Genome Organization of the SARS-CoV

Genome Organization of the SARS-CoV

导出

摘要 Annotation of the genome sequence of the SARS-CoV (severe acute respiratory syndrome-associated coronavirus) is indispensable to understand its evolution and pathogenesis. We have performed a full annotation of the SARS-CoV genome sequences by using annotation programs publicly available or developed by ourselves. Totally, 21 open reading frames (ORFs) of genes or putative uncharacterized proteins (PUPs) were predicted. Seven PUPs had not been reported previously, and two of them were predicted to contain transmembrane regions. Eight ORFs partially overlapped with or embedded into those of known genes, revealing that the SARS-CoV genome is a small and compact one with overlapped coding regions. The most striking discovery is that an ORF locates on the minus strand. We have also annotated non-coding regions and identified the transcription regulating sequences (TRS) in the intergenic regions. The analysis of TRS supports the minus strand extending transcription mechanism of coronavirus. The SNP analysis of different isolates reveals that mutations of the sequences do not affect the prediction results of ORFs. Annotation of the genome sequence of the SARS-CoV (severe acute respiratory syndrome-associated coronavirus) is indispensable to understand its evolution and pathogenesis. We have performed a full annotation of the SARS-CoV genome sequences by using annotation programs publicly available or developed by ourselves. Totally, 21 open reading frames (ORFs) of genes or putative uncharacterized proteins (PUPs) were predicted. Seven PUPs had not been reported previously, and two of them were predicted to contain transmembrane regions. Eight ORFs partially overlapped with or embedded into those of known genes, revealing that the SARS-CoV genome is a small and compact one with overlapped coding regions. The most striking discovery is that an ORF locates on the minus strand. We have also annotated non-coding regions and identified the transcription regulating sequences (TRS) in the intergenic regions. The analysis of TRS supports the minus strand extending transcription mechanism of coronavirus. The SNP analysis of different isolates reveals that mutations of the sequences do not affect the prediction results of ORFs.

作者 JingXu JianfeiHu JingWang YujunHan YongwuHu JieWen YanLi JiaJi JiaYe ZizhangZhang WeiWei SonggangLi JunWang JianWang JunYu HuanmingYang

机构地区 BeijingGenomicsInstitute CollegeofLifeSciences WenzhouMedicalCollege JamesD.WatsonInstituteofGenomeSciences CollegeofMaterialsScienceandChemicalEngineering

出处《Genomics, Proteomics & Bioinformatics》 SCIE CAS CSCD 2003年第3期226-235,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 genome annotation TRANSCRIPTION ORF PUP TRS SARS-CoV, genome annotation, transcription, ORF, PUP, TRS

分类号 Q939.4 [生物学—微生物学] R373.1 [医药卫生—病原生物学]

引文网络
相关文献

参考文献1

1QIN 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10

1Lee,N,Hui,D,Wu,A. et al.A major outbreak of severe acute respiratory syndrome inHongKong[].The New England Journal of Medicine. 被引量：1
2.VirusTaxonomy[]..2001 被引量：1
3Uchil,P.D,Satchidanandam,V.Characterization ofRNA synthesis, replication mechanism, and in vitroRNA-dependentRNA polymerase activity ofJapanese encephalitis virus[].Journal of Virology.2003 被引量：1
4Henkel,J.Attacking AIDS with a揷ocktail?therapy?[].FDA Consumer.1999 被引量：1
5Popova,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 被引量：1
6Peiris J S,Lai S T,Poon L L,et al.Coronavirus as a possible cause of severe acute respiratory syndrome[].The Lancet.2003 被引量：1
7Zhu QY,Qin ED,Wang CE,et al.Isolation and identification of a novel coronavirus from patients with SARS[].J Clin Biotechno! (Chin).2003 被引量：1
8Suan M. Poutanen,,Donald E. Low.,Bonnie Henry etal.Identification of severe acute respiratory syndrome in Canada[].wwwnejmorg on.2003 被引量：1
9Alam,SL,Atkins,JF,Gesteland,RF.Programmed ribosomal frameshifting: much ado about knotting![].Proceedings of the National Academy of Sciences of the United States of America.1999 被引量：1
10Ksiazek T G,Erdman D,Goldsmith C S, et al.A novel coronavirus associated with severe acute respiratory syndrome[].N Engl J Med. 被引量：1

