The first complete genome sequences of clinical isolates of human coronavirus 229E

被引:31
|
作者
Farsani, Seyed Mohammad Jazaeri [1 ,2 ]
Dijkman, Ronald [1 ]
Jebbink, Maarten F. [1 ]
Goossens, Herman [3 ]
Ieven, Margareta [3 ]
Deijs, Martin [1 ]
Molenkamp, Richard [4 ]
van der Hoek, Lia [1 ]
机构
[1] Univ Amsterdam, Acad Med Ctr, Dept Med Microbiol, Lab Expt Virol,Ctr Infect & Immun Amsterdam CINIM, NL-1105 AZ Amsterdam, Netherlands
[2] Univ Tehran Med Sci, Tehran, Iran
[3] Univ Antwerp, Univ Antwerp Hosp, Vaccine & Infect Dis Inst, Dept Med Microbiol, B-2020 Antwerp, Belgium
[4] Univ Amsterdam, Acad Med Ctr, Dept Med Microbiol, Lab Clin Virol,Ctr Infect & Immun Amsterdam CINIM, NL-1105 AZ Amsterdam, Netherlands
来源
VIRUS GENES | 2012年 / 45卷 / 03期
关键词
Human coronavirus 229E; Respiratory tract infection; Complete genome sequence; Spike gene; ORF4; gene; Nucleocapsid gene; 3' UNTRANSLATED REGION; RESPIRATORY-TRACT; RNA; VIRUS; SPIKE; REPLICATION; HCOV-229E; PROTEINS; ENCODES; FUSION;
D O I
10.1007/s11262-012-0807-9
中图分类号
Q3 [遗传学];
学科分类号
071007 ; 090102 ;
摘要
Human coronavirus 229E has been identified in the mid-1960s, yet still only one full-genome sequence is available. This full-length sequence has been determined from the cDNA-clone Inf-1 that is based on the lab-adapted strain VR-740. Lab-adaptation might have resulted in genomic changes, due to insufficient pressure to maintain gene integrity of non-essential genes. We present here the first full-length genome sequence of two clinical isolates. Each encoded gene was compared to Inf-1. In general, little sequence changes were noted, most could be attributed to genetic drift, since the clinical isolates originate from 2009 to 2010 and VR740 from 1962. Hot spots of substitutions were situated in the S1 region of the Spike, the nucleocapsid gene, and the non-structural protein 3 gene, whereas several deletions were detected in the 3'UTR. Most notable was the difference in genome organization: instead of an ORF4A and ORF4B, an intact ORF4 was present in clinical isolates.
引用
收藏
页码:433 / 439
页数:7
相关论文
共 50 条
  • [31] Effectiveness of antiviral metal and metal oxide thin-film coatings against human coronavirus 229E
    Delumeau, Louis-Vincent
    Asgarimoghaddam, Hatameh
    Alkie, Tamiru
    Jones, Alexander James Bryan
    Lum, Samantha
    Mistry, Kissan
    Aucoin, Marc G.
    DeWitte-Orr, Stephanie
    Musselman, Kevin P.
    APL MATERIALS, 2021, 9 (11)
  • [32] Identification of a Novel Neutralizing Epitope on the N-Terminal Domain of the Human Coronavirus 229E Spike Protein
    Shi, Jiale
    Shi, Yuejun
    Xiu, Ruixue
    Wang, Gang
    Liang, Rui
    Jiao, Yuzhou
    Shen, Zhou
    Zhu, Chengliang
    Peng, Guiqing
    JOURNAL OF VIROLOGY, 2022, 96 (04)
  • [33] Human Coronavirus 229E Infection Inactivates Pyroptosis Executioner Gasdermin D but Ultimately Leads to Lytic Cell Death Partly Mediated by Gasdermin E
    Martianez-Vendrell, Xavier
    Bloeme-ter Horst, Jonna
    Hutchinson, Roy
    Guy, Coralie
    Bowie, Andrew G.
    Kikkert, Marjolein
    VIRUSES-BASEL, 2024, 16 (06):
  • [34] Overinterpretation of the antiviral results for human coronavirus strain 229E (HCoV-229E) relative to severe acute respiratory syndrome coronavirus-2 (SARS-CoV-2)
    Shewale, Jaiprakash G.
    Ratcliff, James L.
    JOURNAL OF MEDICAL VIROLOGY, 2021, 93 (04) : 1900 - 1902
  • [35] Sustainable Polyphenol-Rich Extracts from Agricultural By-Products: Infectivity Inhibition Potential for Human Coronavirus 229E
    Teichenne, Joan
    Tobajas, Yaiza
    Leonard, Kevin
    Tchoumtchoua, Job
    Escote, Xavier
    MOLECULES, 2025, 30 (08):
  • [36] Circulation of human coronaviruses OC43 and 229E in Cordoba, Argentina
    Ottogalli, Maria Emilia
    Rodriguez, Pamela Elizabeth
    Frutos, Maria Celia
    Moreno, Laura Beatriz
    Ghietto, Lucia Maria
    Cuffini, Cecilia Gabriela
    Camara, Jorge Augusto
    Adamo, Maria Pilar
    Valinotto, Laura Elena
    Camara, Alicia
    ARCHIVES OF VIROLOGY, 2021, 166 (03) : 929 - 933
  • [37] Induction of antiviral gene expression by cyclosporine A, but not inhibition of cyclophilin A or B, contributes to its restriction of human coronavirus 229E infection in a lung epithelial cell line
    Mamatis, John E.
    Gallardo-Flores, Carla E.
    Sangwan, Ujjwal
    Tooley, Trinity H.
    Walsh, Taylor
    Colpitts, Che C.
    ANTIVIRAL RESEARCH, 2023, 219
  • [38] Influences of cyclosporin A and non-immunosuppressive derivatives on cellular cyclophilins and viral nucleocapsid protein during human coronavirus 229E replication
    Ma-Lauer, Yue
    Zheng, Yu
    Malesevic, Miroslav
    von Brunn, Brigitte
    Fischer, Gunter
    von Brunn, Albrecht
    ANTIVIRAL RESEARCH, 2020, 173
  • [39] Survival of human coronavirus 229E at different temperatures on various food-contact surfaces and food and under simulated digestive conditions
    Lee, Eun Ji
    Han, Sangha
    Hyun, Seok-Woo
    Song, Gyeong Bae
    Ha, Sang -Do
    FOOD RESEARCH INTERNATIONAL, 2022, 162
  • [40] The ADP-ribose-1"-monophosphatase domains of severe acute respiratory syndrome coronavirus and human coronavirus 229E mediate resistance to antiviral interferon responses
    Kuri, Thomas
    Eriksson, Klara K.
    Putics, Akos
    Zuest, Roland
    Snijder, Eric J.
    Davidson, Andrew D.
    Siddell, Stuart G.
    Thiel, Volker
    Ziebuhr, John
    Weber, Friedemann
    JOURNAL OF GENERAL VIROLOGY, 2011, 92 : 1899 - 1905
12345