The Structure Analysis and Antigenicity Study of the N Protein of SARS-CoV 被引量：4

The Structure Analysis and Antigenicity Study of the N Protein of SARS-CoV

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摘要 The Coronaviridae family is characterized by a nucleocapsid that is composed of the genome RNA molecule in combination with the nucleoprotein (N protein) within a virion. The most striking physiochemical feature of the N protein of SARS-CoV is that it is a typical basic protein with a high predicted pI and high hydrophilicity, which is consistent with its function of binding to the ribophosphate backbone of the RNA molecule. The predicted high extent of phosphorylation of the N protein on multiple candidate phosphorylation sites demonstrates that it would be related to important functions, such as RNA-binding and localization to the nucleolus of host cells. Subsequent study shows that there is an SR-rich region in the N protein and this region might be involved in the protein-protein interaction. The abundant antigenic sites predicted in the N protein, as well as experimental evidence with synthesized polypeptides, indicate that the N protein is one of the major antigens of the SARS-CoV. Compared with other viral structural proteins, the low variation rate of the N protein with regards to its size suggests its importance to the survival of the virus. The Coronaviridae family is characterized by a nucleocapsid that is composed of the genome RNA molecule in combination with the nucleoprotein (N protein) within a virion. The most striking physiochemical feature of the N protein of SARS-CoV is that it is a typical basic protein with a high predicted pI and high hydrophilicity, which is consistent with its function of binding to the ribophosphate backbone of the RNA molecule. The predicted high extent of phosphorylation of the N protein on multiple candidate phosphorylation sites demonstrates that it would be related to important functions, such as RNA-binding and localization to the nucleolus of host cells. Subsequent study shows that there is an SR-rich region in the N protein and this region might be involved in the protein-protein interaction. The abundant antigenic sites predicted in the N protein, as well as experimental evidence with synthesized polypeptides, indicate that the N protein is one of the major antigens of the SARS-CoV. Compared with other viral structural proteins, the low variation rate of the N protein with regards to its size suggests its importance to the survival of the virus.

作者 JingqiangWang JiaJi JiaYe XiaoqianZhao JieWen WeiLi JianfeiHu DaweiLi MinSun HaipanZeng YongwuHu XiangjunTian XuehaiTan NingzhiXu ChangqingZeng JianWang ShengliBi HuanmingYang

机构地区 BeijingGenomicsInstitute JamesD.WatsonInstituteofGenomeSciences CollegeofLifeSciences CenterofDiseaseControlandPrevention

出处《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2003年第2期145-154,共10页 基因组蛋白质组与生物信息学报（英文版）

关键词 SARS-COV NUCLEOPROTEIN PHOSPHORYLATION SR-rich region antigenic sites SARS-CoV, nucleoprotein, phosphorylation, SR-rich region, antigenic sites

分类号 R511 [医药卫生—内科学] Q939.4 [生物学—微生物学]

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参考文献2

1祝庆余,秦鄂德,王翠娥,于曼,司炳银,范宝昌,常国辉,彭文明,杨保安,姜涛,李豫川,邓永强,刘洪,甘永华.非典型肺炎病例标本中新型冠状病毒的分离与鉴定[J].中国生物工程杂志,2003,23(4):106-112. 被引量：100
2QIN E'de,ZHU Qingyu,YU Man, FAN Baochang,CHANG Guohui,SI Bingyin,YANG Bao,PENG Wenming,JIANG Tao,LIU Bohua,DENG Yongqiang,LIU Hong,ZHANG Yu,WANG Cui,LI Yuquan,GAN Yonghua,LI Xiaoyu,L Fushuang,TAN Gang,CAO Wuchun,YANG Ruifu,WANG Jian,LI Wei,XU Zuyuan,LI Yan,WU Qingfa,LIN Wei,CHEN Weijun,TANG Lin,DENG Yajun,HAN Yujun,LI Changfeng,LEI Meng,LI Guoqing,LI Wenjie,L Hong,SHI Jianping,TONG Zongzhong,ZHANG Feng,LI Songgang,LIU Bin,LIU Siqi,DONG Wei,WANG Jun,Gane K-S Wong,YU Jun,YANG Huanming.A complete sequence and comparative analysis of a SARS-associated virus(Isolate BJ01)[J].Chinese Science Bulletin,2003,48(10):941-948. 被引量：122

