarf virus. Annals of the Phytopathological Society of Japan, 1993, 59: 438-440.
[23]	Mao Z J, Li Y, Xu H, et al. The 42K protein of rice dwarf virus is a post-translational cleavage product of the 46K outer capsid protein. Archives of Virology, 1998, 143: 1831-1838.
[24]	Zhu Y, Hemmings A M, Iwasaki K, et al. Details of the arrangement of the outer capsid of the rice dwarf phytoreovirus, as visualized by two-dimensional crystallography. Journal of Virology, 1997, 71: 8899-8901.
[25]	Zhong B, Kikuchi A, Moriyasu Y, et al. A minor outer capsid protein, P9, of Rice dwarf virus. Archives of Virology, 2003, 148(11): 2275-2580.
[26]	曲林李毅.水稻矮缩病毒基因组第九号片段的cDNA克隆及序列分析[J].病毒学报,1995,11(3):271-275,.
[27]	赵晓岚李毅陈章良.水稻矮缩病毒基因组第四号片段编码区的cDNA克隆、序列测定及编码蛋白的功能分析[J].微生物学报,1996,36:93-102.
[28]	Kimura I, Minobe Y, Omura T. Changes in a nucleic acid and a protein component of rice dwarf virus particles associated with an increase in symptom severity. Journal of General Virology, 1987, 68: 3211-3215.
[29]	Li Y, Bao Y M, Wei C H, et al. Rice dwarf phytoreovirus segment S6-encoded nonstructural protein has a cell-to-cell movement function. Journal of Virology, 2004, 78: 5382-5389.
[30]	程明非任刚等.水稻矮缩病毒非结构蛋白Pns11的核酸结合活性分析[J].高技术通讯,2000,10(9):1-4,.
[31]	Murao K, Uyeda I, Ando Y, et al. Genomic rearrangement in genome segment 12 of rice dwarf phytoreovirus. Virology, 1996, 216(1): 238-240.
[32]	Suzuki N, Hosokawa D, Matsuura Y, et al. In vivo and in vitro phosphorylation of rice dwarf phytoreovirus Pns12 cytoplasmic nonstructural protein. Archives of Virology, 1999, 144(7): 1371-1380.
[33]	Omura T, Ishikawa K, Hirano H, et al. The outer capsid protein of rice dwarf virus is encoded by genome segment S8. Journal of General Virology, 1989, 70: 2759-2764.
[34]	Mizuno H, Kano H, Omura T, et al. Crystallization and preliminary X-ray study of a double-shelled spherical virus, rice dwarf virus. Journal of Molecular Biology, 1991, 219: 665-669.
[35]	Naitow H, Morimoto Y, Mizuno H, et al. A low-resolution structure of rice dwarf virus determined by ab initio phasing. Acta Crystallographica, Section D: Biological Crystallography, 1999, D55:77-84.
[36]	Lu G Y, Zhou Z H, Baker M L, et al. Structure of double-shelled rice dwarf virus. Journal of Virology, 1998, 72: 8541-8549.
[37]	邵承华 Z.H.Zhou 等.水稻矮缩病毒内壳尼颗粒的三维结构[J].中国科学：C辑,2001,31(2):114-119,T001,T002.
[38]	卢光莹陈声祥.用含水冷冻电镜技术测定的水稻矮缩病毒的三维结构[J].高技术通讯,1995,5(1):1-4,.
[39]	Zhou Z H, Baker M L, Jiang W, et al. Electron cryomicroscopy and bioinformatics suggest protein fold models for rice dwarf virus. Nature Structural Biology, 2001, 8(10): 868-873.
[40]	Wu B, Hammar L, Xing L, et al. Phytoreovirus T = 1 core plays critical roles in organizing the outer capsid of T = 13 quasi-equivalence. Virology, 2000, 271(1): 18-25.
[41]	Hagiwara K, Higashi T, Miyazaki N, et al. The amino-terminal region of major capsid protein P3 is essential for self-assembly of single-shelled core-like particles of rice dwarf virus. Journal of Virology, 2004, 78(6): 3145-3148.
[42]	Nakagawa A, Miyazaki N, Taka J, et al. The atomic structure of rice dwarf virus reveals the self-assembly mechanism of component proteins. Structure, 2003, 11(10): 1227-1238.
[43]	Lawton J A, Estes M K, Prasad B V V. Three-dimensional visualization of mRNA release from actively transcribing rotavirus particles. Nature Structural Biology, 1997, 4: 118-121.
[44]	Sanford J C, Johnston S A. The concept of parasite-derived resistance: deriving resistance genes from the parasites own genome. Journal of Theoretical Biology, 1985, 113: 395-405.
[45]	Han S C, Wu Z J, Yang H Y, et al. Ribozyme-mediated resistance to rice dwarf virus and the transgene silencing in the progeny of transgenic rice plants. Transgenic Research, 2000, 9: 195-203.

Full-Text

Contact Us

service@oalib.com

QQ:3279437679

WhatsApp +8615387084133