共引文献121

1陆韻,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
2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
3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.
4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.
5曹聪.权威、合作和科学发现 SARS和中国科学共同体[J].科学文化评论,2006,3(6):5-19. 被引量：7
6王晓明,邢旺兴.SARS防治药物的研究概况[J].东南国防医药,2003,5(3):235-239.
7SHI Rong,MA Wenli,WU Qinghua,ZHANG Bao,SONG Yanbin,GUO Qiuye,XIAO Weiwei,WANG Yan,ZHENG Wenling.Design and application of 60mer oligonucleotide microarray in SARS coronavirus detection[J].Chinese Science Bulletin,2003,48(12):1165-1169. 被引量：4
8GAO Lei,QI Ji,WEI Haibin,SUN Yigang,HAO Bailin.Molecular phylogeny of coronaviruses including human SARS-CoV[J].Chinese Science Bulletin,2003,48(12):1170-1174. 被引量：7
9QI Zhen,HU Yu,LI Wei,CHEN Yanjun,ZHANG Zhihua,SUN Shiwei,LU Hongchao,ZHANG Jingfen,BU Dongbo,LING Lunjiang,CHEN Runsheng.Phylogeny of SARS-CoV as inferred from complete genome comparison[J].Chinese Science Bulletin,2003,48(12):1175-1178.
10陈悦青,钱汶,毛子安.SARS—CoV基因组全序列特点及意义[J].国外医学（流行病学．传染病学分册）,2004,31(3):139-142. 被引量：1

1贺石林,陈方平,张广森,文志斌.Heighten the Study on Factor Seven Activating Protease[J].血栓与止血学,2008,14(3):99-100.
2Vijay Ramani,Jay Shendure,Zhijun Duan.Understanding Spatial Genome Organization:Methods and Insights[J].Genomics, Proteomics & Bioinformatics,2016,14(1):7-20. 被引量：4
3JianfeiHu,JingWang,JingXu,WeiLi,YujunHan,YanLi,JiaJi,JiaYe,ZhaoXu,ZizhangZhang,WeiWei,SonggangLi,JunWang,JianWang,JunYu,HuanmingYang.Evolution and Variation of the SARS-CoV Genome[J].Genomics, Proteomics & Bioinformatics,2003,1(3):216-225.
4JIANG XinQuan,ZHANG ZhenJie,ZHUANG DongMing,CARR Michael J.,ZHANG RuiLing,LV Qiang,SHI WeiFeng.Non-coding regions of the Ebola virus genome contain indispensable phylogenetic and evolutionary information[J].Science China(Life Sciences),2015,58(7):682-686. 被引量：2
5Tibetan Antelope’s Mitochondrial Genome Sequenced[J].Bulletin of the Chinese Academy of Sciences,2006,20(1):11-12.
6杨国良,费小战,陈焕春,郭爱珍.SARS病毒受体ACE2的克隆、原核表达及其功能区鉴定[J].病毒学报,2006,22(2):118-122. 被引量：2
7陈炯,郑红英,陈剑平,杨崇良.Genome organization and variation in the 3’-partial sequence of garlic latent virus in China[J].Science China(Life Sciences),2002,45(4):441-448. 被引量：1
8Haibin Xu,Jingyuan Song,Hongmei Luo,Yujun Zhang,Qiushi Li,Yingjie Zhu,Jiang Xu,Ying Li,Chi Song,Bo Wang,Wei Sun,Guoan Shen,Xin Zhang,Jun Qian,Aijia Ji,Zhichao Xu,Xiang Luo,Liu He,Chuyuan Li,Chao Sun,Haixia Yah,Guanghong Cui,Xiwen Li,Xian 'en Li,Jianhe Wei,Juyan Liu,Yitao Wang,Alice Hayward,David Nelson,Zemin Ning,Reuben J. Peters,Xiaoquan Qi,Shilin Chen.aunalysis of the Genome Sequence of the Medicinal Plant Salvia miltiorrhiza[J].Molecular Plant,2016,9(6):949-952. 被引量：77
9WenbingChen ShousongLi BiyingShao TengZheng ShuxunJiang XiaorongHuan KaizhenCai ZhidengZhang.Preliminary Study on Detecting the SARS-CoV Specific Target cDNA Fragments by Multiplex PCR[J].Genomics, Proteomics & Bioinformatics,2004,2(1):55-58. 被引量：2
10Peng Zhou,Zhenggang Han,Lin-Fa Wang,Zhengli Shi.Identification of Immunogenic Determinants of the Spike Protein of SARS-like Coronavirus[J].Virologica Sinica,2013,28(2):92-96. 被引量：1

Genomics, Proteomics & Bioinformatics

2003年第3期

浏览历史

内容加载中请稍等...

Genome Organization of the SARS-CoV

参考文献1

二级参考文献10

共引文献121

相关作者

相关机构

相关主题

浏览历史