二级参考文献13

1Stephensen CB, CaseBolt DB, Gangopadhyay NN. Phylogenetic analysis of a highly conserved region of the polymerase gene from 11 coronaviruses and development of a consensus polymerase chain reaction assay. Virus Res, 1999,60:181 - 189.
2Vabret A, Mouthon F, Mourez T, Gouarin S, Petitjean J, Freymuth F. Direct diagnosis of human respiratory coronaviruses 229E and OC 43 by the polymerase chain reaction.J Virol Methods,2001,97:59-66.
3Poutanen SM, Low DE, Henry B, Finkelstein S, Rose D, Green K,Tellier R, Draker R, Adachi D, Ayers M, Chan AK, Skowronski DM,Salit I, Simor AE, Slutsky AS, Doyle PW, Krajden M, Petric M, Brunham RC, McGeer AJ. Identification of severe acute respiratory syndrome in Canada. N Engl J Med. Low-1 - low-11 (at www.nejm.org on March 31,2003).
4Lee,N,Hui,D,Wu,A. et al.A major outbreak of severe acute respiratory syndrome inHongKong[].The New England Journal of Medicine.
5.VirusTaxonomy[]..2001
6Uchil,P.D,Satchidanandam,V.Characterization ofRNA synthesis, replication mechanism, and in vitroRNA-dependentRNA polymerase activity ofJapanese encephalitis virus[].Journal of Virology.2003
7Henkel,J.Attacking AIDS with a揷ocktail?therapy?[].FDA Consumer.1999
8Popova,R,Zhang,X.The spike but not the hemagglutinin/esterase protein of bovine coronavirus is necessary and sufficient for viral infection[].Journal of Virology.2002
9Peiris J S,Lai S T,Poon L L,et al.Coronavirus as a possible cause of severe acute respiratory syndrome[].The Lancet.2003
10Zhu QY,Qin ED,Wang CE,et al.Isolation and identification of a novel coronavirus from patients with SARS[].J Clin Biotechno! (Chin).2003

共引文献210

1王康泓,罗鸣越.siRNA用于COVID-19治疗的可行性及相关药物的研发进展与挑战[J].基因组学与应用生物学,2022,41(5):1134-1147.
2陆韻,陈应华.SARS相关病毒与鼠肝炎病毒S蛋白的同源暗示一个潜在受体结合区的存在[J].科学通报,2003,48(11):1197-1199. 被引量：3
3秦鄂德,祝庆余,于曼,范宝昌,常国辉,司炳银,杨保安,彭文明,姜涛,刘伯华,邓永强,刘洪,张雨,王翠娥,李豫川,甘永华,李晓萸,吕富双,谭刚,曹务春,杨瑞馥,汪建,李蔚,徐祖元,李彦,吴清发,林伟,陈维军,唐琳,邓亚军,韩玉军,李昌峰,雷蒙,李国庆,李文杰,吕宏,石建萍,童宗中,张峰,李松岗,刘斌,刘斯奇,董伟,王俊,黄家树,于军,杨焕明.SARS相关病毒(BJ01株)的全序列及其比较分析[J].科学通报,2003,48(11):1127-1134. 被引量：17
4刘志伟,龙北国,赵卫.SARS冠状病毒Mc区原核表达及包涵体复性的研究[J].微生物学免疫学进展,2007,35(3):12-15. 被引量：1
5祝玉卿,魏萍,曾祥伟,杨阳,张芳.血清中IBV特异性IgG及总IgG含量变化规律的研究[J].中国家禽,2005,27(z1):125-128.
6梁艳,匡铁吉,何菊芳,雷红,董梅,佟爱华,许桂颖.SARS病毒基因检测结果与患者病情、病程和体液免疫的关系研究[J].实用医技杂志,2004,11(6):676-677.
7梁艳,匡铁吉,陈石,宋萍,郭旭.SARS病毒基因和特异性抗体检测效果评估[J].实用医技杂志,2004,11(8):978-979.
8广东省防治非典型肺炎科技攻关专题组,张勤奋,崔金明,黄小俊,林伟,谭冬艳,徐洁薇,杨艺峰,张景强,张欣,李晖,郑焕英,陈秋霞,郑夔,鄢心革,万卓越,黄吉城.严重急性呼吸综合征病毒的形态与发生[J].广东医学,2003,24(z1):3-6. 被引量：3
9广东省防治非典型肺炎科技攻关病原分离组,石嵘,马文丽,吴清华,张宝,宋艳斌,郭秋野,肖维威,王艳,郑文岭.SARS冠状病毒检测60mer寡核苷酸基因芯片的设计及应用[J].广东医学,2003,24(z1):14-17.
10姜焱,张常印,张敬友.SARS病毒的分子生物学研究进展[J].生物信息学,2004,2(1):32-34.

