Literature detail

Genomic characterization of the 2019 novel human-pathogenic coronavirus isolated from a patient with atypical pneumonia after visiting Wuhan.

Jasper Fuk-Woo Chan^1,2,3,4 Kin-Hang Kok^1,3,4 Zheng Zhu³ Hin Chu^1,3,4 Kelvin Kai-Wang To^1,2,3,4 Shuofeng Yuan^1,3,4 Kwok-Yung Yuen^2,3,4

Affiliations 4 institutions

State Key Laboratory of Emerging Infectious Diseases, The University of Hong Kong, Pokfulam, Hong Kong Special Administrative Region, China.
Department of Clinical Microbiology and Infection Control, The University of Hong Kong-Shenzhen Hospital, Shenzhen, Guangdong, People's Republic of China.
Department of Microbiology, Li Ka Shing Faculty of Medicine, The University of Hong Kong, Pokfulam, Hong Kong Special Administrative Region, China.
Carol Yu Centre for Infection, Li Ka Shing Faculty of Medicine, The University of Hong Kong, Pokfulam, Hong Kong Special Administrative Region, China.

PMID 31987001 2020 Emerg Microbes Infect eng epublish

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Article

Publication summary

A mysterious outbreak of atypical pneumonia in late 2019 was traced to a seafood wholesale market in Wuhan of China. Within a few weeks, a novel coronavirus tentatively named as 2019 novel coronavirus (2019-nCoV) was announced by the World Health Organization. We performed bioinformatics analysis on a virus genome from a patient with 2019-nCoV infection and compared it with other related coronavirus genomes. Overall, the genome of 2019-nCoV has 89% nucleotide identity with bat SARS-like-CoVZXC21 and 82% with that of human SARS-CoV. The phylogenetic trees of their orf1a/b, Spike, Envelope, Membrane and Nucleoprotein also clustered closely with those of the bat, civet and human SARS coronaviruses. However, the external subdomain of Spike's receptor binding domain of 2019-nCoV shares only 40% amino acid identity with other SARS-related coronaviruses. Remarkably, its orf3b encodes a completely novel short protein. Furthermore, its new orf8 likely encodes a secreted protein with an alpha-helix, following with a beta-sheet(s) containing six strands. Learning from the roles of civet in SARS and camel in MERS, hunting for the animal source of 2019-nCoV and its more ancestral virus would be important for understanding the origin and evolution of this novel lineage B <i>betacoronavirus</i>. These findings provide the basis for starting further studies on the pathogenesis, and optimizing the design of diagnostic, antiviral and vaccination strategies for this emerging infection.

bioinformatics Coronavirus emerging genome respiratory SARS virus Wuhan Genome, Viral Amino Acid Sequence Betacoronavirus China Coronavirus Infections COVID-19 Humans Phylogeny Pneumonia, Viral SARS-CoV-2

Structured evidence records

Evidence records

4 total

Molecular Adaptation 3 records

Molecular Adaptation Extraction confidence 0.85

Key finding

SARS‑CoV‑2 spike receptor-binding domain shows significant sequence divergence from other SARS-related coronaviruses, indicating molecular adaptation in receptor binding sites.

Virus

Host

Location

Supporting text

The external subdomain of Spike's receptor binding domain of 2019-nCoV shares only 40% amino acid identity with other SARS-related coronaviruses.

Genes or proteins: Spike
Mechanism types: receptor_binding

Molecular Adaptation Extraction confidence 0.80

Key finding

A novel short protein is encoded by the SARS‑CoV‑2 orf3b gene, representing a distinct molecular feature relative to SARS-related viruses.

Virus

Host

Location

Supporting text

Its orf3b encodes a completely novel short protein.

Genes or proteins: orf3b
Mechanism types: genomic_novelty

Molecular Adaptation Extraction confidence 0.80

Key finding

The predicted ORF8 protein of SARS‑CoV‑2 has a unique structural configuration suggesting functional differentiation from other SARS-related coronaviruses.

Virus

Host

Location

Supporting text

Its new orf8 likely encodes a secreted protein with an alpha-helix, following with a beta-sheet(s) containing six strands.

Genes or proteins: orf8
Mechanism types: structural_adaptation

Genomic Evolution 1 records

Genomic Evolution Extraction confidence 0.95

Key finding

Phylogenetic and comparative genomic analyses showed that 2019-nCoV is closely related to bat SARS-like coronaviruses and SARS-CoV, forming a lineage within the betacoronaviruses that includes bat, civet, and human SARS coronaviruses.

Virus

Host

Location

Supporting text

We performed bioinformatics analysis on a virus genome from a patient with 2019-nCoV infection and compared it with other related coronavirus genomes. Overall, the genome of 2019-nCoV has 89% nucleotide identity with bat SARS-like-CoVZXC21 and 82% with that of human SARS-CoV. The phylogenetic trees of their orf1a/b, Spike, Envelope, Membrane and Nucleoprotein also clustered closely with those of the bat, civet and human SARS coronaviruses.

Genes or proteins: orf1a/b; Spike; Envelope; Membrane; Nucleoprotein
Analysis methods: bioinformatics analysis; genome comparison; phylogenetic analysis

Citation context

References

27 references

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Evidence overview

Evidence 4

Types 2

Virus 1

Host 1

Evidence types

Molecular Adaptation 3 Genomic Evolution 1

Linked entities

Viruses

Hosts

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Publication metadata

Journal: Emerging microbes & infections
Volume / Issue / Pages: 9 / 1 / 221-236
ISSN: 2222-1751
Journal country: United States
DOI: 10.1080/22221751.2020.1719902