The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus-like structure

Chung Ke Chang; Shih Che Sue; Tsan Hung Yu; Chiu Min Hsieh; Cheng Kun Tsai; Yen Chieh Chiang; Shin Jye Lee; Hsin Hao Hsiao; Wen Jin Wu; Chi Fon Chang; Tai Huang Huang

doi:10.1016/j.febslet.2005.09.038

The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus-like structure

Chung Ke Chang
, Shih Che Sue
, Tsan Hung Yu
, Chiu Min Hsieh
, Cheng Kun Tsai
, Yen Chieh Chiang
, Shin Jye Lee
, Hsin Hao Hsiao
, Wen Jin Wu
, Chi Fon Chang
, Tai Huang Huang^*

^*Corresponding author for this work

Department of Physics

Research output: Contribution to journal › Article › peer-review

43 Citations (Scopus)

Abstract

We have employed NMR to investigate the structure of SARS coronavirus nucleocapsid protein dimer. We found that the secondary structure of the dimerization domain consists of five α helices and a β-hairpin. The dimer interface consists of a continuous four-stranded β-sheet superposed by two long α helices, reminiscent of that found in the nucleocapsid protein of porcine respiratory and reproductive syndrome virus. Extensive hydrogen bond formation between the two hairpins and hydrophobic interactions between the β-sheet and the α helices render the interface highly stable. Sequence alignment suggests that other coronavirus may share the same structural topology.

Original language	English
Pages (from-to)	5663-5668
Number of pages	6
Journal	FEBS Letters
Volume	579
Issue number	25
DOIs	https://doi.org/10.1016/j.febslet.2005.09.038
Publication status	Published - 2005 Oct 24

Keywords

Capsid protein
Coronavirus
NMR
Oligomerization
SARS

ASJC Scopus subject areas

Biophysics
Structural Biology
Biochemistry
Molecular Biology
Genetics
Cell Biology

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10.1016/j.febslet.2005.09.038

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Chang, C. K., Sue, S. C., Yu, T. H., Hsieh, C. M., Tsai, C. K., Chiang, Y. C., Lee, S. J., Hsiao, H. H., Wu, W. J., Chang, C. F., & Huang, T. H. (2005). The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus-like structure. FEBS Letters, 579(25), 5663-5668. https://doi.org/10.1016/j.febslet.2005.09.038

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title = "The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus-like structure",

abstract = "We have employed NMR to investigate the structure of SARS coronavirus nucleocapsid protein dimer. We found that the secondary structure of the dimerization domain consists of five α helices and a β-hairpin. The dimer interface consists of a continuous four-stranded β-sheet superposed by two long α helices, reminiscent of that found in the nucleocapsid protein of porcine respiratory and reproductive syndrome virus. Extensive hydrogen bond formation between the two hairpins and hydrophobic interactions between the β-sheet and the α helices render the interface highly stable. Sequence alignment suggests that other coronavirus may share the same structural topology.",

keywords = "Capsid protein, Coronavirus, NMR, Oligomerization, SARS",

author = "Chang, \{Chung Ke\} and Sue, \{Shih Che\} and Yu, \{Tsan Hung\} and Hsieh, \{Chiu Min\} and Tsai, \{Cheng Kun\} and Chiang, \{Yen Chieh\} and Lee, \{Shin Jye\} and Hsiao, \{Hsin Hao\} and Wu, \{Wen Jin\} and Chang, \{Chi Fon\} and Huang, \{Tai Huang\}",

note = "Funding Information: This work was supported in part by the Academia Sinica and by grants (Grants NSC 92-2113-M-001-056 and NSC 92-2751-B-001-020-Y) from the National Science Council of the Republic of China. The NMR spectra were obtained at the High-field Nuclear Magnetic Resonance Center (HF-NMRC), National Research Program for Genomic Medicine (NRPGM), Taiwan, ROC. ",

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T1 - The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus-like structure

AU - Chang, Chung Ke

AU - Sue, Shih Che

AU - Yu, Tsan Hung

AU - Hsieh, Chiu Min

AU - Tsai, Cheng Kun

AU - Chiang, Yen Chieh

AU - Lee, Shin Jye

AU - Hsiao, Hsin Hao

AU - Wu, Wen Jin

AU - Chang, Chi Fon

AU - Huang, Tai Huang

N1 - Funding Information: This work was supported in part by the Academia Sinica and by grants (Grants NSC 92-2113-M-001-056 and NSC 92-2751-B-001-020-Y) from the National Science Council of the Republic of China. The NMR spectra were obtained at the High-field Nuclear Magnetic Resonance Center (HF-NMRC), National Research Program for Genomic Medicine (NRPGM), Taiwan, ROC.

PY - 2005/10/24

Y1 - 2005/10/24

N2 - We have employed NMR to investigate the structure of SARS coronavirus nucleocapsid protein dimer. We found that the secondary structure of the dimerization domain consists of five α helices and a β-hairpin. The dimer interface consists of a continuous four-stranded β-sheet superposed by two long α helices, reminiscent of that found in the nucleocapsid protein of porcine respiratory and reproductive syndrome virus. Extensive hydrogen bond formation between the two hairpins and hydrophobic interactions between the β-sheet and the α helices render the interface highly stable. Sequence alignment suggests that other coronavirus may share the same structural topology.

AB - We have employed NMR to investigate the structure of SARS coronavirus nucleocapsid protein dimer. We found that the secondary structure of the dimerization domain consists of five α helices and a β-hairpin. The dimer interface consists of a continuous four-stranded β-sheet superposed by two long α helices, reminiscent of that found in the nucleocapsid protein of porcine respiratory and reproductive syndrome virus. Extensive hydrogen bond formation between the two hairpins and hydrophobic interactions between the β-sheet and the α helices render the interface highly stable. Sequence alignment suggests that other coronavirus may share the same structural topology.

KW - Capsid protein

KW - Coronavirus

KW - NMR

KW - Oligomerization

KW - SARS

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The dimer interface of the SARS coronavirus nucleocapsid protein adapts a porcine respiratory and reproductive syndrome virus-like structure

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