同被引文献39

1Chenwei Wang,Haodong Xu,Shaofeng Lin,Wankun Deng,Jiaqi Zhou,Ying Zhang,Ying Shi,Di Peng,Yu Xue.GPS 5.0: An Update on the Prediction of Kinase-specific Phosphorylation Sites in Proteins[J].Genomics, Proteomics & Bioinformatics,2020,18(1):72-80. 被引量：5
2Ai-XiaREN,You-HuaXIE,Yu-YingKONG,Guan-ZhenYANG,Yao-ZhouZHANG,YuanWANG,Xiang-FuWU.Expression, Purification and Sublocalization of SARS-CoV Nucleocapsid Protein in Insect Cells[J].Acta Biochimica et Biophysica Sinica,2004,36(11):754-758. 被引量：4
3Zhao P Cao J Zhao LJ Ke JS Pan W Ren H Yu JG Qi ZT.Immune responses against SARS-coronavirus nucleocapsid protein induced by DNA vaccine[J].第二军医大学学报,2005,26(10):1170-1170. 被引量：12
4CheXY HaoW QiuLW etal.Antibody resonse of patiens with severe acute respiratory syndrome[SARS] to nucleocapsid antigen of SARS—associated coronavirus[J].第一军医大学学报,2003,23:637-637.
5Chan PK,Ng KC,Chan RC,et al.Immunofluorescence assay for serologic diagnosis of SARS[J].Emerg Infect Dis,2004,10:530.
6Chan KH,Poon LL,Cheng VC,et al.Detection of SARS coronavirus in patients with suspected SARS[J].Emerg Infect Dis,2004,10:294.
7Poon LL,Womg OK,Chan KH,et al.Rapid diagnosis of a coronavirus associated with severe acute respiratory syndrome [SARS][J].Clin Chem,2003,49:953.
8Wu HS,Hsieh YC,Su IJ,et al.Early detection of antibodies against various structural proteins of the SARS-associatd coronavirus in SARS patients[J].J Biomed Sci,2004,11:117.
9Kim TW,Lee JH,Hung CF,et al.Generation and characterization of DNA Vaccines targeting the nucleocapsid protein of severe acute respiatory syndrome coronavirus[J].J Virol,2004,78:4638.
10Zhu MS,Pan Y,Chen HQ,et al.Induction of SARS-nucleo protein-specific immune response by use of DNA vaccine[J].Immunol Lett,2004,92:237.

引证文献4

1张政,徐东平,李永纲,金磊,褚福亮,王福生.北京地区传播的SARS冠状病毒N区基因变异分析[J].中国生物工程杂志,2004,24(7):98-102. 被引量：1
2陈巧林,朴海燕,何菁,李晶,栗占国.干燥综合征特异性α-胞衬蛋白的抗原表位筛选及鉴定[J].中国免疫学杂志,2005,21(11):864-867. 被引量：5
3刘俊丽,曹诚,马清钧.SARS冠状病毒核衣壳蛋白的研究进展[J].生物技术通讯,2006,17(2):238-241. 被引量：3
4Zeyu Sun,Xiaoqin Zheng,Feiyang Ji,Menghao Zhou,Xiaoling Su,Keyi Ren,Lanjuan Li.Mass Spectrometry Analysis of SARS-CoV-2 Nucleocapsid Protein Reveals Camouflaging Glycans and Unique Post-Translational Modifications[J].Infectious Microbes & Diseases,2021,3(3):149-157. 被引量：1

二级引证文献10

1陈巧林,李想,何文智,雷静,邹新乐,曾令文.α-胞衬蛋白抗原多肽的筛选及其在干燥综合征临床诊断中的意义[J].中国免疫学杂志,2007,23(11):1022-1025. 被引量：1
2黄清水,乐爱平,罗忠勤,李俊明,王文强,鞠北华,万腊根.抗α-胞衬蛋白抗体对干燥综合征诊断价值的荟萃分析[J].中华医学杂志,2008,88(42):2971-2976. 被引量：11
3刘传慧,张依山,王雷鸣,张学武,栗占国.抗α胞衬蛋白抗体与干燥综合征的相关性研究[J].临床荟萃,2010,25(1):55-56. 被引量：4
4何菁,郭嘉隆,李英妮,丁艳,韩蕾,贾汝琳,栗占国.抗α-胞衬蛋白多肽IgA抗体对干燥综合征的诊断价值[J].中华临床免疫和变态反应杂志,2010,4(2):91-96. 被引量：7
5张文兰,胡同平,王永福,尹芳蕊,赵剑波.抗α-胞衬蛋白抗体在干燥综合征诊断和鉴别诊断中的作用[J].现代预防医学,2012,39(20):5388-5389.
6谭明凯,区静怡,黄颖,李燕,麦洁雯,马成慧,石亚玲.新型冠状病毒3种抗体试剂盒的性能评估及临床应用初探[J].中华微生物学和免疫学杂志,2020,40(4):250-255. 被引量：4
7黄亚雄,谢君,钟正,蔡春琳,谢元林,郑芳,唐伟.2019冠状病毒病168例临床分析[J].中国感染与化疗杂志,2020,20(4):359-361.
8孙莉,朱晋升,代蕾颖,宋伟,杨忠,王会如.国产新型冠状病毒IgG抗体检测试剂盒的性能比较[J].医疗卫生装备,2021,42(6):56-59. 被引量：5
9惠子夜,于汉杰,舒健,任夏萌,陈闻天.冠状病毒的糖基化研究进展[J].生物化学与生物物理进展,2022,49(3):540-552. 被引量：4
10海毕瑞,杨扬,刘世火,吴峻,徐家萍.2019-nCoV N蛋白在家蚕杆状病毒表达系统中的表达及纯化[J].蚕业科学,2023,49(4):333-339.

1Wenzhi Feng,Wenhao Zhang,Hui Wang,Lili Ma,Di Miao,Zexian Liu,Yu Xue,Haiteng Deng,Li Yu.Analysis of phosphorylation sites on autophagy proteins[J].Protein & Cell,2015,6(9):698-701.
2Xing, KY,Xin, H,Cao, KM,Sun, CR.Screening and structure analysis of a cDNA encoding RNA-binding protein[J].Chinese Science Bulletin,1997,42(8):689-693.
3白芸,于天维,赵颖旭,肖翌,杨宇丰,陈应华.A Novel Putative Tumor Associated Antigen[J].Tsinghua Science and Technology,1999,4(3):1568-1569.
42014ACC／AHA非ST段抬高型急性冠脉综合征（NSTE-ACS）患者管理指南[J].药学与临床研究,2014,22(5).
5Wenhua Kuang,Huanyu Zhang,Dianhai Hou,Manli Wang,Fei Deng,Hualin Wang,Zhihong Hu.P33 of Helicoverpa armigera single nucleocapsid nucleopolyhedrovirus is a functional homolog of AcP33[J].Virologica Sinica,2016,31(4):346-349. 被引量：1
6简讯[J].蚕业科学,2014,40(2):186-186.
7朱应,齐义鹏,刘子夜,肖庚富.Baculovirus-mediated gene transfer into mammalian cells[J].Science China(Life Sciences),1998,41(5):473-478.
8ZHANG Hai-tao,ZHANG Zhi-wen,XUE Jing-hui,KONG Hai-bo,LIU Ai-jun,LI Shou-chun,LIU Yu-xiao,XU Dong-gang.Differential expression of the RNA-binding motif protein 3 in human astrocytoma[J].Chinese Medical Journal,2013(10):1948-1952. 被引量：2
9Wei Gong,Kun He,Mike Covington,S. R Dinesh-Kumar,Michael Snyder,Stacey L. Harmer,Yu-Xian Zhu,Xing Wang Denga.The Development of Protein Microarrays and Their Applications in DNA-Protein and Protein-Protein Interaction Analyses of Arabidopsis Transcription Factors[J].Molecular Plant,2008,1(1):27-41. 被引量：7
10XIU WenQiong, WEN YuWei, SHEN XiaoNa, XIE JianFeng, YANG ShiQin, WU BingShan & WANG MeiAi Fujian Center for Disease Control & Prevention, Fuzhou 350001, China.Molecular evolution of influenza A (H3N2) viruses cir-culated in Fujian Province, China during the 1996-2004 period[J].Science China(Life Sciences),2008,51(4):373-380.

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